diff --git a/DECAY.DEC b/DECAY.DEC
index 383d2a7..3288fe7 100644
--- a/DECAY.DEC
+++ b/DECAY.DEC
@@ -1,10171 +1,10171 @@
########################################################################
# Copyright 1998-2020 CERN for the benefit of the EvtGen authors #
# #
# This file is part of EvtGen. #
# #
# EvtGen is free software: you can redistribute it and/or modify #
# it under the terms of the GNU General Public License as published by #
# the Free Software Foundation, either version 3 of the License, or #
# (at your option) any later version. #
# #
# EvtGen is distributed in the hope that it will be useful, #
# but WITHOUT ANY WARRANTY; without even the implied warranty of #
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the #
# GNU General Public License for more details. #
# #
# You should have received a copy of the GNU General Public License #
# along with EvtGen. If not, see . #
########################################################################
# Updated to PDG 2010 by Tomas Pilar - T.Pilar@warwick.ac.uk
# Updated Mixing Parameters Mark Whitehead May 2009
#
Define qoverp_incohMix_B_s0 1.0
Define dm_incohMix_B_s0 17.8e12
Define qoverp_incohMix_B0 1.0
Define dm_incohMix_B0 0.507e12
# Old definition of dm still in some decay models
Define dm 0.507e12
#Define dgamma 0
#Define qoverp 1
#Define phaseqoverp 0
#Define values for B0s mixing
#Define dms 20.e12
# DeltaGammas corresponds to DG/G = 10%
#Define dgammas 6.852e10
# Activate incoherent Mixing
### TODO: find a way to give mixing parameters through decay file to EvtGen
#####yesIncoherentB0Mixing dm dgamma
#####yesIncoherentBsMixing dms dgammas
# define the values of the CKM angles (alpha=70, beta=40)
Define alpha 1.365
Define beta 0.39
Define gamma 1.387
Define twoBetaPlusGamma 2.167
Define betaPlusHalfGamma 1.0835
Define minusGamma -1.387
Define minusTwoBeta -0.78
# New definitions for psiKstar modes (Lange, July 26, 2000)
Define PKHplus 0.159
Define PKHzero 0.775
Define PKHminus 0.612
Define PKphHplus 1.563
Define PKphHzero 0.0
Define PKphHminus 2.712
Define Aplus 0.490
Define Azero 1.10
Define Aminus 0.4
#
Define phAplus 2.5
Define phAzero 0.0
Define phAminus -0.17
#
# These particle aliases are used in for CP violating decays
# in which the decay distributions depends on how the K* decayed.
#
#
Alias K*L K*0
Alias K*S K*0
Alias K*BL anti-K*0
Alias K*BS anti-K*0
Alias K*0T K*0
Alias anti-K*0T anti-K*0
Alias K*BR anti-K*0
Alias K*0R K*0
Alias anti-K_0*0N anti-K_0*0
Alias K_0*0N K_0*0
#
ChargeConj K*L K*BL
ChargeConj K*S K*BS
ChargeConj K*0T anti-K*0T
ChargeConj K_0*0N anti-K_0*0N
ChargeConj K*0R K*BR
#JetSet parameter modifications
#(Very important that there are no blank spaces in the parameter string!)
#Turn of B0-B0B mixing in JetSet:
#JetSetPar MSTJ(26)=0
# control of L=1 mesons (in order: J1S0 J0S1 J1S1 J2S1) - commented out by NB/WP
#JetSetPar PARJ(14)=0.05
#JetSetPar PARJ(15)=0.05
#JetSetPar PARJ(16)=0.05
#JetSetPar PARJ(17)=0.05
#cut-off parameter used to stop fragmentation process (should not be changed)
#####JetSetPar PARJ(33)=0.3 SET NOW IN GAUSS
# PR LHCb 10/01/2006
-# Turn on PHOTOS for all decays
-yesPhotos
+# Turn on FSR for all decays
+yesFSR
#
#
#Decay vpho
#1.000 PYCONT;
#Enddecay
#
# use new VSS_BMIX mixing decay model (DK,28-Oct-1999)
Decay Upsilon(4S)
0.515122645 B+ B- VSS; #[Reconstructed PDG2011]
0.483122645 B0 anti-B0 VSS_BMIX dm; #[Reconstructed PDG2011]
-0.000015583 e+ e- PHOTOS VLL; #[Reconstructed PDG2011]
-0.000015766 mu+ mu- PHOTOS VLL; #[Reconstructed PDG2011]
-0.000015766 tau+ tau- PHOTOS VLL; #[Reconstructed PDG2011]
+0.000015583 e+ e- FSR VLL; #[Reconstructed PDG2011]
+0.000015766 mu+ mu- FSR VLL; #[Reconstructed PDG2011]
+0.000015766 tau+ tau- FSR VLL; #[Reconstructed PDG2011]
0.000084099 Upsilon(2S) pi+ pi- VVPIPI; #[Reconstructed PDG2011]
0.000044342 Upsilon(2S) pi0 pi0 VVPIPI; #[Reconstructed PDG2011]
0.000080123 Upsilon pi+ pi- VVPIPI; #[Reconstructed PDG2011]
0.000044342 Upsilon pi0 pi0 VVPIPI; #[Reconstructed PDG2011]
0.000194392 Upsilon eta PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
# BF ~ (2J+1)E^3_gamma; see PRL 94, 032001
# V-> gamma S Partial wave (L,S)=(0,0)
0.000092625 gamma chi_b0(3P) HELAMP 1. 0. 1. 0.; #[Reconstructed PDG2011]
# V-> gamma V Partial wave (L,S)=(0,1)
0.000138938 gamma chi_b1(3P) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; #[Reconstructed PDG2011]
# V-> gamma T Partial wave (L,S)=(0,1)
0.000129084 gamma chi_b2(3P) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.; #[Reconstructed PDG2011]
# V-> gamma S Partial wave (L,S)=(0,0)
0.000002956 gamma chi_b0(2P) HELAMP 1. 0. 1. 0.; #[Reconstructed PDG2011]
# V-> gamma V Partial wave (L,S)=(0,1)
0.000007883 gamma chi_b1(2P) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; #[Reconstructed PDG2011]
# V-> gamma T Partial wave (L,S)=(0,1)
0.000011825 gamma chi_b2(2P) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.; #[Reconstructed PDG2011]
0.000837571 g g g PYTHIA 92;
0.000039415 gamma g g PYTHIA 92;
Enddecay
#
#
#
Decay anti-B0
# Updated to PDG 2008
# b -> c semileptonic
#
-0.0493 D*+ e- anti-nu_e PHOTOS HQET2 1.207 0.920 1.406 0.853; # 1.0 * PDG2014
-0.0219 D+ e- anti-nu_e PHOTOS HQET2 1.185 1.081; # 1.0 * PDG2014
-0.0042 D_1+ e- anti-nu_e PHOTOS ISGW2; # PDG2014+D_J below
-0.0045 D_0*+ e- anti-nu_e PHOTOS ISGW2; # PDG2014+D_J below
-0.0046 D'_1+ e- anti-nu_e PHOTOS ISGW2; # PDG2014+D_J below
-0.0033 D_2*+ e- anti-nu_e PHOTOS ISGW2; # PDG2014+D_J below
-0.00045 D*+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; # Increase by 1.5 compared to 2011
-0.00490 D*0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; # Same as 2011
-0.0015 D+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; # 1.5 * of 2011 table
-0.0043 D0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; # In principle should be in D**, but go to PDG2014 to fill inclusive
+0.0493 D*+ e- anti-nu_e FSR HQET2 1.207 0.920 1.406 0.853; # 1.0 * PDG2014
+0.0219 D+ e- anti-nu_e FSR HQET2 1.185 1.081; # 1.0 * PDG2014
+0.0042 D_1+ e- anti-nu_e FSR ISGW2; # PDG2014+D_J below
+0.0045 D_0*+ e- anti-nu_e FSR ISGW2; # PDG2014+D_J below
+0.0046 D'_1+ e- anti-nu_e FSR ISGW2; # PDG2014+D_J below
+0.0033 D_2*+ e- anti-nu_e FSR ISGW2; # PDG2014+D_J below
+0.00045 D*+ pi0 e- anti-nu_e FSR GOITY_ROBERTS; # Increase by 1.5 compared to 2011
+0.00490 D*0 pi+ e- anti-nu_e FSR GOITY_ROBERTS; # Same as 2011
+0.0015 D+ pi0 e- anti-nu_e FSR GOITY_ROBERTS; # 1.5 * of 2011 table
+0.0043 D0 pi+ e- anti-nu_e FSR GOITY_ROBERTS; # In principle should be in D**, but go to PDG2014 to fill inclusive
# Do same as for electrons
-0.0493 D*+ mu- anti-nu_mu PHOTOS HQET2 1.207 0.920 1.406 0.853; #[Reconstructed PDG2011]
-0.0219 D+ mu- anti-nu_mu PHOTOS HQET2 1.185 1.081; #[Reconstructed PDG2011]
-0.0042 D_1+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0045 D_0*+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0046 D'_1+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0033 D_2*+ mu- anti-nu_mu PHOTOS ISGW2;
-0.00045 D*+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
-0.00490 D*0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; #[Reconstructed PDG2011]
-0.0015 D+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
-0.0043 D0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
+0.0493 D*+ mu- anti-nu_mu FSR HQET2 1.207 0.920 1.406 0.853; #[Reconstructed PDG2011]
+0.0219 D+ mu- anti-nu_mu FSR HQET2 1.185 1.081; #[Reconstructed PDG2011]
+0.0042 D_1+ mu- anti-nu_mu FSR ISGW2;
+0.0045 D_0*+ mu- anti-nu_mu FSR ISGW2;
+0.0046 D'_1+ mu- anti-nu_mu FSR ISGW2;
+0.0033 D_2*+ mu- anti-nu_mu FSR ISGW2;
+0.00045 D*+ pi0 mu- anti-nu_mu FSR GOITY_ROBERTS;
+0.00490 D*0 pi+ mu- anti-nu_mu FSR GOITY_ROBERTS; #[Reconstructed PDG2011]
+0.0015 D+ pi0 mu- anti-nu_mu FSR GOITY_ROBERTS;
+0.0043 D0 pi+ mu- anti-nu_mu FSR GOITY_ROBERTS;
#
# b -> c tau nu
#
0.015000000 D*+ tau- anti-nu_tau ISGW2; #[Reconstructed PDG2011]
0.011000000 D+ tau- anti-nu_tau ISGW2; #[Reconstructed PDG2011]
0.0013 D_1+ tau- anti-nu_tau ISGW2;
0.0013 D_0*+ tau- anti-nu_tau ISGW2;
0.0020 D'_1+ tau- anti-nu_tau ISGW2;
0.0020 D_2*+ tau- anti-nu_tau ISGW2;
#
# b -> u l nu
#
# 03/28/01 S.Menke included inclusive B -> X_u l nu decays for m(X_u) > 1.26 GeV.
# with some thresholds to gradually switch from excl. to incl.
# modeling without big jumps keeping the better known excl.
# Brs at their actual values and constrain the incl. Br and
# weights in a way that ~40% of the total BR belongs to
# the mass region > 1.5 GeV
# October 20, 2004 - Lange - update using sl awg input
# March 30, 2005 J. Dingfelder: Updated B -> X_u l nu hybrid model
# (supersedes older version by S. Menke). Inclusive
# decays are reweighted in three kinematic
# variables mX, q2, and El (=> 512 weights total).
# The list of weights is included as ModelAlias
# once per B charge state.
# NOTE: - The specified parameters for model VUBHYBRID are:
# mb, a, alpha_s, nbins_mX, nbins_q2, nbins_El,
# list of threshold values for mX, q2, El in ascending order.
#
# *** DO NOT CHANGE ANY OF THESE PARAMETERS! ***
# Otherwise a new set of weights would be needed, since they were
# generated for a certain set of values for mb, a, excl. BFs, non-res BF.
#
# - If no binning (nbins or thresholds) are specified after the first
# three parameters (mb,a,alpha_s) no hybrid weighting is performed.
# --- Hybrid weights for neutral B -> Xu l nu decays
# NOTE: Do NOT CHANGE any BFs without using the corresponding set of
# hybrid weights (and vice versa).
-0.000145000 pi+ e- anti-nu_e PHOTOS ISGW2; # PDG2014
-0.000294000 rho+ e- anti-nu_e PHOTOS ISGW2; # PDG2014
-0.000000 D(2S)+ e- anti-nu_e PHOTOS ISGW2;
-0.000000 D*(2S)+ e- anti-nu_e PHOTOS ISGW2;
-0.001892 Xu+ e- anti-nu_e PHOTOS VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00;
-#
-0.000145000 pi+ mu- anti-nu_mu PHOTOS ISGW2; # PDG2014
-0.000294000 rho+ mu- anti-nu_mu PHOTOS ISGW2; # PDG2014
-0.000000 D(2S)+ mu- anti-nu_mu PHOTOS ISGW2;
-0.000000 D*(2S)+ mu- anti-nu_mu PHOTOS ISGW2;
-0.001892 Xu+ mu- anti-nu_mu PHOTOS VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00;
+0.000145000 pi+ e- anti-nu_e FSR ISGW2; # PDG2014
+0.000294000 rho+ e- anti-nu_e FSR ISGW2; # PDG2014
+0.000000 D(2S)+ e- anti-nu_e FSR ISGW2;
+0.000000 D*(2S)+ e- anti-nu_e FSR ISGW2;
+0.001892 Xu+ e- anti-nu_e FSR VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00;
+#
+0.000145000 pi+ mu- anti-nu_mu FSR ISGW2; # PDG2014
+0.000294000 rho+ mu- anti-nu_mu FSR ISGW2; # PDG2014
+0.000000 D(2S)+ mu- anti-nu_mu FSR ISGW2;
+0.000000 D*(2S)+ mu- anti-nu_mu FSR ISGW2;
+0.001892 Xu+ mu- anti-nu_mu FSR VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00;
#
0.000060 pi+ tau- anti-nu_tau ISGW2;
0.000083 rho+ tau- anti-nu_tau ISGW2;
0.000090 a_1+ tau- anti-nu_tau ISGW2;
0.000008 b_1+ tau- anti-nu_tau ISGW2;
0.000008 a_0+ tau- anti-nu_tau ISGW2;
0.000008 a_2+ tau- anti-nu_tau ISGW2;
0.000000 rho(2S)+ tau- anti-nu_tau ISGW2;
0.000000 D(2S)+ tau- anti-nu_tau ISGW2;
0.000000 D*(2S)+ tau- anti-nu_tau ISGW2;
#
#
# b->u hadronic
# Ref. [B1]:
# Lange Nov 14, 2004 (flip D_s K -- is opposite of D_s pi)
0.000024000 D_s- pi+ PHSP; #[Reconstructed PDG2011]
0.000030000 D_s+ K- PHSP; #[Reconstructed PDG2011]
0.000021000 D_s*- pi+ SVS; #[Reconstructed PDG2011]
0.000021900 D_s*+ K- SVS; #[Reconstructed PDG2011]
#
0.000016 rho+ D_s- SVS;
0.000035000 K*- D_s+ SVS; #[Reconstructed PDG2011]
0.000041000 D_s*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000032000 D_s*+ K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
#
# b -> s gamma
#
0.000043300 anti-K*0 gamma HELAMP 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
# PR LHCb add omega gamma
0.000000440 omega gamma HELAMP 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
#0.0000135 anti-K_10 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000065 anti-K'_10 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000128 anti-K'*0 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000166 anti-K_2*0 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000017 anti-K''*0 gamma HELAMP 1.0 0.0 1.0 0.0;
0.0003118 anti-Xsd gamma BTOXSGAMMA 2 ;
#
-0.000000160 anti-K0 e+ e- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.000001030 anti-K*0 e+ e- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.0000050 anti-Xsd e+ e- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.000000450 anti-K0 mu+ mu- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.000001050 anti-K*0 mu+ mu- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.0000025 anti-Xsd mu+ mu- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.0000001 anti-K0 tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 anti-K*0 tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 anti-Xsd tau+ tau- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
+0.000000160 anti-K0 e+ e- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.000001030 anti-K*0 e+ e- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.0000050 anti-Xsd e+ e- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.000000450 anti-K0 mu+ mu- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.000001050 anti-K*0 mu+ mu- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.0000025 anti-Xsd mu+ mu- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.0000001 anti-K0 tau+ tau- FSR BTOSLLBALL;
+0.0000002 anti-K*0 tau+ tau- FSR BTOSLLBALL;
+0.0000002 anti-Xsd tau+ tau- FSR BTOXSLL 4.8 0.2 0.0 0.41;
#
#------------------------------------------------------------------------------
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv
# B0 -> CP eigenstates (some exclusive b -> u) sum=0.00036
#
0.000005130 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000001620 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.0000010 pi0 eta PHSP;
0.000001200 pi0 eta' PHSP; #[Reconstructed PDG2011]
0.000001 pi0 a_00 PHSP;
0.000001 pi0 f_0 PHSP;
# pi0 rho0 is with the 3-body modes
0.000001 omega pi0 SVS;
0.000001 a_10 pi0 SVS;
0.000001 b_10 pi0 SVS;
0.000001 eta eta PHSP;
0.000001 eta eta' PHSP;
0.000001 eta a_00 PHSP;
0.000001 eta f_0 PHSP;
0.000001 rho0 eta SVS;
0.000000940 omega eta SVS; #[Reconstructed PDG2011]
0.000001 a_10 eta SVS;
0.000001 b_10 eta SVS;
0.000001 eta' eta' PHSP;
0.000001 eta' a_00 PHSP;
0.000001 eta' f_0 PHSP;
0.000001 rho0 eta' SVS;
0.000001000 omega eta' SVS; #[Reconstructed PDG2011]
0.000001 a_10 eta' SVS;
0.000001 b_10 eta' SVS;
0.000001 a_00 a_00 PHSP;
0.000001 a_00 f_0 PHSP;
0.000001 rho0 a_00 SVS;
0.000001 omega a_00 SVS;
0.000001 a_10 a_00 SVS;
0.000001 b_10 a_00 SVS;
0.000001 f_0 f_0 PHSP;
0.000001 rho0 f_0 SVS;
0.000001 omega f_0 SVS;
0.000001 a_10 f_0 SVS;
0.000001 b_10 f_0 SVS;
# Penguin dominated modes are sin2beta, not sin2alpha
0.000004300 phi K_S0 SVS; #[Reconstructed PDG2011]
0.000004300 phi K_L0 SVS; #[Reconstructed PDG2011]
0.000000550 eta K_S0 PHSP; #[Reconstructed PDG2011]
0.000000550 eta K_L0 PHSP; #[Reconstructed PDG2011]
0.000033000 eta' K_S0 PHSP; #[Reconstructed PDG2011]
0.000033000 eta' K_L0 PHSP; #[Reconstructed PDG2011]
0.000002500 omega K_S0 SVS; #[Reconstructed PDG2011]
0.000002500 omega K_L0 SVS; #[Reconstructed PDG2011]
#don't allow jetset to simulate the same decay but to a K0 or anti-K0
#Lange 1/30/2003
0.0 phi K0 PHSP;
0.0 phi anti-K0 PHSP;
0.0 eta K0 PHSP;
0.0 eta anti-K0 PHSP;
0.0 eta' K0 PHSP;
0.0 eta' anti-K0 PHSP;
0.0 omega K0 PHSP;
0.0 omega anti-K0 PHSP;
# phipi0 has no simple Pengiun or tree so who knows - ditto phieta/eta'?
0.000001 phi pi0 SVS;
0.000001 phi eta SVS;
0.000001 phi eta' SVS;
#
0.000015900 anti-K*0 eta SVS; #[Reconstructed PDG2011]
0.000003800 anti-K*0 eta' SVS; #[Reconstructed PDG2011]
0.000002000 anti-K*0 omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000001 phi omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 omega omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 omega rho0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
#
#
#2-body modes from Jim Olsen
0.000019400 K- pi+ PHSP; #[Reconstructed PDG2011]
0.0000004 K+ K- PHSP;
# K_S0 K_L0 is 0
# see http://babar-hn.slac.stanford.edu:5090/HyperNews/get/pubboard14/156.html
0.000000240 K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.0000000 K_S0 K_L0 PHSP;
0.000000240 K_L0 K_L0 PHSP; #[Reconstructed PDG2011]
# declare K0 pi0 not to have it through Pythia
0.000000 anti-K0 pi0 PHSP;
# Split into K_S0 K_L0 (LHCb - P. Robbe)
0.000004750 K_S0 pi0 PHSP; #[Reconstructed PDG2011]
0.000004750 K_L0 pi0 PHSP; #[Reconstructed PDG2011]
# 0 to keep PYTHIA from generating it
0.000000 K0 anti-K0 PHSP;
#
# 3-body decays
# this model generates interferences and higher mass rho
#
# 3-body by John Back (jback@slac.stanford.edu) - Oct 15, 2002
# JGS intersperses modes with pi0->eta,eta'
# anti-B0 modes
# Model generates rho(770), rho(1450) and rho(1700) resonances
# with interference (uses CKM angle alpha)
0.000024 pi- pi+ pi0 BTO3PI_CP dm alpha;
# Put in with 0 BR to keep PYTHIA from generating these (see BTO3PI_CP above)
0.000000 rho0 pi0 SVS;
0.000000 rho- pi+ SVS;
0.000000 rho+ pi- SVS;
0.000000 rho(2S)- pi+ SVS;
0.000000 rho(2S)+ pi- SVS;
0.000000 rho(3S)- pi+ SVS;
0.000000 rho(3S)+ pi- SVS;
#
# rho0 3-body modes
0.000002350 rho0 K_S0 SVS; #[Reconstructed PDG2011]
0.000002350 rho0 K_L0 SVS; #[Reconstructed PDG2011]
#
# rho+ 3-body modes
0.000008400 rho+ K- SVS; #[Reconstructed PDG2011]
#
# rho(1450) 3-body modes
0.0000005 rho(2S)0 K_S0 SVS;
0.0000005 rho(2S)0 K_L0 SVS;
#
#
# f0,a0(980) 3-body modes
0.0000055 f_0 anti-K0 PHSP;
0.000001 a_00 anti-K0 PHSP;
0.000001 a_0+ K- PHSP;
0.000003 a_0+ pi- PHSP;
0.000001 a_0- pi+ PHSP;
#
# K*0(892) 3-body modes
0.000003600 anti-K*0 pi0 SVS; #[Reconstructed PDG2011]
0.000003 anti-K*0 K0 SVS;
#
# K*0(1430) 3-body modes
0.000001 anti-K_0*0 pi0 PHSP;
0.000003 anti-K_0*0 K0 PHSP;
#
# K*0(1680) 3-body modes
0.000001 anti-K''*0 pi0 SVS;
0.000001 anti-K''*0 K0 SVS;
#
# K*-(892) 3-body modes
0.000009400 K*- pi+ SVS; #[Reconstructed PDG2011]
0.000002 K*- K+ SVS;
#
# K*-(1430) 3-body modes
0.000033000 K_0*- pi+ PHSP; #[Reconstructed PDG2011]
0.000002 K_0*- K+ PHSP;
#
# K*0(1680) 3-body modes
0.000001 K''*- pi+ SVS;
0.000001 K''*- K+ SVS;
#
#
# Non-resonant 3-body left-overs
# Most modes are set at 1e-6
#
# pi-pi+pi0: high mass + f0(400-1200) = (1+1)e-6
####0402270.000002 pi- pi+ pi0 PHSP;
0.000017 pi- pi+ eta PHSP;
0.000001 pi- pi+ eta' PHSP;
#
# pi- pi+ anti-K0: total-rhoK0-f0K0-piK*(892)-piK*(1430)=45-5-6-13./3-11./3
0.000000000 pi- pi+ anti-K0 PHSP; #[Reconstructed PDG2011]
#
# K- pi+ pi0
0.000027500 K- pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.000020 K- pi+ eta PHSP;
0.000001 K- pi+ eta' PHSP;
#
# pi- K+ K0.
# Both B0 and B0bar can decay to these => 0.5e-6 each
0.0000005 pi- K+ anti-K0 PHSP;
0.0000005 pi+ K- K0 PHSP;
#
# K- K+ anti-K0
# PR LHCb 09 Apr 2004 split into KL/KS
0.000000 K- K+ anti-K0 PHSP;
0.000012350 K- K+ K_S0 PHSP; #[Reconstructed PDG2011]
0.000012350 K- K+ K_L0 PHSP; #[Reconstructed PDG2011]
#
# K- K+ pi0
0.000001 K- K+ pi0 PHSP;
0.000001 K- K+ eta PHSP;
0.000001 K- K+ eta' PHSP;
#
# pi0 anti-K0 K0
0.000002 anti-K0 K0 pi0 PHSP;
0.000001 anti-K0 K0 eta PHSP;
0.000001 anti-K0 K0 eta' PHSP;
#
# pi0 pi0 anti-K0
0.000002 anti-K0 pi0 pi0 PHSP;
0.000001 anti-K0 pi0 eta PHSP;
0.000001 anti-K0 pi0 eta' PHSP;
0.000001 anti-K0 eta eta PHSP;
0.000001 anti-K0 eta eta' PHSP;
0.000001 anti-K0 eta' eta' PHSP;
#
# anti-K0 K0 anti-K0: 8*BF(KsKsKs)~=48 (8 is a guess)
0.000048 anti-K0 K0 anti-K0 PHSP;
#
# pi0 pi0 pi0
0.000001 pi0 pi0 pi0 PHSP;
0.000001 pi0 pi0 eta PHSP;
0.000001 pi0 pi0 eta' PHSP;
0.000001 pi0 eta eta PHSP;
0.000001 pi0 eta eta' PHSP;
#
#^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#---------------------------------------------------------------------------
#
#4-body modes from Andrei Gritsan
#--- 4-body rho-rho, rho-pi-pi, pi-pi-pi-pi --------------------------
# PR LHCb 21 Apr 2004 : set polarisation to longitudinal
0.000000730 rho0 rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000024200 rho+ rho- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000003 rho0 pi+ pi- PHSP;
0.000003 omega pi+ pi- PHSP;
0.000001 rho0 pi0 pi0 PHSP;
0.000001 omega pi0 pi0 PHSP;
0.0000005 rho0 pi0 eta PHSP;
0.0000002 rho0 eta eta PHSP;
0.0000002 rho0 pi0 eta' PHSP;
0.0000001 rho0 eta eta' PHSP;
0.0000005 omega pi0 eta PHSP;
0.0000002 omega eta eta PHSP;
0.0000002 omega pi0 eta' PHSP;
0.0000001 omega eta eta' PHSP;
0.000010 rho+ pi- pi0 PHSP;
0.000005 rho+ pi- eta PHSP;
0.000010 rho- pi+ pi0 PHSP;
0.000005 rho- pi+ eta PHSP;
0.000010 pi+ pi- pi+ pi- PHSP;
0.000010 pi+ pi- pi0 pi0 PHSP;
0.000005 pi+ pi- eta pi0 PHSP;
0.000002 pi+ pi- eta eta PHSP;
0.000002 pi+ pi- eta' pi0 PHSP;
0.000001 pi+ pi- eta' eta PHSP;
0.000016500 a_1+ pi- SVS; #[Reconstructed PDG2011]
0.000016500 a_1- pi+ SVS; #[Reconstructed PDG2011]
0.0000055 b_1+ pi- SVS;
0.0000055 b_1- pi+ SVS;
0.000002 rho- a_0+ SVS;
0.000010 rho+ a_0- SVS;
0.000001 f_0 pi+ pi- PHSP;
0.000001 f_0 pi0 pi0 PHSP;
0.000001 a_0- pi+ pi0 PHSP;
0.000001 a_00 pi0 pi0 PHSP;
0.000001 a_0+ pi- pi0 PHSP;
#--- 4-body rho-K*, rho-pi-K, K*-pi-pi, pi-pi-pi-K -------------------
0.000003400 rho0 anti-K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000010 rho+ K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000050600 pi- pi+ anti-K*0 PHSP; #[Reconstructed PDG2011]
0.000010 pi+ pi0 K*- PHSP;
0.000005 pi+ eta K*- PHSP;
0.000002 pi+ eta' K*- PHSP;
0.000010 rho+ K- pi0 PHSP;
0.000005 rho+ K- eta PHSP;
0.000002 rho+ K- eta' PHSP;
0.000010 rho+ anti-K0 pi- PHSP;
0.000010 rho- anti-K0 pi+ PHSP;
0.000005 rho0 anti-K0 pi0 PHSP;
0.000002 rho0 anti-K0 eta PHSP;
0.000001 rho0 anti-K0 eta' PHSP;
0.000010 rho0 K- pi+ PHSP;
0.000005 omega anti-K0 pi0 PHSP;
0.000002 omega anti-K0 eta PHSP;
0.000001 omega anti-K0 eta' PHSP;
0.000005100 omega K- pi+ PHSP; #[Reconstructed PDG2011]
0.000010 pi+ pi0 pi- anti-K0 PHSP;
0.000005 pi+ eta pi- anti-K0 PHSP;
0.000010 pi0 pi0 pi0 anti-K0 PHSP;
0.000005 pi0 pi0 eta anti-K0 PHSP;
0.000002 pi0 eta eta anti-K0 PHSP;
0.000002 pi0 pi0 eta' anti-K0 PHSP;
0.000001 pi0 eta eta' anti-K0 PHSP;
0.000010 pi+ pi- pi+ K- PHSP;
0.000010 pi0 pi0 pi+ K- PHSP;
0.000005 pi0 eta pi+ K- PHSP;
0.000002 eta eta pi+ K- PHSP;
0.000002 pi0 eta' pi+ K- PHSP;
0.000001 eta eta' pi+ K- PHSP;
0.000010 rho0 anti-K_0*0 PHSP;
0.000020 rho+ K_0*- PHSP;
0.000010 pi- pi+ anti-K_0*0 PHSP;
0.000010 pi0 pi0 anti-K_0*0 PHSP;
0.000010 pi+ pi0 K_0*- PHSP;
0.000005 anti-K*0 f_0 SVS;
0.000010 a_10 anti-K0 SVS;
0.000016000 a_1+ K- SVS; #[Reconstructed PDG2011]
0.000010 b_10 anti-K0 SVS;
0.0000074 b_1+ K- SVS;
0.000005 anti-K*0 a_00 SVS;
0.000005 K*- a_0+ SVS;
#--- 4-body K*-K*, rho-K-K, K*-K-pi, phi-pi-pi, pi-pi-K-K ------------
0.000001280 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000001 K*+ K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000001 phi rho0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000001 phi pi- pi+ PHSP;
0.000001 K+ K- rho0 PHSP;
0.000001 K0 anti-K0 rho0 PHSP;
0.000001 K+ K- omega PHSP;
0.000001 K0 anti-K0 omega PHSP;
0.000001 K+ anti-K0 rho- PHSP;
0.000001 K- K0 rho+ PHSP;
0.000001 K+ K- pi- pi+ PHSP;
0.000001 K+ K- pi0 pi0 PHSP;
0.0000005 K+ K- pi0 eta PHSP;
0.0000002 K+ K- eta eta PHSP;
0.0000002 K+ K- pi0 eta' PHSP;
0.0000001 K+ K- eta eta' PHSP;
0.000001 K0 anti-K0 pi- pi+ PHSP;
0.000001 K0 anti-K0 pi0 pi0 PHSP;
0.0000005 K0 anti-K0 pi0 eta PHSP;
0.0000002 K0 anti-K0 eta eta PHSP;
0.0000002 K0 anti-K0 pi0 eta' PHSP;
0.0000001 K0 anti-K0 eta eta' PHSP;
0.000001 K*+ K- pi0 PHSP;
0.000001 K*- K+ pi0 PHSP;
0.000001 K*0 anti-K0 pi0 PHSP;
0.000001 K0 anti-K*0 pi0 PHSP;
0.000003320 K+ anti-K*0 pi- PHSP; #[Reconstructed PDG2011]
0.000001 K*+ anti-K0 pi- PHSP;
0.0000033 K- K*0 pi+ PHSP;
0.000001 K*- K0 pi+ PHSP;
#--- 4-body phi-K*, phi-K-pi, K-K-K*, pi-K-K-K -----------------------
0.000009800 phi anti-K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000010 phi K- pi+ PHSP;
0.000010 phi anti-K0 pi0 PHSP;
0.000007 phi anti-K0 eta PHSP;
0.000017700 K- K+ anti-K*0 PHSP; #[Reconstructed PDG2011]
0.000010 K- K*+ anti-K0 PHSP;
0.000010 K*- K+ anti-K0 PHSP;
0.000010 K+ K- K- pi+ PHSP;
0.000010 K+ K- anti-K0 pi0 PHSP;
0.000005 K+ K- anti-K0 eta PHSP;
0.000010 K0 anti-K0 anti-K0 pi0 PHSP;
0.000005 K0 anti-K0 anti-K0 eta PHSP;
0.000003900 phi anti-K_0*0 PHSP; #[Reconstructed PDG2011]
0.000010 K- K+ anti-K_0*0 PHSP;
0.000010 K- K_0*+ anti-K0 PHSP;
0.000010 K_0*- K+ anti-K0 PHSP;
0.000002 phi anti-K'_10 PHSP;
0.000002 K- K+ anti-K'_10 PHSP;
#--- 4-body phi-phi, phi-K-K, K-K-K-K --------------------------------
0.0000001 phi phi SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000001 phi K+ K- PHSP;
0.0000001 phi K0 anti-K0 PHSP;
0.0000001 K+ K- K+ K- PHSP;
0.0000001 K0 anti-K0 K+ K- PHSP;
0.0000001 K0 anti-K0 K0 anti-K0 PHSP;
#5-body modes from Jim Smith - 1/30/05
#--- 5-body rho-rho-pi, rho-pi-pi-pi, pi-pi-pi-pi-pi -------------------
0.000010 rho0 rho0 pi0 PHSP;
0.000005 rho0 rho0 eta PHSP;
0.000002 rho0 rho0 eta' PHSP;
0.000010 omega rho0 pi0 PHSP;
0.000005 omega rho0 eta PHSP;
0.000002 omega rho0 eta' PHSP;
0.000010 rho+ rho- pi0 PHSP;
0.000005 rho+ rho- eta PHSP;
0.000002 rho+ rho- eta' PHSP;
0.000010 rho0 rho+ pi- PHSP;
0.000010 omega rho+ pi- PHSP;
0.000002 rho0 pi+ pi- pi0 PHSP;
0.000001 rho0 pi+ pi- eta PHSP;
0.000001 rho0 pi+ pi- eta' PHSP;
0.000002 rho0 pi0 pi0 pi0 PHSP;
0.000001 rho0 pi0 eta pi0 PHSP;
0.000001 rho0 pi0 eta' pi0 PHSP;
0.000002 omega pi+ pi- pi0 PHSP;
0.000001 omega pi+ pi- eta PHSP;
0.000001 omega pi+ pi- eta' PHSP;
0.000002 omega pi0 pi0 pi0 PHSP;
0.000001 omega pi0 eta pi0 PHSP;
0.000001 omega pi0 eta' pi0 PHSP;
0.000002 rho+ pi- pi+ pi- PHSP;
0.000002 rho+ pi- pi0 pi0 PHSP;
0.000001 rho+ pi- pi0 eta PHSP;
0.000001 rho+ pi- pi0 eta' PHSP;
0.000002 rho- pi+ pi+ pi- PHSP;
0.000002 rho- pi+ pi0 pi0 PHSP;
0.000001 rho- pi+ pi0 eta PHSP;
0.000001 rho- pi+ pi0 eta' PHSP;
0.000001 pi+ pi- pi+ pi- pi0 PHSP;
0.0000005 pi+ pi- pi+ pi- eta PHSP;
0.0000002 pi+ pi- pi+ pi- eta' PHSP;
0.000001 pi+ pi- pi0 pi0 pi0 PHSP;
0.0000005 pi+ pi- pi0 pi0 eta PHSP;
0.0000002 pi+ pi- pi0 pi0 eta' PHSP;
0.0000005 pi0 pi0 pi0 pi0 pi0 PHSP;
0.0000002 pi0 pi0 pi0 pi0 eta PHSP;
0.0000001 pi0 pi0 pi0 pi0 eta' PHSP;
0.000010 a_1+ rho- PHSP;
0.000010 a_1- rho+ PHSP;
0.000010 a_10 rho0 PHSP;
0.000010 a_10 omega PHSP;
0.000010 a_1+ pi- pi0 PHSP;
0.000005 a_1+ pi- eta PHSP;
0.000002 a_1+ pi- eta' PHSP;
0.000010 a_10 pi+ pi- PHSP;
0.000010 a_10 pi0 pi0 PHSP;
0.000005 a_10 pi0 eta PHSP;
0.000002 a_10 pi0 eta' PHSP;
0.000010 a_1- pi+ pi0 PHSP;
0.000005 a_1- pi+ eta PHSP;
0.000002 a_1- pi+ eta' PHSP;
0.000010 rho+ f_0 pi- PHSP;
0.000010 rho- f_0 pi+ PHSP;
0.000010 rho0 f_0 pi0 PHSP;
0.000005 rho0 f_0 eta PHSP;
0.000002 rho0 f_0 eta' PHSP;
0.000010 omega f_0 pi0 PHSP;
0.000010 rho+ a_00 pi- PHSP;
0.000010 rho+ a_0- pi0 PHSP;
0.000005 rho+ a_0- eta PHSP;
0.000002 rho+ a_0- eta' PHSP;
0.000010 rho0 a_0+ pi- PHSP;
0.000010 rho0 a_0- pi+ PHSP;
0.000010 rho0 a_00 pi0 PHSP;
0.000005 rho0 a_00 eta PHSP;
0.000002 rho0 a_00 eta' PHSP;
0.000010 rho- a_00 pi+ PHSP;
0.000010 rho- a_0+ pi0 PHSP;
0.000005 rho- a_0+ eta PHSP;
0.000002 rho- a_0+ eta' PHSP;
0.000002 f_0 pi+ pi- pi0 PHSP;
0.000001 f_0 pi+ pi- eta PHSP;
0.000001 f_0 pi+ pi- eta' PHSP;
0.000002 f_0 pi0 pi0 pi0 PHSP;
0.000001 f_0 pi0 pi0 eta PHSP;
0.000001 f_0 pi0 pi0 eta' PHSP;
0.000001 a_00 pi+ pi- pi0 PHSP;
0.000001 a_00 pi0 pi0 pi0 PHSP;
0.000001 a_0+ pi- pi+ pi- PHSP;
0.000001 a_0+ pi- pi0 pi0 PHSP;
0.000001 a_0- pi+ pi+ pi- PHSP;
0.000001 a_0- pi+ pi0 pi0 PHSP;
#--- 5-body rho-K*pi, rho-2pi-K, K*-3pi, 4pi-K -------------------
0.000010 rho0 K*- pi+ PHSP;
0.000010 rho+ K*- pi0 PHSP;
0.000005 rho+ K*- eta PHSP;
0.000002 rho+ K*- eta' PHSP;
0.000010 rho0 anti-K*0 pi0 PHSP;
0.000005 rho0 anti-K*0 eta PHSP;
0.000002 rho0 anti-K*0 eta' PHSP;
0.000010 rho- anti-K*0 pi+ PHSP;
0.000010 rho+ anti-K*0 pi- PHSP;
0.000010 omega K*- pi+ PHSP;
0.000010 omega anti-K*0 pi0 PHSP;
0.000005 omega anti-K*0 eta PHSP;
0.000002 omega anti-K*0 eta' PHSP;
0.000010 pi+ pi- K*- pi+ PHSP;
0.000010 pi+ pi0 K*- pi0 PHSP;
0.000005 pi+ pi0 K*- eta PHSP;
0.000002 pi+ pi0 K*- eta' PHSP;
0.000010 pi+ pi- anti-K*0 pi0 PHSP;
0.000005 pi+ pi- anti-K*0 eta PHSP;
0.000002 pi+ pi- anti-K*0 eta' PHSP;
0.000010 pi0 pi0 anti-K*0 pi0 PHSP;
0.000005 pi0 pi0 anti-K*0 eta PHSP;
0.000002 pi0 pi0 anti-K*0 eta' PHSP;
0.000010 rho- K- pi+ pi+ PHSP;
0.000010 rho0 K- pi+ pi0 PHSP;
0.000005 rho0 K- pi+ eta PHSP;
0.000002 rho0 K- pi+ eta' PHSP;
0.000010 rho+ K- pi+ pi- PHSP;
0.000010 rho+ K- pi0 pi0 PHSP;
0.000005 rho+ K- pi0 eta PHSP;
0.000002 rho+ K- pi0 eta' PHSP;
0.000010 rho0 anti-K0 pi+ pi- PHSP;
0.000010 rho0 anti-K0 pi0 pi0 PHSP;
0.000005 rho0 anti-K0 pi0 eta PHSP;
0.000002 rho0 anti-K0 pi0 eta' PHSP;
0.000010 rho- anti-K0 pi+ pi0 PHSP;
0.000005 rho- anti-K0 pi+ eta PHSP;
0.000002 rho- anti-K0 pi+ eta' PHSP;
0.000010 rho+ anti-K0 pi- pi0 PHSP;
0.000005 rho+ anti-K0 pi- eta PHSP;
0.000002 rho+ anti-K0 pi- eta' PHSP;
0.000010 omega K- pi+ pi0 PHSP;
0.000005 omega K- pi+ eta PHSP;
0.000002 omega K- pi+ eta' PHSP;
0.000010 omega anti-K0 pi+ pi- PHSP;
0.000010 omega anti-K0 pi0 pi0 PHSP;
0.000005 omega anti-K0 pi0 eta PHSP;
0.000002 omega anti-K0 pi0 eta' PHSP;
0.000002 pi+ pi- pi+ K- pi0 PHSP;
0.000001 pi+ pi- pi+ K- eta PHSP;
0.000001 pi+ pi- pi+ K- eta' PHSP;
0.000002 pi0 pi0 pi+ K- pi0 PHSP;
0.000001 pi0 pi0 pi+ K- eta PHSP;
0.000001 pi0 pi0 pi+ K- eta' PHSP;
0.000002 pi+ pi- pi+ anti-K0 pi- PHSP;
0.000002 pi+ pi- pi0 anti-K0 pi0 PHSP;
0.000001 pi+ pi- pi0 anti-K0 eta PHSP;
0.000001 pi+ pi- pi0 anti-K0 eta' PHSP;
0.000002 pi0 pi0 pi0 anti-K0 pi0 PHSP;
0.000001 pi0 pi0 pi0 anti-K0 eta PHSP;
0.000001 pi0 pi0 pi0 anti-K0 eta' PHSP;
0.000010 rho+ anti-K_0*0 pi- PHSP;
0.000010 rho0 anti-K_0*0 pi0 PHSP;
0.000005 rho0 anti-K_0*0 eta PHSP;
0.000002 rho0 anti-K_0*0 eta' PHSP;
0.000010 rho- anti-K_0*0 pi+ PHSP;
0.000010 rho+ K_0*- pi0 PHSP;
0.000005 rho+ K_0*- eta PHSP;
0.000002 rho+ K_0*- eta' PHSP;
0.000010 rho0 K_0*- pi+ PHSP;
0.000010 pi+ pi- K_0*- pi+ PHSP;
0.000010 pi+ pi0 K_0*- pi0 PHSP;
0.000005 pi+ pi0 K_0*- eta PHSP;
0.000002 pi+ pi0 K_0*- eta' PHSP;
0.000010 pi+ pi- anti-K_0*0 pi0 PHSP;
0.000005 pi+ pi- anti-K_0*0 eta PHSP;
0.000002 pi+ pi- anti-K_0*0 eta' PHSP;
0.000010 pi0 pi0 anti-K_0*0 pi0 PHSP;
0.000005 pi0 pi0 anti-K_0*0 eta PHSP;
0.000005 pi0 pi0 anti-K_0*0 eta' PHSP;
0.000010 K*- f_0 pi+ PHSP;
0.000010 anti-K*0 f_0 pi0 PHSP;
0.000005 anti-K*0 f_0 eta PHSP;
0.000002 anti-K*0 f_0 eta' PHSP;
0.000010 a_1+ anti-K0 pi- PHSP;
0.000020 a_10 anti-K*0 PHSP;
0.000010 a_10 K- pi+ PHSP;
0.000010 a_10 anti-K0 pi0 PHSP;
0.000020 a_1+ K*- PHSP;
0.000010 a_1+ K- pi0 PHSP;
0.000010 a_1- anti-K0 pi+ PHSP;
0.000005 K*- a_00 pi+ PHSP;
0.000005 K*- a_0+ pi0 PHSP;
0.000002 K*- a_0+ eta PHSP;
0.000001 K*- a_0+ eta' PHSP;
0.000005 anti-K*0 a_0+ pi- PHSP;
0.000005 anti-K*0 a_00 pi0 PHSP;
0.000002 anti-K*0 a_00 eta PHSP;
0.000001 anti-K*0 a_00 eta' PHSP;
#--- 5-body K*-K*pi,rho-K-Kpi, K*-K-2pi, phi-3pi, 3pi-K-K ------------
0.000001 K*- K*0 pi+ PHSP;
0.000001 K*+ anti-K*0 pi- PHSP;
0.000001 K*- K*+ pi0 PHSP;
0.0000005 K*- K*+ eta PHSP;
0.0000002 K*- K*+ eta' PHSP;
0.000001 K*0 anti-K*0 pi0 PHSP;
0.0000005 K*0 anti-K*0 eta PHSP;
0.0000002 K*0 anti-K*0 eta' PHSP;
0.000001 phi rho+ pi- PHSP;
0.000001 phi rho- pi+ PHSP;
0.000001 phi rho0 pi0 PHSP;
0.0000005 phi rho0 eta PHSP;
0.0000002 phi rho0 eta' PHSP;
0.000001 phi omega pi0 PHSP;
0.000001 phi f_0 pi0 PHSP;
0.000001 phi pi+ pi- pi0 PHSP;
0.0000005 phi pi+ pi- eta PHSP;
0.0000002 phi pi+ pi- eta' PHSP;
0.000001 phi pi0 pi0 pi0 PHSP;
0.0000005 phi pi0 pi0 eta PHSP;
0.0000002 phi pi0 pi0 eta' PHSP;
0.000001 K0 K- rho0 pi+ PHSP;
0.000001 K0 K- rho+ pi0 PHSP;
0.0000005 K0 K- rho+ eta PHSP;
0.0000002 K0 K- rho+ eta' PHSP;
0.000001 K0 K- omega pi+ PHSP;
0.000001 K0 K- f_0 pi+ PHSP;
0.000001 K+ K- rho+ pi- PHSP;
0.000001 K+ K- rho- pi+ PHSP;
0.000001 K+ K- rho0 pi0 PHSP;
0.0000005 K+ K- rho0 eta PHSP;
0.0000002 K+ K- rho0 eta' PHSP;
0.000001 K+ K- omega pi0 PHSP;
0.0000005 K+ K- omega eta PHSP;
0.0000002 K+ K- omega eta' PHSP;
0.000001 K+ K- f_0 pi0 PHSP;
0.000001 K0 anti-K0 rho+ pi- PHSP;
0.000001 K0 anti-K0 rho- pi+ PHSP;
0.000001 K0 anti-K0 rho0 pi0 PHSP;
0.0000005 K0 anti-K0 rho0 eta PHSP;
0.0000002 K0 anti-K0 rho0 eta' PHSP;
0.000001 K0 anti-K0 omega pi0 PHSP;
0.000001 K0 anti-K0 f_0 pi0 PHSP;
0.000001 anti-K0 K+ rho0 pi- PHSP;
0.000001 anti-K0 K+ rho- pi0 PHSP;
0.0000005 anti-K0 K+ rho- eta PHSP;
0.0000002 anti-K0 K+ rho- eta' PHSP;
0.000001 anti-K0 K+ omega pi- PHSP;
0.000001 anti-K0 K+ f_0 pi- PHSP;
0.0000002 K0 K- pi+ pi+ pi- PHSP;
0.0000002 K0 K- pi+ pi0 pi0 PHSP;
0.0000001 K0 K- pi+ pi0 eta PHSP;
0.0000001 K0 K- pi+ pi0 eta' PHSP;
0.0000002 K+ K- pi+ pi- pi0 PHSP;
0.0000001 K+ K- pi+ pi- eta PHSP;
0.0000001 K+ K- pi+ pi- eta' PHSP;
0.0000002 K+ K- pi0 pi0 pi0 PHSP;
0.0000001 K+ K- pi0 pi0 eta PHSP;
0.0000001 K+ K- pi0 pi0 eta' PHSP;
0.0000002 K0 anti-K0 pi+ pi- pi0 PHSP;
0.0000001 K0 anti-K0 pi+ pi- eta PHSP;
0.0000001 K0 anti-K0 pi+ pi- eta' PHSP;
0.0000002 K0 anti-K0 pi0 pi0 pi0 PHSP;
0.0000001 K0 anti-K0 pi0 pi0 eta PHSP;
0.0000001 K0 anti-K0 pi0 pi0 eta' PHSP;
0.0000002 anti-K0 K+ pi- pi+ pi- PHSP;
0.0000002 anti-K0 K+ pi- pi0 pi0 PHSP;
0.0000001 anti-K0 K+ pi- pi0 eta PHSP;
0.0000001 anti-K0 K+ pi- pi0 eta' PHSP;
0.000001 K*0 K- pi+ pi0 PHSP;
0.0000005 K*0 K- pi+ eta PHSP;
0.0000002 K*0 K- pi+ eta' PHSP;
0.000001 K*- K0 pi+ pi0 PHSP;
0.0000005 K*- K0 pi+ eta PHSP;
0.0000002 K*- K0 pi+ eta' PHSP;
0.000001 K*+ K- pi+ pi- PHSP;
0.000001 K*+ K- pi0 pi0 PHSP;
0.0000005 K*+ K- pi0 eta PHSP;
0.0000002 K*+ K- pi0 eta' PHSP;
0.000001 K*- K+ pi+ pi- PHSP;
0.000001 K*- K+ pi0 pi0 PHSP;
0.0000005 K*- K+ pi0 eta PHSP;
0.0000002 K*- K+ pi0 eta' PHSP;
0.000001 K*0 anti-K0 pi+ pi- PHSP;
0.000001 K*0 anti-K0 pi0 pi0 PHSP;
0.0000005 K*0 anti-K0 pi0 eta PHSP;
0.0000002 K*0 anti-K0 pi0 eta' PHSP;
0.000001 K0 anti-K*0 pi+ pi- PHSP;
0.000001 K0 anti-K*0 pi0 pi0 PHSP;
0.0000005 K0 anti-K*0 pi0 eta PHSP;
0.0000002 K0 anti-K*0 pi0 eta' PHSP;
0.000001 K+ anti-K*0 pi- pi0 PHSP;
0.0000005 K+ anti-K*0 pi- eta PHSP;
0.0000002 K+ anti-K*0 pi- eta' PHSP;
0.000001 K*+ anti-K0 pi- pi0 PHSP;
0.0000005 K*+ anti-K0 pi- eta PHSP;
0.0000002 K*+ anti-K0 pi- eta' PHSP;
#--- 5-body phi-K*-pi, phi-K-2pi, K-K-K*-pi, 2pi-K-K-K --------------------
0.000010 phi K*- pi+ PHSP;
0.000010 phi anti-K*0 pi0 PHSP;
0.000005 phi anti-K*0 eta PHSP;
0.000002 phi anti-K*0 eta' PHSP;
0.000010 phi K- rho+ PHSP;
0.000010 phi anti-K0 rho0 PHSP;
0.000010 phi anti-K0 omega PHSP;
0.000010 phi anti-K0 f_0 PHSP;
0.000010 phi anti-K0 pi+ pi- PHSP;
0.000010 phi anti-K0 pi0 pi0 PHSP;
0.000005 phi anti-K0 pi0 eta PHSP;
0.000002 phi anti-K0 pi0 eta' PHSP;
0.000010 phi K- pi+ pi0 PHSP;
0.000005 phi K- pi+ eta PHSP;
0.000002 phi K- pi+ eta' PHSP;
0.000010 K+ K- K*- pi+ PHSP;
0.000010 K- K*+ K- pi+ PHSP;
0.000010 K- K*0 anti-K0 pi+ PHSP;
0.000010 K- K0 anti-K*0 pi+ PHSP;
0.000010 K0 K*- anti-K0 pi+ PHSP;
0.000010 K- K+ K- rho+ PHSP;
0.000010 K- K+ anti-K0 rho0 PHSP;
0.000010 K- K+ anti-K0 omega PHSP;
0.000010 K- K+ anti-K0 f_0 PHSP;
0.000010 K+ K- K- pi+ pi0 PHSP;
0.000005 K+ K- K- pi+ eta PHSP;
0.000002 K+ K- K- pi+ eta' PHSP;
0.000010 K+ K- anti-K0 pi+ pi- PHSP;
0.000010 K+ K- anti-K0 pi0 pi0 PHSP;
0.000005 K+ K- anti-K0 pi0 eta PHSP;
0.000005 K+ K- anti-K0 pi0 eta' PHSP;
0.000010 K0 anti-K0 K- pi+ pi0 PHSP;
0.000005 K0 anti-K0 K- pi+ eta PHSP;
0.000002 K0 anti-K0 K- pi+ eta' PHSP;
0.000010 K0 anti-K0 anti-K0 pi+ pi- PHSP;
0.000010 K0 anti-K0 anti-K0 pi0 pi0 PHSP;
0.000005 K0 anti-K0 anti-K0 pi0 eta PHSP;
0.000002 K0 anti-K0 anti-K0 pi0 eta' PHSP;
0.000010 phi K_0*- pi+ PHSP;
0.000010 phi anti-K_0*0 pi0 PHSP;
0.000010 K+ K- K_0*- pi+ PHSP;
0.000010 K+ K- anti-K_0*0 pi0 PHSP;
0.000005 K+ K- anti-K_0*0 eta PHSP;
0.000002 K+ K- anti-K_0*0 eta' PHSP;
0.000010 K- K- K_0*+ pi+ PHSP;
0.000010 K- anti-K_0*0 K0 pi+ PHSP;
0.000010 K- K_0*0 anti-K0 pi+ PHSP;
0.000010 K0 anti-K0 K_0*- pi+ PHSP;
0.000010 K0 anti-K0 anti-K_0*0 pi0 PHSP;
0.000005 K0 anti-K0 anti-K_0*0 eta PHSP;
0.000002 K0 anti-K0 anti-K_0*0 eta' PHSP;
0.000010 anti-K0 anti-K0 K_0*0 pi0 PHSP;
0.000005 anti-K0 anti-K0 K_0*0 eta PHSP;
0.000002 anti-K0 anti-K0 K_0*0 eta' PHSP;
0.000002 phi K'_1- pi+ PHSP;
0.000002 phi anti-K'_10 pi0 PHSP;
0.000001 phi anti-K'_10 eta PHSP;
0.000001 phi anti-K'_10 eta' PHSP;
0.000002 K- K+ K'_1- pi+ PHSP;
0.000002 K- K+ anti-K'_10 pi0 PHSP;
0.000001 K- K+ anti-K'_10 eta PHSP;
0.000001 K- K+ anti-K'_10 eta' PHSP;
0.000002 K- K- K'_1+ pi+ PHSP;
0.000002 K0 anti-K0 anti-K'_10 pi0 PHSP;
0.000001 K0 anti-K0 anti-K'_10 eta PHSP;
0.000001 K0 anti-K0 anti-K'_10 eta' PHSP;
0.000002 anti-K0 anti-K0 K'_10 pi0 PHSP;
0.000001 anti-K0 anti-K0 K'_10 eta PHSP;
0.000001 anti-K0 anti-K0 K'_10 eta' PHSP;
#--- 5-body phi-phi-K, phi-phi-pi, phi-3K, phi-K-K-pi, 5K, 4K-pi ------------
0.000004100 phi phi anti-K0 PHSP; #[Reconstructed PDG2011]
0.0000001 phi phi pi0 PHSP;
0.000001 phi K+ K- anti-K0 PHSP;
0.000001 phi K0 anti-K0 anti-K0 PHSP;
0.0000001 phi K+ K- pi0 PHSP;
0.0000001 phi K0 anti-K0 pi0 PHSP;
0.0000001 phi anti-K0 K+ pi- PHSP;
0.0000001 phi K0 K- pi+ PHSP;
0.0000001 K+ K- K+ K- anti-K0 PHSP;
0.0000001 K0 anti-K0 K+ K- anti-K0 PHSP;
0.0000001 K+ K- K+ K- pi0 PHSP;
0.0000001 K+ K- K0 anti-K0 pi0 PHSP;
0.0000001 K+ K- K+ anti-K0 pi- PHSP;
0.0000001 K+ K- K0 K- pi+ PHSP;
0.0000001 K0 anti-K0 K0 anti-K0 pi0 PHSP;
0.0000001 K0 anti-K0 anti-K0 K+ pi- PHSP;
0.0000001 K0 anti-K0 K0 K- pi+ PHSP;
#--- 6-body phi-phi-K*, phi-3Kpi, phi-K-K-2pi ------------
0.000003 phi phi anti-K*0 PHSP;
0.000001 phi K+ K- anti-K*0 PHSP;
0.000001 phi K0 anti-K0 anti-K*0 PHSP;
0.000001 phi anti-K0 K- K*+ PHSP;
0.000001 phi anti-K0 anti-K0 K*0 PHSP;
0.0000001 phi K+ K- K- pi+ PHSP;
0.0000001 phi K+ K- anti-K0 pi0 PHSP;
0.0000001 phi K0 anti-K0 K- pi+ PHSP;
0.0000001 phi K0 anti-K0 anti-K0 pi0 PHSP;
#--- 6-body a1a1 ------------
0.000050 a_10 a_10 PHSP;
0.000050 a_1+ a_1- PHSP;
#
# PR LHCb: 7 Nov 2005 Add anti-K*0 pi0 pi0
0.0000067 anti-K*0 pi0 pi0 PHSP;
#
# B -> cc= s
#
# Charmonium states - updated from Lange's recommendations (august 23,2000)
# Based on new BABAR results I'm making the following changes (Lange, March 13, 2001
# J/psi K0 was 10, now 9 x 10^-4
# J/psi pi0 was 2.5, now 2.0 x 10^-4
# J/psi Kstar was 15, now 13
# Fix chic1 KS CP eigenstate
# adding J/psi rho and omega - for lack of better thing will use the Kstar helicity amplitudes.
# Psi2sKs 30 ->31
# chic1 Kstar: 12 ->6
0.000891000 J/psi anti-K0 SVS; #[New mode added] #[Reconstructed PDG2011]
#
#
0.001330000 J/psi anti-K*0 SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; #[Reconstructed PDG2011]
0.000017600 J/psi pi0 SVS; #[Reconstructed PDG2011]
0.000027000 J/psi rho0 SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; #[Reconstructed PDG2011]
0.000030 J/psi omega SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus;
0.000000000 J/psi K- pi+ PHSP; #[Reconstructed PDG2011]
0.0001 J/psi anti-K0 pi0 PHSP;
#rl0.0007 J/psi anti-K0 pi+ pi- PHSP;
#rl0.00035 J/psi anti-K0 pi0 pi0 PHSP;
#rl0.00035 J/psi K- pi+ pi0 PHSP;
0.001300000 J/psi anti-K_10 SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; #[Reconstructed PDG2011]
0.0001 J/psi anti-K'_10 SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0;
0.0005 J/psi anti-K_2*0 PHSP;
0.000094000 J/psi phi anti-K0 PHSP; #[Reconstructed PDG2011]
#
0.000620000 psi(2S) anti-K0 SVS; #[New mode added] #[Reconstructed PDG2011]
#
#
0.000610000 psi(2S) anti-K*0 SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; #[Reconstructed PDG2011]
0.0004 psi(2S) K- pi+ PHSP;
0.0002 psi(2S) anti-K0 pi0 PHSP;
0.0002 psi(2S) anti-K0 pi+ pi- PHSP;
0.0001 psi(2S) anti-K0 pi0 pi0 PHSP;
0.0001 psi(2S) K- pi+ pi0 PHSP;
0.0004 psi(2S) anti-K_10 PHSP;
#
0.000900000 eta_c anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
#
#
0.000610000 anti-K*0 eta_c SVS; #[Reconstructed PDG2011]
0.0002 eta_c K- pi+ PHSP;
0.0001 eta_c anti-K0 pi0 PHSP;
0.0002 eta_c anti-K0 pi+ pi- PHSP;
0.0001 eta_c anti-K0 pi0 pi0 PHSP;
0.0001 eta_c K- pi+ pi0 PHSP;
#
0.00024 eta_c(2S) K_S0 PHSP;
0.00024 eta_c(2S) K_L0 PHSP;
#
#
0.00066 anti-K*0 eta_c(2S) SVS;
0.00008 eta_c(2S) K- pi+ PHSP;
0.00005 eta_c(2S) anti-K0 pi0 PHSP;
0.00008 eta_c(2S) anti-K0 pi+ pi- PHSP;
0.00005 eta_c(2S) anti-K0 pi0 pi0 PHSP;
0.00005 eta_c(2S) K- pi+ pi0 PHSP;
#
0.000190000 chi_c0 anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
#
#
0.00030 anti-K*0 chi_c0 SVS;
0.0002 chi_c0 K- pi+ PHSP;
0.0001 chi_c0 anti-K0 pi0 PHSP;
0.0002 chi_c0 anti-K0 pi+ pi- PHSP;
0.0001 chi_c0 anti-K0 pi0 pi0 PHSP;
0.0001 chi_c0 K- pi+ pi0 PHSP;
#
0.000395000 chi_c1 anti-K0 SVS; #[New mode added] #[Reconstructed PDG2011]
#
#
0.000222000 chi_c1 anti-K*0 SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; #[Reconstructed PDG2011]
0.0004 chi_c1 K- pi+ PHSP;
0.0002 chi_c1 anti-K0 pi0 PHSP;
0.0004 chi_c1 anti-K0 pi+ pi- PHSP;
0.0002 chi_c1 anti-K0 pi0 pi0 PHSP;
0.0002 chi_c1 K- pi+ pi0 PHSP;
#
0.00005 chi_c2 K_S0 STS;
0.00005 chi_c2 K_L0 STS;
#
#
0.00003 chi_c2 anti-K*0 PHSP;
0.0002 chi_c2 K- pi+ PHSP;
0.0001 chi_c2 anti-K0 pi0 PHSP;
0.0002 chi_c2 anti-K0 pi+ pi- PHSP;
0.0001 chi_c2 anti-K0 pi0 pi0 PHSP;
0.0001 chi_c2 K- pi+ pi0 PHSP;
#
0.00024 psi(3770) K_S0 SVS;
0.00024 psi(3770) K_L0 SVS;
#
#
0.00048 psi(3770) anti-K*0 SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus;
0.00014 psi(3770) K- pi+ PHSP;
0.00014 psi(3770) anti-K0 pi0 PHSP;
0.00014 psi(3770) anti-K0 pi+ pi- PHSP;
0.00007 psi(3770) anti-K0 pi0 pi0 PHSP;
0.00007 psi(3770) K- pi+ pi0 PHSP;
0.00029 psi(3770) anti-K_10 PHSP;
#
# b-> c (dc=)
#
0.000211000 D- D+ PHSP; #[Reconstructed PDG2011]
# See Ref [B1] for the next 3:
0.000305 D*+ D- SVS;
0.000610000 D*- D+ SVS; #[Reconstructed PDG2011]
0.000820000 D*+ D*- SVV_HELAMP 0.47 0.0 0.96 0.0 0.56 0.0; #[Reconstructed PDG2011]
#
# b -> c (sc=) --> D Ds X Sum = 10%
#
0.007200000 D+ D_s- PHSP; #[Reconstructed PDG2011]
0.008000000 D*+ D_s- SVS; #[Reconstructed PDG2011]
0.007400000 D_s*- D+ SVS; #[Reconstructed PDG2011]
0.017700000 D*+ D_s*- SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; #[Reconstructed PDG2011]
0.0006 D'_1+ D_s- SVS;
0.0012 D'_1+ D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0012 D_1+ D_s- SVS;
0.0024 D_1+ D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0042 D_2*+ D_s- STS;
0.0040 D_2*+ D_s*- PHSP;
#
0.0018 D_s- D+ pi0 PHSP;
0.0037 D_s- D0 pi+ PHSP;
0.0018 D_s*- D+ pi0 PHSP;
0.0037 D_s*- D0 pi+ PHSP;
0.0030 D_s- D+ pi+ pi- PHSP;
0.0022 D_s- D+ pi0 pi0 PHSP;
0.0022 D_s- D0 pi+ pi0 PHSP;
0.0030 D_s*- D+ pi+ pi- PHSP;
0.0022 D_s*- D+ pi0 pi0 PHSP;
0.0022 D_s*- D0 pi+ pi0 PHSP;
#
# b -> c (sc=) --> D D= K X Sum = 8%
# Update: Ref. [B1]
#
# External W-emission amplitude
0.001700000 D+ anti-D0 K- PHSP; #[Reconstructed PDG2011]
0.004600000 D+ anti-D*0 K- PHSP; #[Reconstructed PDG2011]
0.003100000 D*+ anti-D0 K- PHSP; #[Reconstructed PDG2011]
0.011800000 D*+ anti-D*0 K- PHSP; #[Reconstructed PDG2011]
# External+internal W-emission amplitude
0.0015 D+ D- anti-K0 PHSP;
0.0018 D*+ D- anti-K0 PHSP;
0.0047 D+ D*- anti-K0 PHSP;
0.007800000 D*+ D*- anti-K0 PHSP; #[Reconstructed PDG2011]
# Internal W-emission amplitude (color suppressed modes)
0.0005 D0 anti-D0 anti-K0 PHSP;
0.000120000 D*0 anti-D0 anti-K0 PHSP; #[Reconstructed PDG2011]
0.0015 D0 anti-D*0 anti-K0 PHSP;
0.0015 D*0 anti-D*0 anti-K0 PHSP;
0.0025 D+ anti-D0 K*- PHSP;
0.0025 D*+ anti-D0 K*- PHSP;
0.0025 D+ anti-D*0 K*- PHSP;
0.0050 D*+ anti-D*0 K*- PHSP;
#
0.0025 D+ D- anti-K*0 PHSP;
0.0025 D*+ D- anti-K*0 PHSP;
0.0025 D+ D*- anti-K*0 PHSP;
0.0050 D*+ D*- anti-K*0 PHSP;
#
0.0005 anti-D0 D0 anti-K*0 PHSP;
0.0005 anti-D0 D*0 anti-K*0 PHSP;
0.0005 anti-D*0 D0 anti-K*0 PHSP;
0.0010 anti-D*0 D*0 anti-K*0 PHSP;
#
#
# B -> D(*) X Exclusive modes
#
0.002760000 D*+ pi- SVS; #[Reconstructed PDG2011]
0.002680000 D+ pi- PHSP; #[Reconstructed PDG2011]
0.007110000 rho- D+ SVS; #[Reconstructed PDG2011]
#
# D* rho HELAMP parameters taken from ICHEP 98-852.
0.006800000 rho- D*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; #[Reconstructed PDG2011]
0.0005 D+ pi- pi0 PHSP;
0.008200000 D*+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000840000 D0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000620000 D*0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.0005 D*0 pi0 pi0 PHSP;
#
# D a1 updated Ref. [B1]
0.006000000 a_1- D+ SVS; #[Reconstructed PDG2011]
0.000000000 D+ rho0 pi- PHSP; #[Reconstructed PDG2011]
0.0011 D+ rho- pi0 PHSP;
0.002000000 D+ pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.0010 D+ pi0 pi- pi0 PHSP;
0.0010 D0 pi+ pi- pi0 PHSP;
0.0001 D0 pi0 pi0 pi0 PHSP;
#
# SVV_HELAMP for D* a1 taken from factorization. Recommandation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html:
# updated Ref. [B1]
# October 26, 2004 Lange update
# Dec 7 2015, MK update with PDG2015, details see corresponding B0
0.011000000 D*+ a_1- SVV_HELAMP 0.200 0.0 0.866 0.0 0.458 0.0; #[Reconstructed PDG2011]
#
0.001600000 D*+ rho0 pi- PHSP; #[Reconstructed PDG2011]
0.0010 D*+ rho- pi0 PHSP;
0.0005 D*+ pi+ pi- pi- PHSP;
0.0010 D*+ pi0 pi- pi0 PHSP;
0.0010 D*0 pi+ pi- pi0 PHSP;
0.0001 D*0 pi0 pi0 pi0 PHSP;
#
# B->D** pi and D** rho, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html
#further updates October 26, 2004 - Lange
# October 26, 2004 Lange update
#
0.0001 D_1+ pi- SVS;
0.0001 D'_1+ pi- SVS;
0.00006 D_0*+ pi- PHSP;
0.000215 D_2*+ pi- STS;
0.0004 D_1+ rho- PHSP;
0.0013 D'_1+ rho- PHSP;
0.0022 D_2*+ rho- PHSP;
#
#
# B->DK, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html:
# update: Ref. [B1]:
#
0.000214000 D*+ K- SVS; #[Reconstructed PDG2011]
0.000200000 D+ K- PHSP; #[Reconstructed PDG2011]
0.000330000 D*+ K*- SVV_HELAMP 0.228 0.0 0.932 0.0 0.283 0.0; #[Reconstructed PDG2011]
0.000450000 K*- D+ SVS; #[Reconstructed PDG2011]
#more DK modes - October 26, 2004 -Lange
0.000036 D*0 K0 SVS;
0.000052 D0 K0 PHSP;
0.000042000 anti-K*0 D0 SVS; #[Reconstructed PDG2011]
0.00001 anti-K*0 anti-D0 SVS;
0.00004 D*0 anti-K*0 SVV_HELAMP 1. 0. 1. 0. 1. 0.;
0.00001 anti-D*0 anti-K*0 SVV_HELAMP 1. 0. 1. 0. 1. 0.;
#
#
# Color-suppressed modes. Br's are expectations from
# Phys. Rev. D57 (1998), 5363-5369, except for the eta' modes, which are set
# equal to the eta modes. SVV_HELAMP parameters are the same as in D*0 rho-,
# with phases set to 0. Recommendation http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/169.html:
# update: See Ref [B1]:
# further update October 26, 2004 Lange
#
0.000261000 D0 pi0 PHSP; #[Reconstructed PDG2011]
0.000170000 D*0 pi0 SVS; #[Reconstructed PDG2011]
#
0.000320000 rho0 D0 SVS; #[Reconstructed PDG2011]
0.00029 D*0 rho0 SVV_HELAMP 0.228 0.0 0.932 0.0 0.283 0.0;
#
0.000202000 D0 eta PHSP; #[Reconstructed PDG2011]
0.000200000 D*0 eta SVS; #[Reconstructed PDG2011]
#
0.000125 D0 eta' PHSP;
0.000123000 D*0 eta' SVS; #[Reconstructed PDG2011]
#
0.000259000 omega D0 SVS; #[Reconstructed PDG2011]
0.000330000 D*0 omega SVV_HELAMP 0.228 0.0 0.932 0.0 0.283 0.0; #[Reconstructed PDG2011]
#
#
#October 26, 2004 - Lange
0.0016 D_s0*- D+ PHSP;
0.0015 D*+ D_s0*- SVS;
0.003500000 D_s1- D+ SVS; #[Reconstructed PDG2011]
0.009300000 D*+ D_s1- SVV_HELAMP 0.4904 0. 0.7204 0. 0.4904 0.; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.00088 D+ K- anti-K*0 PHSP;
0.00129 D*+ K- anti-K*0 PHSP;
#
# Feb 2009
#
0.002800000 D+ omega pi- PHSP; #[Reconstructed PDG2011]
0.002890000 D*+ omega pi- PHSP; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.00049 D+ K0 pi- PHSP;
0.0003 D*+ K0 pi- PHSP;
#
# Feb 2009
#
0.00043 D'_s1- D+ PHSP;
0.00083 D'_s1- D*+ PHSP;
##### Already included above 0.0023 D_s1- D*+ PHSP;
#
#
# Lam_c X / Sigma_c X 6.0 %
#
#0.01000 cd_0 anti-ud_0 PYTHIA 63;
#0.03000 cd_1 anti-ud_1 PYTHIA 63;
0.010463563 cd_0 anti-ud_0 PYTHIA 63;
0.020927220 cd_1 anti-ud_1 PYTHIA 63;
#
# Xi_c X 2.5%
#
#0.00600 cs_0 anti-ud_0 PYTHIA 63;
#0.01800 cs_1 anti-ud_1 PYTHIA 63;
0.002853725 cs_0 anti-ud_0 PYTHIA 63;
0.005707449 cs_1 anti-ud_1 PYTHIA 63;
#
# PR LHCb Add p pbar mode
0.0000001 p+ anti-p- PHSP;
#
0.252848685 anti-u d c anti-d PYTHIA 23;
0.043008898 anti-u d c anti-d PYTHIA 65;
0.019975978 anti-u s c anti-d PYTHIA 63;
0.017322253 anti-u c d anti-d PYTHIA 23;
0.000856098 anti-u c s anti-d PYTHIA 23;
#lange - try to crank up the psi production....
0.070391402 anti-c s c anti-d PYTHIA 43;
0.005707449 anti-c d c anti-d PYTHIA 43;
0.002853725 anti-u d u anti-d PYTHIA 23;
0.003804966 anti-c s u anti-d PYTHIA 23;
# JGS 11/5/02 This and similar a few lines above have been divided by two
# to solve a double-counting problem for this channel
0.001950007 anti-u u d anti-d PYTHIA 23;
0.000066610 anti-d d d anti-d PYTHIA 23;
0.000085600 anti-s s d anti-d PYTHIA 23;
0.002092675 anti-u u s anti-d PYTHIA 23;
0.001712197 anti-d d s anti-d PYTHIA 23;
0.001426862 anti-s s s anti-d PYTHIA 23;
0.004756208 s anti-d PYTHIA 91;
0.000490000 D+ anti-K0 pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000880000 D+ K- K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 D*+ anti-K0 pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001290000 D*+ K- K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.017600000 D*+ pi- pi- pi+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.004700000 D*+ pi- pi- pi- pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000110000 D_s+ pi- anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000052000 D0 anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000046000 D0 K- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000006000 anti-D0 K- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000036000 D*0 anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002700000 anti-D*0 pi- pi- pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000310000 J/psi omega anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000009500 J/psi eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000019000 J/psi pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000460000 J/psi anti-K0 pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000540000 J/psi anti-K0 rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000800000 J/psi K*- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000660000 J/psi anti-K*0 pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000170000 anti-K0 anti-D0 D0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011200 chi_c1 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000158000 chi_c1 K+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011000 eta anti-K_0*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000009600 eta anti-K_2*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000016000 omega anti-K_0*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000010100 omega anti-K_2*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004700 anti-K0 rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002700 f_2 anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000001400 f_0 K- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000007500 anti-K_2*0 phi PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000007600 eta anti-K0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004600 K- pi+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000019500 anti-K0 pi- pi+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000041000 K- pi+ pi0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000012400 anti-K_2*0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000860 rho0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002660 anti-p- p+ anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000001240 anti-p- p+ anti-K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000003140 anti-p- Lambda0 pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004800 Lambda0 anti-Lambda0 anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002500 Lambda0 anti-Lambda0 anti-K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011000 Lambda0 anti-Lambda0 anti-D0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000114000 D0 anti-p- p+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000028000 D_s+ Lambda0 anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000103000 D*0 anti-p- p+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001500000 D*+ anti-p- n0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000338000 D+ anti-p- p+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000500000 D*+ anti-p- p+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000020000 Lambda_c+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000630000 Lambda_c+ anti-p- pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000120000 Sigma_c*++ anti-p- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000150000 Sigma_c0 anti-p- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000220000 Sigma_c++ anti-p- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
#
Decay B0
# Updated to PDG 2008
# b -> c semileptonic
#
-0.0493 D*- e+ nu_e PHOTOS HQET2 1.207 0.920 1.406 0.853; # 1.0 * PDG2014
-0.0219 D- e+ nu_e PHOTOS HQET2 1.185 1.081; # 1.0 * PDG2014
-0.0042 D_1- e+ nu_e PHOTOS ISGW2; # PDG2014+D_J below
-0.0045 D_0*- e+ nu_e PHOTOS ISGW2; # PDG2014+D_J below
-0.0046 D'_1- e+ nu_e PHOTOS ISGW2; # PDG2014+D_J below
-0.0033 D_2*- e+ nu_e PHOTOS ISGW2; # PDG2014+D_J below
-0.00045 D*- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; # Increase by 1.5 compared to 2011
-0.00490 anti-D*0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; # Same as 2011
-0.0015 D- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; # 1.5 * of 2011 table
-0.0043 anti-D0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; # In principle should be in D**, but go to PDG2014 to fill inclusive
+0.0493 D*- e+ nu_e FSR HQET2 1.207 0.920 1.406 0.853; # 1.0 * PDG2014
+0.0219 D- e+ nu_e FSR HQET2 1.185 1.081; # 1.0 * PDG2014
+0.0042 D_1- e+ nu_e FSR ISGW2; # PDG2014+D_J below
+0.0045 D_0*- e+ nu_e FSR ISGW2; # PDG2014+D_J below
+0.0046 D'_1- e+ nu_e FSR ISGW2; # PDG2014+D_J below
+0.0033 D_2*- e+ nu_e FSR ISGW2; # PDG2014+D_J below
+0.00045 D*- pi0 e+ nu_e FSR GOITY_ROBERTS; # Increase by 1.5 compared to 2011
+0.00490 anti-D*0 pi- e+ nu_e FSR GOITY_ROBERTS; # Same as 2011
+0.0015 D- pi0 e+ nu_e FSR GOITY_ROBERTS; # 1.5 * of 2011 table
+0.0043 anti-D0 pi- e+ nu_e FSR GOITY_ROBERTS; # In principle should be in D**, but go to PDG2014 to fill inclusive
#
# Do same as for electrons
-0.0493 D*- mu+ nu_mu PHOTOS HQET2 1.207 0.920 1.406 0.853;
-0.0219 D- mu+ nu_mu PHOTOS HQET2 1.185 1.081;
-0.0042 D_1- mu+ nu_mu PHOTOS ISGW2;
-0.0045 D_0*- mu+ nu_mu PHOTOS ISGW2;
-0.0046 D'_1- mu+ nu_mu PHOTOS ISGW2;
-0.0033 D_2*- mu+ nu_mu PHOTOS ISGW2;
-0.00045 D*- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS;
-0.00490 anti-D*0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS;
-0.0015 D- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS;
-0.0043 anti-D0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS;
+0.0493 D*- mu+ nu_mu FSR HQET2 1.207 0.920 1.406 0.853;
+0.0219 D- mu+ nu_mu FSR HQET2 1.185 1.081;
+0.0042 D_1- mu+ nu_mu FSR ISGW2;
+0.0045 D_0*- mu+ nu_mu FSR ISGW2;
+0.0046 D'_1- mu+ nu_mu FSR ISGW2;
+0.0033 D_2*- mu+ nu_mu FSR ISGW2;
+0.00045 D*- pi0 mu+ nu_mu FSR GOITY_ROBERTS;
+0.00490 anti-D*0 pi- mu+ nu_mu FSR GOITY_ROBERTS;
+0.0015 D- pi0 mu+ nu_mu FSR GOITY_ROBERTS;
+0.0043 anti-D0 pi- mu+ nu_mu FSR GOITY_ROBERTS;
#
# b -> c tau nu
#
0.015000000 D*- tau+ nu_tau ISGW2; #[Reconstructed PDG2011]
0.011000000 D- tau+ nu_tau ISGW2; #[Reconstructed PDG2011]
0.0013 D_1- tau+ nu_tau ISGW2;
0.0013 D_0*- tau+ nu_tau ISGW2;
0.0020 D'_1- tau+ nu_tau ISGW2;
0.0020 D_2*- tau+ nu_tau ISGW2;
#
# b -> u l nu
#
-0.000145 pi- e+ nu_e PHOTOS ISGW2; # PDG2014
-0.000294 rho- e+ nu_e PHOTOS ISGW2; # PDG2014
-0.000000 D(2S)- e+ nu_e PHOTOS ISGW2;
-0.000000 D*(2S)- e+ nu_e PHOTOS ISGW2;
+0.000145 pi- e+ nu_e FSR ISGW2; # PDG2014
+0.000294 rho- e+ nu_e FSR ISGW2; # PDG2014
+0.000000 D(2S)- e+ nu_e FSR ISGW2;
+0.000000 D*(2S)- e+ nu_e FSR ISGW2;
0.001892 Xu- e+ nu_e VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00;
#
-0.000145 pi- mu+ nu_mu PHOTOS ISGW2; # PDG2014 (electrons)
-0.000294 rho- mu+ nu_mu PHOTOS ISGW2; # PDG2014 (electrons)
-0.000000 D(2S)- mu+ nu_mu PHOTOS ISGW2;
-0.000000 D*(2S)- mu+ nu_mu PHOTOS ISGW2;
+0.000145 pi- mu+ nu_mu FSR ISGW2; # PDG2014 (electrons)
+0.000294 rho- mu+ nu_mu FSR ISGW2; # PDG2014 (electrons)
+0.000000 D(2S)- mu+ nu_mu FSR ISGW2;
+0.000000 D*(2S)- mu+ nu_mu FSR ISGW2;
0.001892 Xu- mu+ nu_mu VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00;
#
0.000060 pi- tau+ nu_tau ISGW2;
0.000083 rho- tau+ nu_tau ISGW2;
0.000090 a_1- tau+ nu_tau ISGW2;
0.000008 b_1- tau+ nu_tau ISGW2;
0.000008 a_0- tau+ nu_tau ISGW2;
0.000008 a_2- tau+ nu_tau ISGW2;
0.000000 rho(2S)- tau+ nu_tau ISGW2;
0.000000 D(2S)- tau+ nu_tau ISGW2;
0.000000 D*(2S)- tau+ nu_tau ISGW2;
#
#
# b->u hadronic
# Ref. [B1]:
# Lange Nov 14, 2004 (flip D_s K --opposite of D_s pi)
0.000024000 D_s+ pi- PHSP; #[Reconstructed PDG2011]
0.000030000 D_s- K+ PHSP; #[Reconstructed PDG2011]
0.000021000 D_s*+ pi- SVS; #[Reconstructed PDG2011]
0.000021900 D_s*- K+ SVS; #[Reconstructed PDG2011]
#
0.000016 rho- D_s+ SVS;
0.000035000 K*+ D_s- SVS; #[Reconstructed PDG2011]
0.000041000 D_s*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000032000 D_s*- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
#
# b -> s gamma
#
0.000043300 K*0 gamma HELAMP 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
# PR LHCb add omega gamma
0.000000440 omega gamma HELAMP 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
#0.0000135 K_10 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000065 K'_10 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000128 K'*0 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000166 K_2*0 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000017 K''*0 gamma HELAMP 1.0 0.0 1.0 0.0;
0.0003118 Xsd gamma BTOXSGAMMA 2 ;
#
-0.000000160 K0 e+ e- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.000001030 K*0 e+ e- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.0000050 Xsd e+ e- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.000000450 K0 mu+ mu- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.000001050 K*0 mu+ mu- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.0000025 Xsd mu+ mu- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.0000001 K0 tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 K*0 tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 Xsd tau+ tau- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
+0.000000160 K0 e+ e- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.000001030 K*0 e+ e- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.0000050 Xsd e+ e- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.000000450 K0 mu+ mu- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.000001050 K*0 mu+ mu- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.0000025 Xsd mu+ mu- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.0000001 K0 tau+ tau- FSR BTOSLLBALL;
+0.0000002 K*0 tau+ tau- FSR BTOSLLBALL;
+0.0000002 Xsd tau+ tau- FSR BTOXSLL 4.8 0.2 0.0 0.41;
#
#------------------------------------------------------------------------------
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv
#
# B0 -> CP eigenstates (some exclusive b -> u) sum=0.00036
#
# PR LHCb 04/07/04 update BR
0.000005130 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000001620 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.0000010 pi0 eta PHSP;
0.000001200 pi0 eta' PHSP; #[Reconstructed PDG2011]
0.000001 pi0 a_00 PHSP;
0.000001 pi0 f_0 PHSP;
# pi0 rho0 is with the 3-body modes
0.000001 omega pi0 SVS;
0.000001 a_10 pi0 SVS;
0.000001 b_10 pi0 SVS;
0.000001 eta eta PHSP;
0.000001 eta eta' PHSP;
0.000001 eta a_00 PHSP;
0.000001 eta f_0 PHSP;
0.000001 rho0 eta SVS;
0.000000940 omega eta SVS; #[Reconstructed PDG2011]
0.000001 a_10 eta SVS;
0.000001 b_10 eta SVS;
0.000001 eta' eta' PHSP;
0.000001 eta' a_00 PHSP;
0.000001 eta' f_0 PHSP;
0.000001 rho0 eta' SVS;
0.000001000 omega eta' SVS; #[Reconstructed PDG2011]
0.000001 a_10 eta' SVS;
0.000001 b_10 eta' SVS;
0.000001 a_00 a_00 PHSP;
0.000001 a_00 f_0 PHSP;
0.000001 rho0 a_00 SVS;
0.000001 omega a_00 SVS;
0.000001 a_10 a_00 SVS;
0.000001 b_10 a_00 SVS;
0.000001 f_0 f_0 PHSP;
0.000001 rho0 f_0 SVS;
0.000001 omega f_0 SVS;
0.000001 a_10 f_0 SVS;
0.000001 b_10 f_0 SVS;
# Penguin dominated modes are sin2beta, not sin2alpha
0.000004300 phi K_S0 SVS; #[Reconstructed PDG2011]
0.000004300 phi K_L0 SVS; #[Reconstructed PDG2011]
0.000000550 eta K_S0 PHSP; #[Reconstructed PDG2011]
0.000000550 eta K_L0 PHSP; #[Reconstructed PDG2011]
0.000033000 eta' K_S0 PHSP; #[Reconstructed PDG2011]
0.000033000 eta' K_L0 PHSP; #[Reconstructed PDG2011]
0.000002500 omega K_S0 SVS; #[Reconstructed PDG2011]
0.000002500 omega K_L0 SVS; #[Reconstructed PDG2011]
#don't allow jetset to simulate the same decay but to a K0 or anti-K0
#Lange 1/30/2003
0.0 phi K0 PHSP;
0.0 phi anti-K0 PHSP;
0.0 eta K0 PHSP;
0.0 eta anti-K0 PHSP;
0.0 eta' K0 PHSP;
0.0 eta' anti-K0 PHSP;
0.0 omega K0 PHSP;
0.0 omega anti-K0 PHSP;
# phipi0 has no simple Pengiun or tree so who knows - ditto phieta/eta'?
0.000001 phi pi0 SVS;
0.000001 phi eta SVS;
0.000001 phi eta' SVS;
#
0.000015900 K*0 eta SVS; #[Reconstructed PDG2011]
0.000003800 K*0 eta' SVS; #[Reconstructed PDG2011]
0.000002000 K*0 omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000001 phi omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 omega omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 omega rho0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
#
# PR LHCb 04/07/04 update BR
#2-body modes from Jim Olsen
0.000019400 K+ pi- PHSP; #[Reconstructed PDG2011]
0.0000004 K+ K- PHSP;
0.000000240 K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.0000000 K_S0 K_L0 PHSP;
0.000000240 K_L0 K_L0 PHSP; #[Reconstructed PDG2011]
# Declare K0 pi0 not to have it through Pythia (LHCb - PR)
0.0000000 K0 pi0 PHSP;
# Split into K_s0 K_l0 (LHCb - P. Robbe)
0.000004750 K_S0 pi0 PHSP; #[Reconstructed PDG2011]
0.000004750 K_L0 pi0 PHSP; #[Reconstructed PDG2011]
#Put in with 0 BR to keep PYTHIA from generating it
0.0000000 K0 anti-K0 PHSP;
#
# 3-body John Back (jback@slac.stanford.edu) - Oct 15, 2002
# JGS intersperses modes with pi0->eta,eta'
# B0 modes
# Model generates rho(770), rho(1450) and rho(1700) resonances
# with interference (uses CKM angle alpha)
0.000024 pi- pi+ pi0 BTO3PI_CP dm alpha;
# Put in with 0 BR to keep PYTHIA from generating these (see BTO3PI_CP above)
0.000000 rho0 pi0 SVS;
0.000000 rho+ pi- SVS;
0.000000 rho- pi+ SVS;
0.000000 rho(2S)+ pi- SVS;
0.000000 rho(2S)- pi+ SVS;
0.000000 rho(3S)+ pi- SVS;
0.000000 rho(3S)- pi+ SVS;
#
# rho0 3-body modes
0.000002350 rho0 K_S0 SVS; #[Reconstructed PDG2011]
0.000002350 rho0 K_L0 SVS; #[Reconstructed PDG2011]
#
# rho- 3-body modes
0.000008400 rho- K+ SVS; #[Reconstructed PDG2011]
#
# rho(1450) 3-body modes
0.0000005 rho(2S)0 K_S0 SVS;
0.0000005 rho(2S)0 K_L0 SVS;
#
#
# f0,a0(980) 3-body modes
0.0000055 f_0 K0 PHSP;
0.000001 a_00 K0 PHSP;
0.000001 a_0- K+ PHSP;
0.000001 a_0+ pi- PHSP;
0.000003 a_0- pi+ PHSP;
#
# K*0(892) 3-body modes
0.000003600 K*0 pi0 SVS; #[Reconstructed PDG2011]
0.000003 K*0 anti-K0 SVS;
#
# K*0(1430) 3-body modes
0.000001 K_0*0 pi0 PHSP;
0.000003 K_0*0 anti-K0 PHSP;
#
# K*0(1680) 3-body modes
0.000001 K''*0 pi0 SVS;
0.000001 K''*0 K0 SVS;
#
# K*+(892) 3-body modes
0.000009400 K*+ pi- SVS; #[Reconstructed PDG2011]
0.000002 K*+ K- SVS;
#
# K*+(1430) 3-body modes
0.000033000 K_0*+ pi- PHSP; #[Reconstructed PDG2011]
0.000002 K_0*+ K- PHSP;
#
# K*0(1680) 3-body modes
0.000001 K''*+ pi- SVS;
0.000001 K''*+ K- SVS;
#
#
# Non-resonant 3-body left-overs
# Most modes are set at 1e-6
#
# pi+pi-pi0: high mass + f0(400-1200) = (1+1)e-6
#0402270.000002 pi+ pi- pi0 PHSP;
0.000017 pi+ pi- eta PHSP;
0.000001 pi+ pi- eta' PHSP;
#
# pi+ pi- K0: total-rhoK0-f0K0-piK*(892)-piK*(1430)=45-5-6-13./3-11./3
0.000000000 pi+ pi- K0 PHSP; #[Reconstructed PDG2011]
#
# K+ pi- pi0
0.000027500 K+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000020 K+ pi- eta PHSP;
0.000001 K+ pi- eta' PHSP;
#
# pi+ K- K0.
# Both B0 and B0bar can decay to these => 0.5e-6 each
0.0000005 pi+ K- K0 PHSP;
0.0000005 pi- K+ anti-K0 PHSP;
#
# K+ K- K0
# PR LHCb 09 Apr 2004 split into KS/KL
0.000000 K+ K- K0 PHSP;
0.000012350 K+ K- K_S0 PHSP; #[Reconstructed PDG2011]
0.000012350 K+ K- K_L0 PHSP; #[Reconstructed PDG2011]
#
# K+ K- pi0
0.000001 K+ K- pi0 PHSP;
0.000001 K+ K- eta PHSP;
0.000001 K+ K- eta' PHSP;
#
# pi0 K0 anti-K0
0.000002 K0 anti-K0 pi0 PHSP;
0.000001 K0 anti-K0 eta PHSP;
0.000001 K0 anti-K0 eta' PHSP;
#
# pi0 pi0 K0
0.000002 K0 pi0 pi0 PHSP;
0.000001 K0 pi0 eta PHSP;
0.000001 K0 pi0 eta' PHSP;
0.000001 K0 eta eta PHSP;
0.000001 K0 eta eta' PHSP;
0.000001 K0 eta' eta' PHSP;
#
# K0 anti-K0 K0: 8*BF(KsKsKs)~=48 (8 is a guess)
0.000048 K0 anti-K0 K0 PHSP;
#
# pi0 pi0 pi0
0.000001 pi0 pi0 pi0 PHSP;
0.000001 pi0 pi0 eta PHSP;
0.000001 pi0 pi0 eta' PHSP;
0.000001 pi0 eta eta PHSP;
0.000001 pi0 eta eta' PHSP;
#
# PR LHCb: 7 Nov 2005 Add K*0 pi0 pi0
0.0000067 K*0 pi0 pi0 PHSP;
#^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#---------------------------------------------------------------------------
#
#4-body modes from Andrei Gritsan
#--- 4-body rho-rho, rho-pi-pi, pi-pi-pi-pi --------------------------
# PR LHCb 20 Apr 2004, set long. pol.
0.000000730 rho0 rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000024200 rho+ rho- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000003 rho0 pi+ pi- PHSP;
0.000003 omega pi+ pi- PHSP;
0.000001 rho0 pi0 pi0 PHSP;
0.000001 omega pi0 pi0 PHSP;
0.0000005 rho0 pi0 eta PHSP;
0.0000002 rho0 eta eta PHSP;
0.0000002 rho0 pi0 eta' PHSP;
0.0000001 rho0 eta eta' PHSP;
0.0000005 omega pi0 eta PHSP;
0.0000002 omega eta eta PHSP;
0.0000002 omega pi0 eta' PHSP;
0.0000001 omega eta eta' PHSP;
0.000010 rho+ pi- pi0 PHSP;
0.000005 rho+ pi- eta PHSP;
0.000010 rho- pi+ pi0 PHSP;
0.000005 rho- pi+ eta PHSP;
0.000010 pi+ pi- pi+ pi- PHSP;
0.000010 pi+ pi- pi0 pi0 PHSP;
0.000005 pi+ pi- eta pi0 PHSP;
0.000002 pi+ pi- eta eta PHSP;
0.000002 pi+ pi- eta' pi0 PHSP;
0.000001 pi+ pi- eta' eta PHSP;
0.000016500 a_1+ pi- SVS; #[Reconstructed PDG2011]
0.000016500 a_1- pi+ SVS; #[Reconstructed PDG2011]
0.0000055 b_1+ pi- SVS;
0.0000055 b_1- pi+ SVS;
0.000002 rho- a_0+ SVS;
0.000010 rho+ a_0- SVS;
0.000001 f_0 pi+ pi- PHSP;
0.000001 f_0 pi0 pi0 PHSP;
0.000001 a_0- pi+ pi0 PHSP;
0.000001 a_00 pi0 pi0 PHSP;
0.000001 a_0+ pi- pi0 PHSP;
#--- 4-body rho-K*, rho-pi-K, K*-pi-pi, pi-pi-pi-K -------------------
0.000003400 rho0 K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.0000100 rho- K*+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000050600 pi- pi+ K*0 PHSP; #[Reconstructed PDG2011]
0.000010 pi- pi0 K*+ PHSP;
0.000005 pi- eta K*+ PHSP;
0.000002 pi- eta' K*+ PHSP;
0.000010 rho- K+ pi0 PHSP;
0.000005 rho- K+ eta PHSP;
0.000002 rho- K+ eta' PHSP;
0.000010 rho- K0 pi+ PHSP;
0.000010 rho+ K0 pi- PHSP;
0.000005 rho0 K0 pi0 PHSP;
0.000002 rho0 K0 eta PHSP;
0.000001 rho0 K0 eta' PHSP;
0.000010 rho0 K+ pi- PHSP;
0.000005 omega K0 pi0 PHSP;
0.000002 omega K0 eta PHSP;
0.000001 omega K0 eta' PHSP;
0.000005100 omega K+ pi- PHSP; #[Reconstructed PDG2011]
0.000010 pi+ pi0 pi- K0 PHSP;
0.000005 pi+ eta pi- K0 PHSP;
0.000010 pi0 pi0 pi0 K0 PHSP;
0.000005 pi0 pi0 eta K0 PHSP;
0.000002 pi0 eta eta K0 PHSP;
0.000002 pi0 pi0 eta' K0 PHSP;
0.000001 pi0 eta eta' K0 PHSP;
0.000010 pi+ pi- pi- K+ PHSP;
0.000010 pi0 pi0 pi- K+ PHSP;
0.000005 pi0 eta pi- K+ PHSP;
0.000002 eta eta pi- K+ PHSP;
0.000002 pi0 eta' pi- K+ PHSP;
0.000001 eta eta' pi- K+ PHSP;
0.000010 rho0 K_0*0 PHSP;
0.000020 rho- K_0*+ PHSP;
0.000010 pi- pi+ K_0*0 PHSP;
0.000010 pi0 pi0 K_0*0 PHSP;
0.000010 pi- pi0 K_0*+ PHSP;
0.000005 K*0 f_0 SVS;
0.000010 a_10 K0 SVS;
0.000016000 a_1- K+ SVS; #[Reconstructed PDG2011]
0.000010 b_10 K0 SVS;
0.0000074 b_1- K+ SVS;
0.000005 K*0 a_00 SVS;
0.000005 K*+ a_0- SVS;
#--- 4-body K*-K*, rho-K-K, K*-K-pi, phi-pi-pi, pi-pi-K-K ------------
0.000001280 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000001 K*+ K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000001 phi rho0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 K+ K- rho0 PHSP;
0.000001 K0 anti-K0 rho0 PHSP;
0.000001 K+ K- omega PHSP;
0.000001 K0 anti-K0 omega PHSP;
0.000001 K+ anti-K0 rho- PHSP;
0.000001 K- K0 rho+ PHSP;
0.0000001 phi pi- pi+ PHSP;
0.000001 K+ K- pi- pi+ PHSP;
0.000001 K+ K- pi0 pi0 PHSP;
0.0000005 K+ K- pi0 eta PHSP;
0.0000002 K+ K- eta eta PHSP;
0.0000002 K+ K- pi0 eta' PHSP;
0.0000001 K+ K- eta eta' PHSP;
0.000001 K0 anti-K0 pi- pi+ PHSP;
0.000001 K0 anti-K0 pi0 pi0 PHSP;
0.0000005 K0 anti-K0 pi0 eta PHSP;
0.0000002 K0 anti-K0 eta eta PHSP;
0.0000002 K0 anti-K0 pi0 eta' PHSP;
0.0000001 K0 anti-K0 eta eta' PHSP;
0.000001 K*+ K- pi0 PHSP;
0.000001 K*- K+ pi0 PHSP;
0.000001 K*0 anti-K0 pi0 PHSP;
0.000001 K0 anti-K*0 pi0 PHSP;
0.000001 K+ anti-K*0 pi- PHSP;
0.000001 K*+ anti-K0 pi- PHSP;
0.000003320 K- K*0 pi+ PHSP; #[Reconstructed PDG2011]
0.000001 K*- K0 pi+ PHSP;
#--- 4-body phi-K*, phi-K-pi, K-K-K*, pi-K-K-K -----------------------
0.000009800 phi K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000010 phi K+ pi- PHSP;
0.000010 phi K0 pi0 PHSP;
0.000007 phi K0 eta PHSP;
0.000017700 K- K+ K*0 PHSP; #[Reconstructed PDG2011]
0.000010 K- K*+ K0 PHSP;
0.000010 K*- K+ K0 PHSP;
0.000010 K+ K- K+ pi- PHSP;
0.000010 K+ K- K0 pi0 PHSP;
0.000005 K+ K- K0 eta PHSP;
0.000010 K0 anti-K0 K0 pi0 PHSP;
0.000005 K0 anti-K0 K0 eta PHSP;
0.000003900 phi K_0*0 PHSP; #[Reconstructed PDG2011]
0.000010 K- K+ K_0*0 PHSP;
0.000010 K- K_0*+ K0 PHSP;
0.000010 K_0*- K+ K0 PHSP;
0.000002 phi K'_10 PHSP;
0.000002 K- K+ K'_10 PHSP;
#--- 4-body phi-phi, phi-K-K, K-K-K-K --------------------------------
0.0000001 phi phi SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000001 phi K+ K- PHSP;
0.0000001 phi K0 anti-K0 PHSP;
0.0000001 K+ K- K+ K- PHSP;
0.0000001 K0 anti-K0 K+ K- PHSP;
0.0000001 K0 anti-K0 K0 anti-K0 PHSP;
#5-body modes from Jim Smith - 1/30/05
#--- 5-body rho-rho-pi, rho-pi-pi-pi, pi-pi-pi-pi-pi -------------------
0.000010 rho0 rho0 pi0 PHSP;
0.000005 rho0 rho0 eta PHSP;
0.000002 rho0 rho0 eta' PHSP;
0.000010 omega rho0 pi0 PHSP;
0.000005 omega rho0 eta PHSP;
0.000002 omega rho0 eta' PHSP;
0.000010 rho+ rho- pi0 PHSP;
0.000005 rho+ rho- eta PHSP;
0.000002 rho+ rho- eta' PHSP;
0.000010 rho0 rho+ pi- PHSP;
0.000010 omega rho+ pi- PHSP;
0.000002 rho0 pi+ pi- pi0 PHSP;
0.000001 rho0 pi+ pi- eta PHSP;
0.000001 rho0 pi+ pi- eta' PHSP;
0.000002 rho0 pi0 pi0 pi0 PHSP;
0.000001 rho0 pi0 eta pi0 PHSP;
0.000001 rho0 pi0 eta' pi0 PHSP;
0.000002 omega pi+ pi- pi0 PHSP;
0.000001 omega pi+ pi- eta PHSP;
0.000001 omega pi+ pi- eta' PHSP;
0.000002 omega pi0 pi0 pi0 PHSP;
0.000001 omega pi0 eta pi0 PHSP;
0.000001 omega pi0 eta' pi0 PHSP;
0.000002 rho+ pi- pi+ pi- PHSP;
0.000002 rho+ pi- pi0 pi0 PHSP;
0.000001 rho+ pi- pi0 eta PHSP;
0.000001 rho+ pi- pi0 eta' PHSP;
0.000002 rho- pi+ pi+ pi- PHSP;
0.000002 rho- pi+ pi0 pi0 PHSP;
0.000001 rho- pi+ pi0 eta PHSP;
0.000001 rho- pi+ pi0 eta' PHSP;
0.000001 pi+ pi- pi+ pi- pi0 PHSP;
0.0000005 pi+ pi- pi+ pi- eta PHSP;
0.0000002 pi+ pi- pi+ pi- eta' PHSP;
0.000001 pi+ pi- pi0 pi0 pi0 PHSP;
0.0000005 pi+ pi- pi0 pi0 eta PHSP;
0.0000002 pi+ pi- pi0 pi0 eta' PHSP;
0.0000005 pi0 pi0 pi0 pi0 pi0 PHSP;
0.0000002 pi0 pi0 pi0 pi0 eta PHSP;
0.0000001 pi0 pi0 pi0 pi0 eta' PHSP;
0.000010 a_1+ rho- PHSP;
0.000010 a_1- rho+ PHSP;
0.000010 a_10 rho0 PHSP;
0.000010 a_10 omega PHSP;
0.000010 a_1+ pi- pi0 PHSP;
0.000005 a_1+ pi- eta PHSP;
0.000002 a_1+ pi- eta' PHSP;
0.000010 a_10 pi+ pi- PHSP;
0.000010 a_10 pi0 pi0 PHSP;
0.000005 a_10 pi0 eta PHSP;
0.000002 a_10 pi0 eta' PHSP;
0.000010 a_1- pi+ pi0 PHSP;
0.000005 a_1- pi+ eta PHSP;
0.000002 a_1- pi+ eta' PHSP;
0.000010 rho+ f_0 pi- PHSP;
0.000010 rho- f_0 pi+ PHSP;
0.000010 rho0 f_0 pi0 PHSP;
0.000005 rho0 f_0 eta PHSP;
0.000002 rho0 f_0 eta' PHSP;
0.000010 omega f_0 pi0 PHSP;
0.000010 rho+ a_00 pi- PHSP;
0.000010 rho+ a_0- pi0 PHSP;
0.000005 rho+ a_0- eta PHSP;
0.000002 rho+ a_0- eta' PHSP;
0.000010 rho0 a_0+ pi- PHSP;
0.000010 rho0 a_0- pi+ PHSP;
0.000010 rho0 a_00 pi0 PHSP;
0.000005 rho0 a_00 eta PHSP;
0.000002 rho0 a_00 eta' PHSP;
0.000010 rho- a_00 pi+ PHSP;
0.000010 rho- a_0+ pi0 PHSP;
0.000005 rho- a_0+ eta PHSP;
0.000002 rho- a_0+ eta' PHSP;
0.000002 f_0 pi+ pi- pi0 PHSP;
0.000001 f_0 pi+ pi- eta PHSP;
0.000001 f_0 pi+ pi- eta' PHSP;
0.000002 f_0 pi0 pi0 pi0 PHSP;
0.000001 f_0 pi0 pi0 eta PHSP;
0.000001 f_0 pi0 pi0 eta' PHSP;
0.000001 a_00 pi+ pi- pi0 PHSP;
0.000001 a_00 pi0 pi0 pi0 PHSP;
0.000001 a_0+ pi- pi+ pi- PHSP;
0.000001 a_0+ pi- pi0 pi0 PHSP;
0.000001 a_0- pi+ pi+ pi- PHSP;
0.000001 a_0- pi+ pi0 pi0 PHSP;
#--- 5-body rho-K*pi, rho-2pi-K, K*-3pi, 4pi-K -------------------
0.000010 rho0 K*+ pi- PHSP;
0.000010 rho- K*+ pi0 PHSP;
0.000005 rho- K*+ eta PHSP;
0.000002 rho- K*+ eta' PHSP;
0.000010 rho0 K*0 pi0 PHSP;
0.000005 rho0 K*0 eta PHSP;
0.000002 rho0 K*0 eta' PHSP;
0.000010 rho- K*0 pi+ PHSP;
0.000010 rho+ K*0 pi- PHSP;
0.000010 omega K*+ pi- PHSP;
0.000010 omega K*0 pi0 PHSP;
0.000005 omega K*0 eta PHSP;
0.000002 omega K*0 eta' PHSP;
0.000010 pi+ pi- K*+ pi- PHSP;
0.000010 pi- pi0 K*+ pi0 PHSP;
0.000005 pi- pi0 K*+ eta PHSP;
0.000002 pi- pi0 K*+ eta' PHSP;
0.000010 pi+ pi- K*0 pi0 PHSP;
0.000005 pi+ pi- K*0 eta PHSP;
0.000002 pi+ pi- K*0 eta' PHSP;
0.000010 pi0 pi0 K*0 pi0 PHSP;
0.000005 pi0 pi0 K*0 eta PHSP;
0.000002 pi0 pi0 K*0 eta' PHSP;
0.000010 rho+ K+ pi- pi- PHSP;
0.000010 rho0 K+ pi- pi0 PHSP;
0.000005 rho0 K+ pi- eta PHSP;
0.000002 rho0 K+ pi- eta' PHSP;
0.000010 rho- K+ pi+ pi- PHSP;
0.000010 rho- K+ pi0 pi0 PHSP;
0.000005 rho- K+ pi0 eta PHSP;
0.000002 rho- K+ pi0 eta' PHSP;
0.000010 rho0 K0 pi+ pi- PHSP;
0.000010 rho0 K0 pi0 pi0 PHSP;
0.000005 rho0 K0 pi0 eta PHSP;
0.000002 rho0 K0 pi0 eta' PHSP;
0.000010 rho+ K0 pi- pi0 PHSP;
0.000005 rho+ K0 pi- eta PHSP;
0.000002 rho+ K0 pi- eta' PHSP;
0.000010 rho- K0 pi+ pi0 PHSP;
0.000005 rho- K0 pi+ eta PHSP;
0.000002 rho- K0 pi+ eta' PHSP;
0.000010 omega K+ pi- pi0 PHSP;
0.000005 omega K+ pi- eta PHSP;
0.000002 omega K+ pi- eta' PHSP;
0.000010 omega K0 pi+ pi- PHSP;
0.000010 omega K0 pi0 pi0 PHSP;
0.000005 omega K0 pi0 eta PHSP;
0.000002 omega K0 pi0 eta' PHSP;
0.000002 pi+ pi- pi- K+ pi0 PHSP;
0.000001 pi+ pi- pi- K+ eta PHSP;
0.000001 pi+ pi- pi- K+ eta' PHSP;
0.000002 pi0 pi0 pi- K+ pi0 PHSP;
0.000001 pi0 pi0 pi- K+ eta PHSP;
0.000001 pi0 pi0 pi- K+ eta' PHSP;
0.000002 pi+ pi- pi+ K0 pi- PHSP;
0.000002 pi+ pi- pi0 K0 pi0 PHSP;
0.000001 pi+ pi- pi0 K0 eta PHSP;
0.000001 pi+ pi- pi0 K0 eta' PHSP;
0.000002 pi0 pi0 pi0 K0 pi0 PHSP;
0.000001 pi0 pi0 pi0 K0 eta PHSP;
0.000001 pi0 pi0 pi0 K0 eta' PHSP;
0.000010 rho+ K_0*0 pi- PHSP;
0.000010 rho0 K_0*0 pi0 PHSP;
0.000005 rho0 K_0*0 eta PHSP;
0.000002 rho0 K_0*0 eta' PHSP;
0.000010 rho- K_0*0 pi+ PHSP;
0.000010 rho- K_0*+ pi0 PHSP;
0.000005 rho- K_0*+ eta PHSP;
0.000002 rho- K_0*+ eta' PHSP;
0.000010 rho0 K_0*+ pi- PHSP;
0.000010 pi+ pi- K_0*+ pi- PHSP;
0.000010 pi- pi0 K_0*+ pi0 PHSP;
0.000005 pi- pi0 K_0*+ eta PHSP;
0.000002 pi- pi0 K_0*+ eta' PHSP;
0.000010 pi+ pi- K_0*0 pi0 PHSP;
0.000005 pi+ pi- K_0*0 eta PHSP;
0.000002 pi+ pi- K_0*0 eta' PHSP;
0.000010 pi0 pi0 K_0*0 pi0 PHSP;
0.000005 pi0 pi0 K_0*0 eta PHSP;
0.000005 pi0 pi0 K_0*0 eta' PHSP;
0.000010 K*+ f_0 pi- PHSP;
0.000010 K*0 f_0 pi0 PHSP;
0.000005 K*0 f_0 eta PHSP;
0.000002 K*0 f_0 eta' PHSP;
0.000010 a_1+ K0 pi- PHSP;
0.000020 a_10 K*0 PHSP;
0.000010 a_10 K+ pi- PHSP;
0.000010 a_10 K0 pi0 PHSP;
0.000020 a_1- K*+ PHSP;
0.000010 a_1- K+ pi0 PHSP;
0.000010 a_1- K0 pi+ PHSP;
0.000005 K*+ a_00 pi- PHSP;
0.000005 K*+ a_0- pi0 PHSP;
0.000002 K*+ a_0- eta PHSP;
0.000001 K*+ a_0- eta' PHSP;
0.000005 K*0 a_0+ pi- PHSP;
0.000005 K*0 a_00 pi0 PHSP;
0.000002 K*0 a_00 eta PHSP;
0.000001 K*0 a_00 eta' PHSP;
#--- 5-body K*-K*pi,rho-K-Kpi, K*-K-2pi, phi-3pi, 3pi-K-K ------------
0.000001 K*- K*0 pi+ PHSP;
0.000001 K*+ anti-K*0 pi- PHSP;
0.000001 K*- K*+ pi0 PHSP;
0.0000005 K*- K*+ eta PHSP;
0.0000002 K*- K*+ eta' PHSP;
0.000001 K*0 anti-K*0 pi0 PHSP;
0.0000005 K*0 anti-K*0 eta PHSP;
0.0000002 K*0 anti-K*0 eta' PHSP;
0.000001 phi rho+ pi- PHSP;
0.000001 phi rho- pi+ PHSP;
0.000001 phi rho0 pi0 PHSP;
0.0000005 phi rho0 eta PHSP;
0.0000002 phi rho0 eta' PHSP;
0.000001 phi omega pi0 PHSP;
0.000001 phi f_0 pi0 PHSP;
0.000001 phi pi+ pi- pi0 PHSP;
0.0000005 phi pi+ pi- eta PHSP;
0.0000002 phi pi+ pi- eta' PHSP;
0.000001 phi pi0 pi0 pi0 PHSP;
0.0000005 phi pi0 pi0 eta PHSP;
0.0000002 phi pi0 pi0 eta' PHSP;
0.000001 K0 K- rho0 pi+ PHSP;
0.000001 K0 K- rho+ pi0 PHSP;
0.0000005 K0 K- rho+ eta PHSP;
0.0000002 K0 K- rho+ eta' PHSP;
0.000001 K0 K- omega pi+ PHSP;
0.000001 K0 K- f_0 pi+ PHSP;
0.000001 K+ K- rho+ pi- PHSP;
0.000001 K+ K- rho- pi+ PHSP;
0.000001 K+ K- rho0 pi0 PHSP;
0.0000005 K+ K- rho0 eta PHSP;
0.0000002 K+ K- rho0 eta' PHSP;
0.000001 K+ K- omega pi0 PHSP;
0.0000005 K+ K- omega eta PHSP;
0.0000002 K+ K- omega eta' PHSP;
0.000001 K+ K- f_0 pi0 PHSP;
0.000001 K0 anti-K0 rho+ pi- PHSP;
0.000001 K0 anti-K0 rho- pi+ PHSP;
0.000001 K0 anti-K0 rho0 pi0 PHSP;
0.0000005 K0 anti-K0 rho0 eta PHSP;
0.0000002 K0 anti-K0 rho0 eta' PHSP;
0.000001 K0 anti-K0 omega pi0 PHSP;
0.000001 K0 anti-K0 f_0 pi0 PHSP;
0.000001 anti-K0 K+ rho0 pi- PHSP;
0.000001 anti-K0 K+ rho- pi0 PHSP;
0.0000005 anti-K0 K+ rho- eta PHSP;
0.0000002 anti-K0 K+ rho- eta' PHSP;
0.000001 anti-K0 K+ omega pi- PHSP;
0.000001 anti-K0 K+ f_0 pi- PHSP;
0.0000002 K0 K- pi+ pi+ pi- PHSP;
0.0000002 K0 K- pi+ pi0 pi0 PHSP;
0.0000001 K0 K- pi+ pi0 eta PHSP;
0.0000001 K0 K- pi+ pi0 eta' PHSP;
0.0000002 K+ K- pi+ pi- pi0 PHSP;
0.0000001 K+ K- pi+ pi- eta PHSP;
0.0000001 K+ K- pi+ pi- eta' PHSP;
0.0000002 K+ K- pi0 pi0 pi0 PHSP;
0.0000001 K+ K- pi0 pi0 eta PHSP;
0.0000001 K+ K- pi0 pi0 eta' PHSP;
0.0000002 K0 anti-K0 pi+ pi- pi0 PHSP;
0.0000001 K0 anti-K0 pi+ pi- eta PHSP;
0.0000001 K0 anti-K0 pi+ pi- eta' PHSP;
0.0000002 K0 anti-K0 pi0 pi0 pi0 PHSP;
0.0000001 K0 anti-K0 pi0 pi0 eta PHSP;
0.0000001 K0 anti-K0 pi0 pi0 eta' PHSP;
0.0000002 anti-K0 K+ pi- pi+ pi- PHSP;
0.0000002 anti-K0 K+ pi- pi0 pi0 PHSP;
0.0000001 anti-K0 K+ pi- pi0 eta PHSP;
0.0000001 anti-K0 K+ pi- pi0 eta' PHSP;
0.000001 K*0 K- pi+ pi0 PHSP;
0.0000005 K*0 K- pi+ eta PHSP;
0.0000002 K*0 K- pi+ eta' PHSP;
0.000001 K*- K0 pi+ pi0 PHSP;
0.0000005 K*- K0 pi+ eta PHSP;
0.0000002 K*- K0 pi+ eta' PHSP;
0.000001 K*+ K- pi+ pi- PHSP;
0.000001 K*+ K- pi0 pi0 PHSP;
0.0000005 K*+ K- pi0 eta PHSP;
0.0000002 K*+ K- pi0 eta' PHSP;
0.000001 K*- K+ pi+ pi- PHSP;
0.000001 K*- K+ pi0 pi0 PHSP;
0.0000005 K*- K+ pi0 eta PHSP;
0.0000002 K*- K+ pi0 eta' PHSP;
0.000001 K*0 anti-K0 pi+ pi- PHSP;
0.000001 K*0 anti-K0 pi0 pi0 PHSP;
0.0000005 K*0 anti-K0 pi0 eta PHSP;
0.0000002 K*0 anti-K0 pi0 eta' PHSP;
0.000001 K0 anti-K*0 pi+ pi- PHSP;
0.000001 K0 anti-K*0 pi0 pi0 PHSP;
0.0000005 K0 anti-K*0 pi0 eta PHSP;
0.0000002 K0 anti-K*0 pi0 eta' PHSP;
0.000001 K+ anti-K*0 pi- pi0 PHSP;
0.0000005 K+ anti-K*0 pi- eta PHSP;
0.0000002 K+ anti-K*0 pi- eta' PHSP;
0.000001 K*+ anti-K0 pi- pi0 PHSP;
0.0000005 K*+ anti-K0 pi- eta PHSP;
0.0000002 K*+ anti-K0 pi- eta' PHSP;
#--- 5-body phi-K*-pi, phi-K-2pi, K-K-K*-pi, 2pi-K-K-K --------------------
0.000010 phi K*+ pi- PHSP;
0.000010 phi K*0 pi0 PHSP;
0.000005 phi K*0 eta PHSP;
0.000002 phi K*0 eta' PHSP;
0.000010 phi K+ rho- PHSP;
0.000010 phi K0 rho0 PHSP;
0.000010 phi K0 omega PHSP;
0.000010 phi K0 f_0 PHSP;
0.000010 phi K0 pi+ pi- PHSP;
0.000010 phi K0 pi0 pi0 PHSP;
0.000005 phi K0 pi0 eta PHSP;
0.000002 phi K0 pi0 eta' PHSP;
0.000010 phi K+ pi- pi0 PHSP;
0.000005 phi K+ pi- eta PHSP;
0.000002 phi K+ pi- eta' PHSP;
0.000010 K- K+ K*+ pi- PHSP;
0.000010 K+ K*- K+ pi- PHSP;
0.000010 K+ K*0 anti-K0 pi- PHSP;
0.000010 K+ K0 anti-K*0 pi- PHSP;
0.000010 K0 K*+ anti-K0 pi- PHSP;
0.000010 K- K+ K+ rho- PHSP;
0.000010 K- K+ K0 rho0 PHSP;
0.000010 K- K+ K0 omega PHSP;
0.000010 K- K+ K0 f_0 PHSP;
0.000010 K+ K- K+ pi- pi0 PHSP;
0.000005 K+ K- K+ pi- eta PHSP;
0.000002 K+ K- K+ pi- eta' PHSP;
0.000010 K+ K- K0 pi+ pi- PHSP;
0.000010 K+ K- K0 pi0 pi0 PHSP;
0.000005 K+ K- K0 pi0 eta PHSP;
0.000005 K+ K- K0 pi0 eta' PHSP;
0.000010 K0 anti-K0 K+ pi- pi0 PHSP;
0.000005 K0 anti-K0 K+ pi- eta PHSP;
0.000002 K0 anti-K0 K+ pi- eta' PHSP;
0.000010 K0 anti-K0 K0 pi+ pi- PHSP;
0.000010 K0 anti-K0 K0 pi0 pi0 PHSP;
0.000005 K0 anti-K0 K0 pi0 eta PHSP;
0.000002 K0 anti-K0 K0 pi0 eta' PHSP;
0.000010 phi K_0*+ pi- PHSP;
0.000010 phi K_0*0 pi0 PHSP;
0.000010 K+ K- K_0*+ pi- PHSP;
0.000010 K+ K- K_0*0 pi0 PHSP;
0.000005 K+ K- K_0*0 eta PHSP;
0.000002 K+ K- K_0*0 eta' PHSP;
0.000010 K+ K+ K_0*- pi- PHSP;
0.000010 K+ anti-K_0*0 K0 pi- PHSP;
0.000010 K+ K_0*0 anti-K0 pi- PHSP;
0.000010 K0 anti-K0 K_0*+ pi- PHSP;
0.000010 K0 anti-K0 K_0*0 pi0 PHSP;
0.000005 K0 anti-K0 K_0*0 eta PHSP;
0.000002 K0 anti-K0 K_0*0 eta' PHSP;
0.000010 K0 K0 anti-K_0*0 pi0 PHSP;
0.000005 K0 K0 anti-K_0*0 eta PHSP;
0.000002 K0 K0 anti-K_0*0 eta' PHSP;
0.000002 phi K'_1+ pi- PHSP;
0.000002 phi K'_10 pi0 PHSP;
0.000001 phi K'_10 eta PHSP;
0.000001 phi K'_10 eta' PHSP;
0.000002 K- K+ K'_1+ pi- PHSP;
0.000002 K- K+ K'_10 pi0 PHSP;
0.000001 K- K+ K'_10 eta PHSP;
0.000001 K- K+ K'_10 eta' PHSP;
0.000002 K+ K+ K'_1- pi- PHSP;
0.000002 K0 anti-K0 K'_10 pi0 PHSP;
0.000001 K0 anti-K0 K'_10 eta PHSP;
0.000001 K0 anti-K0 K'_10 eta' PHSP;
0.000002 K0 K0 anti-K'_10 pi0 PHSP;
0.000001 K0 K0 anti-K'_10 eta PHSP;
0.000001 K0 K0 anti-K'_10 eta' PHSP;
#--- 5-body phi-phi-K, phi-phi-pi, phi-3K, phi-K-K-pi, 5K, 4K-pi ------------
0.000004100 phi phi K0 PHSP; #[Reconstructed PDG2011]
0.0000001 phi phi pi0 PHSP;
0.000001 phi K+ K- K0 PHSP;
0.000001 phi K0 anti-K0 K0 PHSP;
0.0000001 phi K+ K- pi0 PHSP;
0.0000001 phi K0 anti-K0 pi0 PHSP;
0.0000001 phi anti-K0 K+ pi- PHSP;
0.0000001 phi K0 K- pi+ PHSP;
0.0000001 K+ K- K+ K- K0 PHSP;
0.0000001 K0 anti-K0 K+ K- K0 PHSP;
0.0000001 K+ K- K+ K- pi0 PHSP;
0.0000001 K+ K- K0 anti-K0 pi0 PHSP;
0.0000001 K+ K- K+ anti-K0 pi- PHSP;
0.0000001 K+ K- K0 K- pi+ PHSP;
0.0000001 K0 anti-K0 K0 anti-K0 pi0 PHSP;
0.0000001 K0 anti-K0 anti-K0 K+ pi- PHSP;
0.0000001 K0 anti-K0 K0 K- pi+ PHSP;
#--- 6-body phi-phi-K*, phi-3Kpi, phi-K-K-2pi ------------
0.000003 phi phi K*0 PHSP;
0.000001 phi K+ K- K*0 PHSP;
0.000001 phi K0 anti-K0 K*0 PHSP;
0.000001 phi K0 K+ K*- PHSP;
0.000001 phi K0 K0 anti-K*0 PHSP;
0.0000001 phi K+ K- K+ pi- PHSP;
0.0000001 phi K+ K- K0 pi0 PHSP;
0.0000001 phi K0 anti-K0 K+ pi- PHSP;
0.0000001 phi K0 anti-K0 K0 pi0 PHSP;
#--- 6-body a1a1 ------------
0.000050 a_10 a_10 PHSP;
0.000050 a_1+ a_1- PHSP;
#
# B -> cc= s
0.000891000 J/psi K0 SVS; #[New mode added] #[Reconstructed PDG2011]
#
#
0.001330000 J/psi K*0 SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; #[Reconstructed PDG2011]
0.000017600 J/psi pi0 SVS; #[Reconstructed PDG2011]
0.000027000 J/psi rho0 SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; #[Reconstructed PDG2011]
0.00003 J/psi omega SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus;
0.000000000 J/psi K+ pi- PHSP; #[Reconstructed PDG2011]
0.0001 J/psi K0 pi0 PHSP;
#rl0.0007 J/psi K0 pi- pi+ PHSP;
#rl0.00035 J/psi K0 pi0 pi0 PHSP;
#rl0.00035 J/psi K+ pi- pi0 PHSP;
0.001300000 J/psi K_10 SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; #[Reconstructed PDG2011]
0.0001 J/psi K'_10 SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0;
0.0005 J/psi K_2*0 PHSP;
0.000094000 J/psi phi K0 PHSP; #[Reconstructed PDG2011]
#
0.000620000 psi(2S) K0 SVS; #[New mode added] #[Reconstructed PDG2011]
#
#
0.000610000 psi(2S) K*0 SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; #[Reconstructed PDG2011]
0.0004 psi(2S) K+ pi- PHSP;
0.0002 psi(2S) K0 pi0 PHSP;
0.0002 psi(2S) K0 pi- pi+ PHSP;
0.0001 psi(2S) K0 pi0 pi0 PHSP;
0.0001 psi(2S) K+ pi- pi0 PHSP;
0.0004 psi(2S) K_10 PHSP;
#
0.000900000 eta_c K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
#
#
0.000610000 K*0 eta_c SVS; #[Reconstructed PDG2011]
0.0002 eta_c K+ pi- PHSP;
0.0001 eta_c K0 pi0 PHSP;
0.0002 eta_c K0 pi- pi+ PHSP;
0.0001 eta_c K0 pi0 pi0 PHSP;
0.0001 eta_c K+ pi- pi0 PHSP;
#
#
#
0.00066 K*0T eta_c(2S) SVS;
0.00008 eta_c(2S) K+ pi- PHSP;
0.00005 eta_c(2S) K0 pi0 PHSP;
0.00008 eta_c(2S) K0 pi- pi+ PHSP;
0.00005 eta_c(2S) K0 pi0 pi0 PHSP;
0.00005 eta_c(2S) K+ pi- pi0 PHSP;
#
0.000190000 chi_c0 K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
#
#
0.0003 K*0 chi_c0 SVS;
0.0002 chi_c0 K+ pi- PHSP;
0.0001 chi_c0 K0 pi0 PHSP;
0.0002 chi_c0 K0 pi- pi+ PHSP;
0.0001 chi_c0 K0 pi0 pi0 PHSP;
0.0001 chi_c0 K+ pi- pi0 PHSP;
#
0.000395000 chi_c1 K0 SVS; #[New mode added] #[Reconstructed PDG2011]
#
#
0.000222000 chi_c1 K*0 SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; #[Reconstructed PDG2011]
0.0004 chi_c1 K+ pi- PHSP;
0.0002 chi_c1 K0 pi0 PHSP;
0.0004 chi_c1 K0 pi- pi+ PHSP;
0.0002 chi_c1 K0 pi0 pi0 PHSP;
0.0002 chi_c1 K+ pi- pi0 PHSP;
#
0.00005 chi_c2 K_S0 STS;
0.00005 chi_c2 K_L0 STS;
#
#
0.00003 chi_c2 K*0 PHSP;
0.0002 chi_c2 K+ pi- PHSP;
0.0001 chi_c2 K0 pi0 PHSP;
0.0002 chi_c2 K0 pi- pi+ PHSP;
0.0001 chi_c2 K0 pi0 pi0 PHSP;
0.0001 chi_c2 K+ pi- pi0 PHSP;
#
0.00024 psi(3770) K_S0 SVS;
0.00024 psi(3770) K_L0 SVS;
#
#
0.00048 psi(3770) K*0 SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus;
0.00014 psi(3770) K+ pi- PHSP;
0.00014 psi(3770) K0 pi0 PHSP;
0.00014 psi(3770) K0 pi- pi+ PHSP;
0.00007 psi(3770) K0 pi0 pi0 PHSP;
0.00007 psi(3770) K+ pi- pi0 PHSP;
0.00029 psi(3770) K_10 PHSP;
#
### ALREADY Included above 0.0000 phi K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
#
#
# b-> c (dc=)
#
0.000211000 D- D+ PHSP; #[Reconstructed PDG2011]
# See Ref [B1] for the next 3:
0.000305 D*- D+ SVS;
0.000610000 D*+ D- SVS; #[Reconstructed PDG2011]
0.000820000 D*- D*+ SVV_HELAMP 0.56 0.0 0.96 0.0 0.47 0.0; #[Reconstructed PDG2011]
#
# b -> c (sc=) --> D Ds X Sum = 10%
#
0.007200000 D- D_s+ PHSP; #[Reconstructed PDG2011]
0.008000000 D*- D_s+ SVS; #[Reconstructed PDG2011]
0.007400000 D_s*+ D- SVS; #[Reconstructed PDG2011]
0.017700000 D_s*+ D*- SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; #[Reconstructed PDG2011]
0.0006 D'_1- D_s+ SVS;
0.0012 D'_1- D_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0012 D_1- D_s+ SVS;
0.0024 D_1- D_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0042 D_2*- D_s+ STS;
0.0040 D_2*- D_s*+ PHSP;
#
0.0018 D_s+ D- pi0 PHSP;
0.0037 D_s+ anti-D0 pi- PHSP;
0.0018 D_s*+ D- pi0 PHSP;
0.0037 D_s*+ anti-D0 pi- PHSP;
0.0030 D_s+ D- pi- pi+ PHSP;
0.0022 D_s+ D- pi0 pi0 PHSP;
0.0022 D_s+ anti-D0 pi- pi0 PHSP;
0.0030 D_s*+ D- pi- pi+ PHSP;
0.0022 D_s*+ D- pi0 pi0 PHSP;
0.0022 D_s*+ anti-D0 pi- pi0 PHSP;
#
# b -> c (sc=) --> D D= K X Sum = 8%
# Update: Ref. [B1]
# October 26, 2004 Lange -per breco awg
# External W-emission amplitude
0.001700000 D- D0 K+ PHSP; #[Reconstructed PDG2011]
0.004600000 D- D*0 K+ PHSP; #[Reconstructed PDG2011]
0.003100000 D*- D0 K+ PHSP; #[Reconstructed PDG2011]
0.011800000 D*- D*0 K+ PHSP; #[Reconstructed PDG2011]
# External+internal W-emission amplitude
0.0015 D- D+ K0 PHSP;
0.0018 D*- D+ K0 PHSP;
0.0047 D- D*+ K0 PHSP;
0.007800000 D*- D*+ K0 PHSP; #[Reconstructed PDG2011]
# Internal W-emission amplitude (color suppressed modes)
0.0005 D0 anti-D0 K0 PHSP;
0.0005 D*0 anti-D0 K0 PHSP;
0.0015 D0 anti-D*0 K0 PHSP;
0.0015 D*0 anti-D*0 K0 PHSP;
##########
# K* modes
###########
0.0025 D- D0 K*+ PHSP;
0.0025 D*- D0 K*+ PHSP;
0.0025 D- D*0 K*+ PHSP;
0.0050 D*- D*0 K*+ PHSP;
#
0.0025 D- D+ K*0 PHSP;
0.0025 D*- D+ K*0 PHSP;
0.0025 D- D*+ K*0 PHSP;
0.0050 D*- D*+ K*0 PHSP;
#
0.0005 D0 anti-D0 K*0 PHSP;
0.0005 D0 anti-D*0 K*0 PHSP;
0.0005 D*0 anti-D0 K*0 PHSP;
0.0010 D*0 anti-D*0 K*0 PHSP;
#
# B -> D(*) X Exclusive modes
#
0.002760000 D*- pi+ SVS; #[Reconstructed PDG2011]
0.002680000 D- pi+ PHSP; #[Reconstructed PDG2011]
0.007110000 rho+ D- SVS; #[Reconstructed PDG2011]
#
# D* rho HELAMP parameters taken from ICHEP 98-852.
0.006800000 rho+ D*- SVV_HELAMP 0.317 0.19 0.936 0.0 0.152 1.47; #[Reconstructed PDG2011]
0.0005 D- pi+ pi0 PHSP;
0.008200000 D*- pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.000840000 anti-D0 pi- pi+ PHSP; #[Reconstructed PDG2011]
0.000620000 anti-D*0 pi- pi+ PHSP; #[Reconstructed PDG2011]
0.0005 anti-D*0 pi0 pi0 PHSP;
#
# D a1 updated Ref. [B1]
0.006000000 a_1+ D- SVS; #[Reconstructed PDG2011]
0.000000000 D- rho0 pi+ PHSP; #[Reconstructed PDG2011]
0.0011 D- rho+ pi0 PHSP;
0.002000000 D- pi- pi+ pi+ PHSP; #[Reconstructed PDG2011]
0.0010 D- pi0 pi+ pi0 PHSP;
0.0010 anti-D0 pi- pi+ pi0 PHSP;
0.0001 anti-D0 pi0 pi0 pi0 PHSP;
#
# SVV_HELAMP for D* a1 taken from factorization. Recommandation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html:
# updated Ref. [B1]
# October 26, 2004 Lange update
#
0.011000000 D*- a_1+ SVV_HELAMP 0.200 0.0 0.866 0.0 0.458 0.0; # MK, update with PDG2015
#
0.001600000 D*- rho0 pi+ PHSP; # MK, Update with PDF2015
0.0010 D*- rho+ pi0 PHSP;
0.0005 D*- pi- pi+ pi+ PHSP; # MK, update with PDG2015
0.0010 D*- pi0 pi+ pi0 PHSP;
0.0010 anti-D*0 pi- pi+ pi0 PHSP;
0.0001 anti-D*0 pi0 pi0 pi0 PHSP;
#
# B->D** pi and D** rho, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html
#
0.0001 D_1- pi+ SVS;
0.0001 D'_1- pi+ SVS;
0.00006 D_0*- pi+ PHSP;
0.000215 D_2*- pi+ STS;
0.0004 D_1- rho+ PHSP;
0.0013 D'_1- rho+ PHSP;
0.0022 D_2*- rho+ PHSP;
#
#
# B->DK, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html:
# update: Ref. [B1]:
#
0.000214000 D*- K+ SVS; #[Reconstructed PDG2011]
0.000200000 D- K+ PHSP; #[Reconstructed PDG2011]
0.000330000 D*- K*+ SVV_HELAMP 0.283 0.0 0.932 0.0 0.228 0.0; #[Reconstructed PDG2011]
0.000450000 K*+ D- SVS; #[Reconstructed PDG2011]
#more DK modes - October 26, 2004 -Lange
0.000036 anti-D*0 anti-K0 SVS;
0.000052 anti-D0 anti-K0 PHSP;
0.000042000 K*0 anti-D0 SVS; #[Reconstructed PDG2011]
0.00001 K*0 D0 SVS;
0.00004 anti-D*0 K*0 SVV_HELAMP 1. 0. 1. 0. 1. 0.;
0.00001 D*0 K*0 SVV_HELAMP 1. 0. 1. 0. 1. 0.;
#
#
# Color-suppressed modes. Br's are expectations from
# Phys. Rev. D57 (1998), 5363-5369, except for the eta' modes, which are set
# equal to the eta modes. SVV_HELAMP parameters are the same as in D*0 rho-,
# with phases set to 0. Recommendation http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/169.html:
# update: See Ref [B1]:
# further update October 26, 2004 Lange
#
0.000261000 anti-D0 pi0 PHSP; #[Reconstructed PDG2011]
0.000170000 anti-D*0 pi0 SVS; #[Reconstructed PDG2011]
#
0.000320000 rho0 anti-D0 SVS; #[Reconstructed PDG2011]
0.00029 anti-D*0 rho0 SVV_HELAMP 0.283 0.0 0.932 0.0 0.228 0.0;
#
0.000202000 anti-D0 eta PHSP; #[Reconstructed PDG2011]
0.000200000 anti-D*0 eta SVS; #[Reconstructed PDG2011]
#
0.000125 anti-D0 eta' PHSP;
0.000123000 anti-D*0 eta' SVS; #[Reconstructed PDG2011]
#
0.000259000 omega anti-D0 SVS; #[Reconstructed PDG2011]
0.000330000 anti-D*0 omega SVV_HELAMP 0.283 0.0 0.932 0.0 0.228 0.0; #[Reconstructed PDG2011]
#
# PR LHCb : add ppbar mode
0.0000001 p+ anti-p- PHSP;
#
#October 26, 2004 - Lange
0.0016 D_s0*+ D- PHSP;
0.0015 D*- D_s0*+ SVS;
0.003500000 D_s1+ D- SVS; #[Reconstructed PDG2011]
0.009300000 D*- D_s1+ SVV_HELAMP 0.4904 0. 0.7204 0. 0.4904 0.; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.000880000 D- K+ anti-K*0 PHSP; #[Reconstructed PDG2011]
0.001290000 D*- K+ anti-K*0 PHSP; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.002800000 D- omega pi+ PHSP; #[Reconstructed PDG2011]
0.002890000 D*- omega pi+ PHSP; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.000490000 D- K0 pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 D*- K0 pi+ PHSP; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.00043 D'_s1+ D- PHSP;
0.00083 D'_s1+ D*- PHSP;
#### Already included above 0.0023 D_s1+ D*- PHSP;
#
# Lam_c X / Sigma_c X 4.0 %
#
#0.01000 anti-cd_0 ud_0 PYTHIA 63;
#0.03000 anti-cd_1 ud_1 PYTHIA 63;
0.010520663 anti-cd_0 ud_0 PYTHIA 63;
0.021041421 anti-cd_1 ud_1 PYTHIA 63;
#
# Xi_c X 2.5%
#
#0.00600 anti-cs_0 ud_0 PYTHIA 63;
#0.01800 anti-cs_1 ud_1 PYTHIA 63;
0.002869298 anti-cs_0 ud_0 PYTHIA 63;
0.005738595 anti-cs_1 ud_1 PYTHIA 63;
#
#
0.253929466 u anti-d anti-c d PYTHIA 23;
0.043947682 u anti-d anti-c d PYTHIA 43;
0.020284989 u anti-s anti-c d PYTHIA 43;
0.017315691 u anti-c anti-d d PYTHIA 23;
0.000860770 u anti-c anti-s d PYTHIA 23;
#lange - try to crank up the psi production....
0.070775534 c anti-s anti-c d PYTHIA 43;
0.005738595 c anti-d anti-c d PYTHIA 43;
0.002869298 u anti-d anti-u d PYTHIA 23;
0.003825730 c anti-s anti-u d PYTHIA 23;
# JGS 11/5/02 This and similar a few lines above have been divided by two
# to solve a double-counting problem for this channel
0.001960649 u anti-u anti-d d PYTHIA 23;
0.000066973 d anti-d anti-d d PYTHIA 23;
0.000086068 s anti-s anti-d d PYTHIA 23;
0.002104095 u anti-u anti-s d PYTHIA 23;
0.001721541 d anti-d anti-s d PYTHIA 23;
0.001434649 s anti-s anti-s d PYTHIA 23;
0.004782163 anti-s d PYTHIA 91;
0.017600000 D*- pi+ pi+ pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.004700000 D*- pi+ pi+ pi+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000110000 D_s- pi+ K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000052000 anti-D0 K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000046000 anti-D0 K+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000006000 D0 K+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000036000 anti-D*0 K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002700000 D*0 pi+ pi+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000310000 J/psi omega K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000009500 J/psi eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000019000 J/psi pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000460000 J/psi K0 pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000540000 J/psi K0 rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000800000 J/psi K*+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000660000 J/psi K*0 pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000170000 K0 D0 anti-D0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011200 chi_c1 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000158000 chi_c1 K- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011000 eta K_0*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000009600 eta K_2*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000016000 omega K_0*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000010100 omega K_2*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004700 K0 rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002700 f_2 K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000001400 f_0 K+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000007500 K_2*0 phi PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000007600 eta K0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004600 K+ pi- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000019500 K0 pi+ pi- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000041000 K+ pi- pi0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000012400 K_2*0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000860 rho0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002660 p+ anti-p- K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000001240 p+ anti-p- K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000003140 p+ anti-Lambda0 pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004800 anti-Lambda0 Lambda0 K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002500 anti-Lambda0 Lambda0 K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011000 anti-Lambda0 Lambda0 D0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000114000 anti-D0 p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000028000 D_s- anti-Lambda0 p+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000103000 anti-D*0 p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001500000 D*- p+ anti-n0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000338000 D- p+ anti-p- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000500000 D*- p+ anti-p- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000020000 anti-Lambda_c- p+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000630000 anti-Lambda_c- p+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000120000 anti-Sigma_c*-- p+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000150000 anti-Sigma_c0 p+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000220000 anti-Sigma_c-- p+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
#
#
Decay B-
# Updated to PDG 2008
# b -> c semileptonic
#
-0.0569 D*0 e- anti-nu_e PHOTOS HQET2 1.207 0.920 1.406 0.853; # 1.0 * PDG2014
-0.022907 D0 e- anti-nu_e PHOTOS HQET2 1.185 1.081; # 1.0 * PDG2014
-0.0045 D_10 e- anti-nu_e PHOTOS ISGW2; # PDG2014 + D_10->D*+pi- = 2/3
-0.0037 D_0*0 e- anti-nu_e PHOTOS ISGW2; # PDG2014 + D_0*0->D+pi- = 2/3
-0.0040 D'_10 e- anti-nu_e PHOTOS ISGW2; # PDG2014 + Dprime_10->D*+pi- = 2/3
-0.0033 D_2*0 e- anti-nu_e PHOTOS ISGW2; # DG2014 + D_2*0->D+pi- = 0.459
-0.006100 D*+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; # Same as 2011
-0.0003 D*0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; # same as 2011
-0.0021 D+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; # PDG2014 (in principle covered by other decays, but there are some decays missing to inclusives)
-0.0010 D0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; # same as 2011
+0.0569 D*0 e- anti-nu_e FSR HQET2 1.207 0.920 1.406 0.853; # 1.0 * PDG2014
+0.022907 D0 e- anti-nu_e FSR HQET2 1.185 1.081; # 1.0 * PDG2014
+0.0045 D_10 e- anti-nu_e FSR ISGW2; # PDG2014 + D_10->D*+pi- = 2/3
+0.0037 D_0*0 e- anti-nu_e FSR ISGW2; # PDG2014 + D_0*0->D+pi- = 2/3
+0.0040 D'_10 e- anti-nu_e FSR ISGW2; # PDG2014 + Dprime_10->D*+pi- = 2/3
+0.0033 D_2*0 e- anti-nu_e FSR ISGW2; # DG2014 + D_2*0->D+pi- = 0.459
+0.006100 D*+ pi- e- anti-nu_e FSR GOITY_ROBERTS; # Same as 2011
+0.0003 D*0 pi0 e- anti-nu_e FSR GOITY_ROBERTS; # same as 2011
+0.0021 D+ pi- e- anti-nu_e FSR GOITY_ROBERTS; # PDG2014 (in principle covered by other decays, but there are some decays missing to inclusives)
+0.0010 D0 pi0 e- anti-nu_e FSR GOITY_ROBERTS; # same as 2011
#
# For muonic decays do same as for electrons
-0.0569 D*0 mu- anti-nu_mu PHOTOS HQET2 1.207 0.920 1.406 0.853;
-0.022907 D0 mu- anti-nu_mu PHOTOS HQET2 1.185 1.081;
-0.0045 D_10 mu- anti-nu_mu PHOTOS ISGW2;
-0.0037 D_0*0 mu- anti-nu_mu PHOTOS ISGW2;
-0.0040 D'_10 mu- anti-nu_mu PHOTOS ISGW2;
-0.0033 D_2*0 mu- anti-nu_mu PHOTOS ISGW2;
-0.006100 D*+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
-0.0003 D*0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
-0.0021 D+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
-0.0010 D0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
+0.0569 D*0 mu- anti-nu_mu FSR HQET2 1.207 0.920 1.406 0.853;
+0.022907 D0 mu- anti-nu_mu FSR HQET2 1.185 1.081;
+0.0045 D_10 mu- anti-nu_mu FSR ISGW2;
+0.0037 D_0*0 mu- anti-nu_mu FSR ISGW2;
+0.0040 D'_10 mu- anti-nu_mu FSR ISGW2;
+0.0033 D_2*0 mu- anti-nu_mu FSR ISGW2;
+0.006100 D*+ pi- mu- anti-nu_mu FSR GOITY_ROBERTS;
+0.0003 D*0 pi0 mu- anti-nu_mu FSR GOITY_ROBERTS;
+0.0021 D+ pi- mu- anti-nu_mu FSR GOITY_ROBERTS;
+0.0010 D0 pi0 mu- anti-nu_mu FSR GOITY_ROBERTS;
#
# b -> c tau nu
#
0.020000000 D*0 tau- anti-nu_tau ISGW2; #[Reconstructed PDG2011]
0.007000000 D0 tau- anti-nu_tau ISGW2; #[Reconstructed PDG2011]
0.0013 D_10 tau- anti-nu_tau ISGW2;
0.0013 D_0*0 tau- anti-nu_tau ISGW2;
0.0020 D'_10 tau- anti-nu_tau ISGW2;
0.0020 D_2*0 tau- anti-nu_tau ISGW2;
#
# b -> u l nu
#
# NOTE: Do NOT CHANGE any BFs without using the corresponding set of
# hybrid weights (and vice versa).
# This will need check whether we get correct inclusive q2 dependence
-0.00007800 pi0 e- anti-nu_e PHOTOS ISGW2; # PDG2014
-0.00003800 eta e- anti-nu_e PHOTOS ISGW2; # PDG2014
-0.00015800 rho0 e- anti-nu_e PHOTOS ISGW2; # PDG2014
-0.00011900 omega e- anti-nu_e PHOTOS ISGW2; # PDG2014
-0.0000230 eta' e- anti-nu_e PHOTOS ISGW2; # PDG2014
-0.000000 D(2S)0 e- anti-nu_e PHOTOS ISGW2;
-0.000000 D*(2S)0 e- anti-nu_e PHOTOS ISGW2;
+0.00007800 pi0 e- anti-nu_e FSR ISGW2; # PDG2014
+0.00003800 eta e- anti-nu_e FSR ISGW2; # PDG2014
+0.00015800 rho0 e- anti-nu_e FSR ISGW2; # PDG2014
+0.00011900 omega e- anti-nu_e FSR ISGW2; # PDG2014
+0.0000230 eta' e- anti-nu_e FSR ISGW2; # PDG2014
+0.000000 D(2S)0 e- anti-nu_e FSR ISGW2;
+0.000000 D*(2S)0 e- anti-nu_e FSR ISGW2;
0.001948 Xu0 e- anti-nu_e VUB 4.8 1.29 0.22 20 0.30 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51;
#
# For muons do same as for electrons
-0.00007800 pi0 mu- anti-nu_mu PHOTOS ISGW2;
-0.00003800 eta mu- anti-nu_mu PHOTOS ISGW2;
-0.00015800 rho0 mu- anti-nu_mu PHOTOS ISGW2;
-0.00011900 omega mu- anti-nu_mu PHOTOS ISGW2;
-0.0000230 eta' mu- anti-nu_mu PHOTOS ISGW2;
-0.000000 D(2S)0 mu- anti-nu_mu PHOTOS ISGW2;
-0.000000 D*(2S)0 mu- anti-nu_mu PHOTOS ISGW2;
+0.00007800 pi0 mu- anti-nu_mu FSR ISGW2;
+0.00003800 eta mu- anti-nu_mu FSR ISGW2;
+0.00015800 rho0 mu- anti-nu_mu FSR ISGW2;
+0.00011900 omega mu- anti-nu_mu FSR ISGW2;
+0.0000230 eta' mu- anti-nu_mu FSR ISGW2;
+0.000000 D(2S)0 mu- anti-nu_mu FSR ISGW2;
+0.000000 D*(2S)0 mu- anti-nu_mu FSR ISGW2;
0.001948 Xu0 mu- anti-nu_mu VUB 4.8 1.29 0.22 20 0.30 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51;
#
0.000030 pi0 tau- anti-nu_tau ISGW2;
0.000012 eta tau- anti-nu_tau ISGW2;
0.000042 rho0 tau- anti-nu_tau ISGW2;
0.000042 omega tau- anti-nu_tau ISGW2;
0.000018 eta' tau- anti-nu_tau ISGW2;
0.000046 a_10 tau- anti-nu_tau ISGW2;
0.000027 b_10 tau- anti-nu_tau ISGW2;
0.000004 a_00 tau- anti-nu_tau ISGW2;
0.000002 f_0 tau- anti-nu_tau ISGW2;
0.000002 f'_0 tau- anti-nu_tau ISGW2;
0.000023 f_1 tau- anti-nu_tau ISGW2;
0.000023 f'_1 tau- anti-nu_tau ISGW2;
0.000013 h_1 tau- anti-nu_tau ISGW2;
0.000013 h'_1 tau- anti-nu_tau ISGW2;
0.000020 f_2 tau- anti-nu_tau ISGW2;
0.000020 f'_2 tau- anti-nu_tau ISGW2;
0.000000 D(2S)0 tau- anti-nu_tau ISGW2;
0.000000 D*(2S)0 tau- anti-nu_tau ISGW2;
#
#
#
# b->u hadronic
# Ref. [B1]:
#
0.000016000 D_s- pi0 PHSP; #[Reconstructed PDG2011]
0.000020 D_s*- pi0 SVS;
#
0.000028 rho0 D_s- SVS;
0.000028 D_s*- rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# b-> s gamma
#
0.000042100 K*- gamma HELAMP 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
#0.0000135 K_1- gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000065 K'_1- gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000128 K'*- gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000166 K_2*- gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000017 K''*- gamma HELAMP 1.0 0.0 1.0 0.0;
0.0003118 anti-Xsu gamma BTOXSGAMMA 2 ;
#
-0.000000550 K- e+ e- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.000001550 K*- e+ e- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.0000050 anti-Xsu e+ e- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.000000520 K- mu+ mu- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.000001160 K*- mu+ mu- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.0000025 anti-Xsu mu+ mu- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.0000001 K- tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 K*- tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 anti-Xsu tau+ tau- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
+0.000000550 K- e+ e- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.000001550 K*- e+ e- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.0000050 anti-Xsu e+ e- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.000000520 K- mu+ mu- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.000001160 K*- mu+ mu- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.0000025 anti-Xsu mu+ mu- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.0000001 K- tau+ tau- FSR BTOSLLBALL;
+0.0000002 K*- tau+ tau- FSR BTOSLLBALL;
+0.0000002 anti-Xsu tau+ tau- FSR BTOXSLL 4.8 0.2 0.0 0.41;
#
# b -> l nu
#
0.000180000 tau- anti-nu_tau SLN; #[Reconstructed PDG2011]
-0.000000 mu- anti-nu_mu PHOTOS SLN;
-0.000000 e- anti-nu_e PHOTOS SLN;
+0.000000 mu- anti-nu_mu FSR SLN;
+0.000000 e- anti-nu_e FSR SLN;
#
#------------------------------------------------------------------------------
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv
#
# Exclusive hadronic b->u
#
0.000026 pi- pi0 pi0 CB3PI-P00 alpha;
0.000000 pi- pi- pi+ CB3PI-MPP alpha;
####
0.000004070 eta pi- PHSP; #[Reconstructed PDG2011]
0.000002330 eta K- PHSP; #[Reconstructed PDG2011]
0.000019300 K*- eta SVS; #[Reconstructed PDG2011]
0.000007000 rho- eta SVS; #[Reconstructed PDG2011]
0.000002700 eta' pi- PHSP; #[Reconstructed PDG2011]
0.000070600 eta' K- PHSP; #[Reconstructed PDG2011]
0.000004900 K*- eta' SVS; #[Reconstructed PDG2011]
0.000008700 rho- eta' SVS; #[Reconstructed PDG2011]
0.000006900 omega pi- SVS; #[Reconstructed PDG2011]
0.000006700 omega K- SVS; #[Reconstructed PDG2011]
0.0000010 omega K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000015900 omega rho- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.0000000 phi pi- SVS;
0.000008300 phi K- SVS; #[Reconstructed PDG2011]
#2-body modes from Jim Olsen
# (K_S0 K- and K_L0 K- -> 1x10^-6, Jim Olsen - Mar 27, 2001)
# (pi- pi0 -> 5x10^-6 and K- pi0 -> 11x10^-6, Jim Olsen - Mar 27, 2001)
# PR LHCb 04/08/2004 Split into Ks/KL
0.000000 anti-K0 pi- PHSP;
0.000011550 K_S0 pi- PHSP; #[Reconstructed PDG2011]
0.000011550 K_L0 pi- PHSP; #[Reconstructed PDG2011]
0.000001360 K0 K- PHSP; #[Reconstructed PDG2011]
0.000005700 pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000012900 K- pi0 PHSP; #[Reconstructed PDG2011]
#
# 3-body John Back (jback@slac.stanford.edu) - Oct 15, 2002
# JGS intersperses modes with pi0->eta,eta'
# B- modes
#
# rho0 3-body modes
0.000008300 rho0 pi- SVS; #[Reconstructed PDG2011]
0.000003700 rho0 K- SVS; #[Reconstructed PDG2011]
#
# rho- 3-body modes
0.000008000 rho- anti-K0 SVS; #[Reconstructed PDG2011]
0.000010900 rho- pi0 SVS; #[Reconstructed PDG2011]
#
# rho(1450) 3-body modes
0.0000022 rho(2S)0 pi- SVS;
0.000001 rho(2S)0 K- SVS;
#
# f0,a0(980) 3-body modes
0.000001 f_0 pi- PHSP;
0.0000092 f_0 K- PHSP;
0.000001 a_0- anti-K0 PHSP;
0.000001 a_00 K- PHSP;
0.000001 a_00 pi- PHSP;
0.000001 a_0- pi0 PHSP;
0.000001600 f_2 pi- PHSP; #[Reconstructed PDG2011]
#
# K*(1430) 3-body modes
0.000045000 anti-K_0*0 pi- PHSP; #[Reconstructed PDG2011]
0.000001 K_0*0 K- PHSP;
0.000002 K_0*- pi0 PHSP;
0.000002 K_0*- K0 PHSP;
#
# K*-(892) 3-body modes
0.000006900 K*- pi0 SVS; #[Reconstructed PDG2011]
0.0000030 K*- K0 SVS;
#
#
#
# Non-resonant 3-body left-overs
# Most modes are set at 1e-6
#
# pi-pi+pi-: high mass + f0(400-1200) = (1+1)e-6
#0402270.000002 pi- pi+ pi- PHSP;
#
# K- pi+ pi-: high mass + f0(400-1200) = (5+5)e-6
0.000000000 K- pi+ pi- PHSP; #[Reconstructed PDG2011]
#
# K- K+ pi-: just non-resonant
0.000005000 K- K+ pi- PHSP; #[Reconstructed PDG2011]
#
# K- K+ K-: high mass structure near 1500 + non-res: total - phiK = 30 - 4
0.000025400 K- K+ K- PHSP; #[Reconstructed PDG2011]
#
#
# K-K-pi+: suppressed mode (1e-7)
0.0000001 K- K- pi+ PHSP;
# K+pi-pi-: suppressed mode (1e-7)
0.0000001 K+ pi- pi- PHSP;
#
#
# K- K0 pi0
0.000001 K- K0 pi0 PHSP;
0.000001 K- K0 eta PHSP;
0.000001 K- K0 eta' PHSP;
#
# pi- anti-K0 pi0
0.000001 pi- anti-K0 pi0 PHSP;
0.000001 pi- anti-K0 eta PHSP;
0.000001 pi- anti-K0 eta' PHSP;
#
# pi- pi0 pi0
#0402270.000001 pi- pi0 pi0 PHSP;
0.000001 pi- pi0 eta PHSP;
0.000001 pi- pi0 eta' PHSP;
0.000001 pi- eta eta PHSP;
0.000001 pi- eta eta' PHSP;
#
# K- pi0 pi0
0.000001 K- pi0 pi0 PHSP;
0.000001 K- pi0 eta PHSP;
0.000001 K- pi0 eta' PHSP;
0.000001 K- eta eta PHSP;
0.000001 K- eta eta' PHSP;
0.000001 K- eta' eta' PHSP;
#
# K- anti-K0 K0: 4*BF(K+KsKs) (4 is a guess)
0.000046 K- anti-K0 K0 PHSP;
#
# pi- anti-K0 K0
0.000001 pi- anti-K0 K0 PHSP;
#
#^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#---------------------------------------------------------------------------
#
#4-body modes from Andrei Gritsan
#--- 4-body rho-rho, rho-pi-pi, pi-pi-pi-pi --------------------------
# PR LHCb 22 Apr 2004 Set long. pol. for rho rho
0.000024000 rho- rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000010 rho0 pi- pi0 PHSP;
0.000005 rho0 pi- eta PHSP;
0.000002 rho0 pi- eta' PHSP;
0.000010 omega pi- pi0 PHSP;
0.000005 omega pi- eta PHSP;
0.000002 omega pi- eta' PHSP;
0.000010 rho- pi- pi+ PHSP;
# PR LHCb Add rho+ pi- pi-
0.000010 rho+ pi- pi- PHSP;
0.000010 rho- pi0 pi0 PHSP;
0.000005 rho- pi0 eta PHSP;
0.000002 rho- eta eta PHSP;
0.000002 rho- pi0 eta' PHSP;
0.000010 pi+ pi- pi- pi0 PHSP;
0.000005 pi+ pi- pi- eta PHSP;
0.000002 pi+ pi- pi- eta' PHSP;
0.000010 pi- pi0 pi0 pi0 PHSP;
0.000005 pi- eta pi0 pi0 PHSP;
0.000002 pi- eta eta pi0 PHSP;
0.000002 pi- eta' pi0 pi0 PHSP;
0.000001 pi- eta' eta pi0 PHSP;
0.000020000 a_10 pi- SVS; #[Reconstructed PDG2011]
0.000026000 a_1- pi0 SVS; #[Reconstructed PDG2011]
0.0000067 b_10 pi- SVS;
0.000010 b_1- pi0 SVS;
0.000010 rho- f_0 SVS;
0.000010 rho- a_00 SVS;
0.000002 rho0 a_0- SVS;
0.000010 f_0 pi- pi0 PHSP;
0.000001 a_00 pi- pi0 PHSP;
0.000001 a_0- pi0 pi0 PHSP;
0.000001 a_0+ pi- pi- PHSP;
#--- 4-body rho-K*, rho-pi-K, K*-pi-pi, pi-pi-pi-K -------------------
0.000009200 rho- anti-K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000010 rho0 K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000010 pi- pi0 anti-K*0 PHSP;
0.000005 pi- eta anti-K*0 PHSP;
0.000069800 pi+ pi- K*- PHSP; #[Reconstructed PDG2011]
0.000010 pi0 pi0 K*- PHSP;
0.000005 pi0 eta K*- PHSP;
0.000002 eta eta K*- PHSP;
0.000002 pi0 eta' K*- PHSP;
0.000001 eta eta' K*- PHSP;
0.000010 rho- anti-K0 pi0 PHSP;
0.000005 rho- anti-K0 eta PHSP;
0.000002 rho- anti-K0 eta' PHSP;
0.000010 rho- K- pi+ PHSP;
0.000010 rho+ K- pi- PHSP;
0.000005 rho0 anti-K0 pi- PHSP;
0.000005 rho0 K- pi0 PHSP;
0.000002 rho0 K- eta PHSP;
0.000001 rho0 K- eta' PHSP;
0.000005 omega anti-K0 pi- PHSP;
0.000005 omega K- pi0 PHSP;
0.000002 omega K- eta PHSP;
0.000001 omega K- eta' PHSP;
0.000010 pi+ pi- pi- anti-K0 PHSP;
0.000010 pi- pi0 pi0 anti-K0 PHSP;
0.000005 pi- eta pi0 anti-K0 PHSP;
0.000002 pi- eta eta anti-K0 PHSP;
0.000010 pi+ pi- pi0 K- PHSP;
0.000005 pi+ pi- eta K- PHSP;
0.000010 pi0 pi0 pi0 K- PHSP;
0.000005 pi0 pi0 eta K- PHSP;
0.000002 pi0 eta eta K- PHSP;
0.000002 pi0 pi0 eta' K- PHSP;
0.000001 pi0 eta eta' K- PHSP;
0.000010 rho- anti-K_0*0 PHSP;
0.000006 rho0 K_0*- PHSP;
0.000010 pi- pi0 anti-K_0*0 PHSP;
0.000010 pi0 pi0 K_0*- PHSP;
0.000005200 K*- f_0 SVS; #[Reconstructed PDG2011]
0.000010 a_10 K- SVS;
0.000035000 a_1- anti-K0 SVS; #[Reconstructed PDG2011]
0.0000091 b_10 K- SVS;
0.000010 b_1- anti-K0 SVS;
0.000005 K*- a_00 SVS;
0.000005 anti-K*0 a_0- SVS;
#--- 4-body K*-K*, rho-K-K, K*-K-pi, phi-pi-pi, pi-pi-K-K ------------
0.000001 K*0 K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 phi rho- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 phi pi- pi0 PHSP;
0.0000005 phi pi- eta PHSP;
0.0000002 phi pi- eta' PHSP;
0.000001 K+ K- rho- PHSP;
0.000001 K0 anti-K0 rho- PHSP;
0.000001 K0 K- rho0 PHSP;
0.000001 K0 K- omega PHSP;
0.000001 K+ K- pi- pi0 PHSP;
0.0000005 K+ K- pi- eta PHSP;
0.0000002 K+ K- pi- eta' PHSP;
0.000001 K0 anti-K0 pi- pi0 PHSP;
0.0000005 K0 anti-K0 pi- eta PHSP;
0.0000002 K0 anti-K0 pi- eta' PHSP;
0.000001 K0 K- pi+ pi- PHSP;
0.000001 K0 K- pi0 pi0 PHSP;
0.0000005 K0 K- pi0 eta PHSP;
0.0000002 K0 K- eta eta PHSP;
0.0000002 K0 K- pi0 eta' PHSP;
0.0000001 K0 K- eta eta' PHSP;
0.000001 K*+ K- pi- PHSP;
0.000001 K*- K+ pi- PHSP;
0.000001 K*0 anti-K0 pi- PHSP;
0.000001 K0 anti-K*0 pi- PHSP;
0.000001 K- K*0 pi0 PHSP;
0.0000005 K- K*0 eta PHSP;
0.0000002 K- K*0 eta' PHSP;
0.000001 K*- K0 pi0 PHSP;
0.0000005 K*- K0 eta PHSP;
0.0000002 K*- K0 eta' PHSP;
#--- 4-body phi-K*, phi-K-pi, K-K-K*, pi-K-K-K -----------------------
0.000010000 phi K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000010 phi anti-K0 pi- PHSP;
0.000010 phi K- pi0 PHSP;
0.000005 phi K- eta PHSP;
0.000002 phi K- eta' PHSP;
0.000026000 K- K+ K*- PHSP; #[Reconstructed PDG2011]
0.000010 K- K*+ K- PHSP;
0.000010 K- K*0 anti-K0 PHSP;
0.000010 K- K0 anti-K*0 PHSP;
0.000010 K0 K*- anti-K0 PHSP;
0.000010 K+ K- K- pi0 PHSP;
0.000005 K+ K- K- eta PHSP;
0.000002 K+ K- K- eta' PHSP;
0.000010 K+ K- anti-K0 pi- PHSP;
0.000010 K0 anti-K0 K- pi0 PHSP;
0.000005 K0 anti-K0 K- eta PHSP;
0.000002 K0 anti-K0 K- eta' PHSP;
0.000010 K0 anti-K0 anti-K0 pi- PHSP;
0.000007000 phi K_0*- PHSP; #[Reconstructed PDG2011]
0.000010 K- K+ K_0*- PHSP;
0.000010 K- K- K_0*+ PHSP;
0.000010 K- anti-K_0*0 K0 PHSP;
0.000010 K- K_0*0 anti-K0 PHSP;
0.000002 phi K'_1- PHSP;
0.000002 K- K+ K'_1- PHSP;
#--- 4-body phi-phi, phi-K-K, K-K-K-K --------------------------------
0.000001 phi K0 K- PHSP;
0.000001 K+ K- K- K0 PHSP;
0.000001 K0 anti-K0 K0 K- PHSP;
#
#5-body modes from Jim Smith - 1/30/05
#--- 5-body rho-rho-pi, rho-pi-pi-pi, pi-pi-pi-pi-pi -------------------
0.000010 rho0 rho0 pi- PHSP;
0.000010 rho- rho0 pi0 PHSP;
0.000005 rho- rho0 eta PHSP;
0.000002 rho- rho0 eta' PHSP;
0.000010 rho+ rho- pi- PHSP;
0.000010 omega rho0 pi- PHSP;
0.000010 omega rho- pi0 PHSP;
0.000005 omega rho- eta PHSP;
0.000002 omega rho- eta' PHSP;
0.000002 rho0 pi+ pi- pi- PHSP;
0.000002 rho0 pi- pi0 pi0 PHSP;
0.000001 rho0 pi- eta pi0 PHSP;
0.000001 rho0 pi- eta' pi0 PHSP;
0.000002 omega pi- pi0 pi0 PHSP;
0.000001 omega pi- eta pi0 PHSP;
0.000001 omega pi- eta' pi0 PHSP;
0.000002 rho+ pi- pi- pi0 PHSP;
0.000001 rho+ pi- pi- eta PHSP;
0.000001 rho+ pi- pi- eta' PHSP;
0.000002 rho- pi+ pi- pi0 PHSP;
0.000001 rho- pi+ pi- eta PHSP;
0.000001 rho- pi+ pi- eta' PHSP;
0.000002 rho- pi0 pi0 pi0 PHSP;
0.000001 rho- pi0 eta pi0 PHSP;
0.000001 rho- eta eta pi0 PHSP;
0.000001 rho- pi0 eta' pi0 PHSP;
0.000001 pi+ pi- pi- pi0 pi0 PHSP;
0.000001 pi+ pi- pi- eta pi0 PHSP;
0.000001 pi+ pi- pi- eta' pi0 PHSP;
0.000001 pi- pi0 pi0 pi0 pi0 PHSP;
0.000001 pi- eta pi0 pi0 pi0 PHSP;
0.000001 pi- eta' pi0 pi0 pi0 PHSP;
0.000010 a_1- rho0 PHSP;
0.000010 a_1- omega PHSP;
0.000010 a_1- f_0 PHSP;
0.000010 a_10 pi- pi0 PHSP;
0.000005 a_10 pi- eta PHSP;
0.000002 a_10 pi- eta' PHSP;
0.000010 a_1+ pi- pi- PHSP;
0.000010 a_1- pi+ pi- PHSP;
0.000010 a_1- pi0 pi0 PHSP;
0.000005 a_1- pi0 eta PHSP;
0.000002 a_1- pi0 eta' PHSP;
0.000010 rho- f_0 pi0 PHSP;
0.000005 rho- f_0 eta PHSP;
0.000002 rho- f_0 eta' PHSP;
0.000010 rho0 f_0 pi- PHSP;
0.000010 omega f_0 pi- PHSP;
0.000010 rho- a_00 pi0 PHSP;
0.000005 rho- a_00 eta PHSP;
0.000002 rho- a_00 eta' PHSP;
0.000010 rho+ a_0- pi- PHSP;
0.000010 rho0 a_0- pi0 PHSP;
0.000005 rho0 a_0- eta PHSP;
0.000002 rho0 a_0- eta' PHSP;
0.000002 f_0 pi+ pi- pi- PHSP;
0.000002 f_0 pi- pi0 pi0 PHSP;
0.000001 f_0 pi- pi0 eta PHSP;
0.000001 f_0 pi- pi0 eta' PHSP;
0.000001 a_00 pi- pi0 pi0 PHSP;
0.000001 a_0- pi0 pi0 pi0 PHSP;
0.000001 a_0+ pi- pi- pi0 PHSP;
#--- 5-body rho-K*pi, rho-2pi-K, K*-3pi, 4pi-K -------------------
0.000010 rho- K*- pi+ PHSP;
0.000010 rho+ K*- pi- PHSP;
0.000010 rho- anti-K*0 pi0 PHSP;
0.000005 rho- anti-K*0 eta PHSP;
0.000002 rho- anti-K*0 eta' PHSP;
0.000010 rho0 anti-K*0 pi- PHSP;
0.000010 rho0 K*- pi0 PHSP;
0.000005 rho0 K*- eta PHSP;
0.000002 rho0 K*- eta' PHSP;
0.000010 omega anti-K*0 pi- PHSP;
0.000010 omega K*- pi0 PHSP;
0.000005 omega K*- eta PHSP;
0.000002 omega K*- eta' PHSP;
0.000010 pi+ pi- anti-K*0 pi- PHSP;
0.000010 pi- pi0 anti-K*0 pi0 PHSP;
0.000005 pi- eta anti-K*0 pi0 PHSP;
0.000002 pi- eta' anti-K*0 pi0 PHSP;
0.000010 pi- pi+ K*- pi0 PHSP;
0.000005 pi- pi+ K*- eta PHSP;
0.000002 pi- pi+ K*- eta' PHSP;
0.000010 pi0 pi0 K*- pi0 PHSP;
0.000005 pi0 eta K*- pi0 PHSP;
0.000002 eta eta K*- pi0 PHSP;
0.000002 pi0 eta' K*- pi0 PHSP;
0.000001 eta eta' K*- pi0 PHSP;
0.000010 rho- anti-K0 pi+ pi- PHSP;
0.000010 rho- anti-K0 pi0 pi0 PHSP;
0.000005 rho- anti-K0 eta pi0 PHSP;
0.000002 rho- anti-K0 eta' pi0 PHSP;
0.000010 rho- K- pi+ pi0 PHSP;
0.000010 rho+ K- pi- pi0 PHSP;
0.000010 rho+ anti-K0 pi- pi- PHSP;
0.000010 rho0 anti-K0 pi- pi0 PHSP;
0.000010 rho0 K- pi0 pi0 PHSP;
0.000005 rho0 K- eta pi0 PHSP;
0.000002 rho0 K- eta' pi0 PHSP;
0.000010 omega anti-K0 pi- pi0 PHSP;
0.000010 omega K- pi0 pi0 PHSP;
0.000005 omega K- eta pi0 PHSP;
0.000002 omega K- eta' pi0 PHSP;
0.000002 pi- pi- pi+ anti-K0 pi0 PHSP;
0.000001 pi- pi- pi+ anti-K0 eta PHSP;
0.000001 pi- pi- pi+ anti-K0 eta' PHSP;
0.000002 pi- pi0 pi0 anti-K0 pi0 PHSP;
0.000001 pi- eta pi0 anti-K0 pi0 PHSP;
0.000001 pi- eta eta anti-K0 pi0 PHSP;
0.000002 pi+ pi- pi+ K- pi- PHSP;
0.000002 pi+ pi- pi0 K- pi0 PHSP;
0.000001 pi+ pi- eta K- pi0 PHSP;
0.000001 pi+ pi- eta' K- pi0 PHSP;
0.000002 pi0 pi0 pi0 K- pi0 PHSP;
0.000001 pi0 pi0 eta K- pi0 PHSP;
0.000001 pi0 eta eta K- pi0 PHSP;
0.000001 pi0 pi0 eta' K- pi0 PHSP;
0.000001 pi0 eta eta' K- pi0 PHSP;
0.000010 rho0 anti-K_0*0 pi- PHSP;
0.000010 rho- anti-K_0*0 pi0 PHSP;
0.000005 rho- anti-K_0*0 eta PHSP;
0.000002 rho- anti-K_0*0 eta' PHSP;
0.000010 rho- K_0*- pi+ PHSP;
0.000010 rho0 K_0*- pi0 PHSP;
0.000005 rho0 K_0*- eta PHSP;
0.000002 rho0 K_0*- eta' PHSP;
0.000010 pi- pi- anti-K_0*0 pi+ PHSP;
0.000010 pi- pi0 anti-K_0*0 pi0 PHSP;
0.000005 pi- pi0 anti-K_0*0 eta PHSP;
0.000002 pi- pi0 anti-K_0*0 eta' PHSP;
0.000010 pi0 pi0 K_0*- pi0 PHSP;
0.000005 pi0 pi0 K_0*- eta PHSP;
0.000002 pi0 pi0 K_0*- eta' PHSP;
0.000010 anti-K*0 f_0 pi- PHSP;
0.000010 K*- f_0 pi0 PHSP;
0.000005 K*- f_0 eta PHSP;
0.000002 K*- f_0 eta' PHSP;
0.000020 a_10 K*- PHSP;
0.000010 a_10 K- pi0 PHSP;
0.000010 a_10 anti-K0 pi- PHSP;
0.000020 a_1- anti-K*0 PHSP;
0.000010 a_1- K- pi+ PHSP;
0.000010 a_1- anti-K0 pi0 PHSP;
0.000005 K*- a_00 pi0 PHSP;
0.000005 anti-K*0 a_0- pi0 PHSP;
#--- 5-body K*-K*pi,rho-K-Kpi, K*-K-2pi, phi-3pi, 3pi-K-K ------------
0.000001 K*0 anti-K*0 pi- PHSP;
0.000001 K*0 K*- pi0 PHSP;
0.0000005 K*0 K*- eta PHSP;
0.0000002 K*0 K*- eta' PHSP;
0.000001 phi rho0 pi- PHSP;
0.000001 phi omega pi- PHSP;
0.000001 phi f_0 pi- PHSP;
0.000001 phi rho- pi0 PHSP;
0.0000005 phi rho- eta PHSP;
0.0000002 phi rho- eta' PHSP;
0.000001 phi pi+ pi- pi- PHSP;
0.000001 phi pi- pi0 pi0 PHSP;
0.0000005 phi pi- eta pi0 PHSP;
0.0000002 phi pi- eta' pi0 PHSP;
0.000001 K0 K- rho+ pi- PHSP;
0.000001 K0 K- rho- pi+ PHSP;
0.000001 K0 K- rho0 pi0 PHSP;
0.0000005 K0 K- rho0 eta PHSP;
0.0000002 K0 K- rho0 eta' PHSP;
0.000001 K0 K- omega pi0 PHSP;
0.000001 K0 K- f_0 pi0 PHSP;
0.000001 K+ K- rho0 pi- PHSP;
0.000001 K+ K- rho- pi0 PHSP;
0.0000005 K+ K- rho- eta PHSP;
0.0000002 K+ K- rho- eta' PHSP;
0.000001 K+ K- omega pi- PHSP;
0.000001 K0 anti-K0 rho0 pi- PHSP;
0.000001 K0 anti-K0 omega pi- PHSP;
0.000001 K0 anti-K0 f_0 pi- PHSP;
0.000001 K0 anti-K0 rho- pi0 PHSP;
0.0000005 K0 anti-K0 rho- eta PHSP;
0.0000002 K0 anti-K0 rho- eta' PHSP;
0.000001 anti-K0 K+ rho- pi- PHSP;
0.0000002 anti-K0 K+ pi- pi- pi0 PHSP;
0.0000001 anti-K0 K+ pi- pi- eta PHSP;
0.0000001 anti-K0 K+ pi- pi- eta' PHSP;
0.0000002 K+ K- pi+ pi- pi- PHSP;
0.0000002 K+ K- pi- pi0 pi0 PHSP;
0.0000001 K+ K- pi- eta pi0 PHSP;
0.0000001 K+ K- pi- eta' pi0 PHSP;
0.0000002 K0 anti-K0 pi+ pi- pi- PHSP;
0.0000002 K0 anti-K0 pi- pi0 pi0 PHSP;
0.0000001 K0 anti-K0 pi- eta pi0 PHSP;
0.0000001 K0 anti-K0 pi- eta' pi0 PHSP;
0.0000002 K0 K- pi+ pi- pi0 PHSP;
0.0000001 K0 K- pi+ pi- eta PHSP;
0.0000001 K0 K- pi+ pi- eta' PHSP;
0.0000002 K0 K- pi0 pi0 pi0 PHSP;
0.0000001 K0 K- pi0 eta pi0 PHSP;
0.0000001 K0 K- pi0 eta' pi0 PHSP;
0.000001 anti-K*0 K+ pi- pi- PHSP;
0.000001 K*+ anti-K0 pi- pi- PHSP;
0.000001 K*- K+ pi- pi0 PHSP;
0.000001 K*+ K- pi- pi0 PHSP;
0.000001 K*0 anti-K0 pi- pi0 PHSP;
0.000001 K0 anti-K*0 pi- pi0 PHSP;
0.000001 K- K*0 pi0 pi0 PHSP;
0.0000005 K- K*0 eta pi0 PHSP;
0.0000002 K- K*0 eta' pi0 PHSP;
0.000001 K*- K0 pi0 pi0 PHSP;
0.0000005 K*- K0 eta pi0 PHSP;
0.0000002 K*- K0 eta' pi0 PHSP;
#--- 5-body phi-K*-pi, phi-K-2pi, K-K-K*-pi, 2pi-K-K-K --------------------
0.000010 phi K*- pi0 PHSP;
0.000010 phi K- rho0 PHSP;
0.000010 phi K- omega PHSP;
0.000010 phi K- f_0 PHSP;
0.000010 phi anti-K0 rho- PHSP;
0.000010 phi anti-K0 pi- pi0 PHSP;
0.000010 phi K- pi+ pi- PHSP;
0.000010 phi K- pi0 pi0 PHSP;
0.000005 phi K- eta pi0 PHSP;
0.000002 phi K- eta' pi0 PHSP;
0.000010 K+ K- K*- pi0 PHSP;
0.000010 K- K*+ K- pi0 PHSP;
0.000010 K- K*0 anti-K0 pi0 PHSP;
0.000010 K- K0 anti-K*0 pi0 PHSP;
0.000010 K0 K*- anti-K0 pi0 PHSP;
0.000010 K+ K- K- rho0 PHSP;
0.000010 K+ K- K- omega PHSP;
0.000010 K+ K- K- f_0 PHSP;
0.000010 K- K+ anti-K0 rho- PHSP;
0.000010 K- K- K+ pi0 pi0 PHSP;
0.000005 K- K- K+ eta pi0 PHSP;
0.000002 K- K- K+ eta' pi0 PHSP;
0.000010 K+ K- anti-K0 pi- pi0 PHSP;
0.000010 K0 anti-K0 K- pi0 pi0 PHSP;
0.000005 K0 anti-K0 K- eta pi0 PHSP;
0.000002 K0 anti-K0 K- eta' pi0 PHSP;
0.000010 K0 anti-K0 anti-K0 pi- pi0 PHSP;
0.000010 phi anti-K_0*0 pi- PHSP;
0.000010 phi K_0*- pi0 PHSP;
0.000005 phi K_0*- eta PHSP;
0.000002 phi K_0*- eta' PHSP;
0.000010 K- K+ K_0*- pi0 PHSP;
0.000005 K- K+ K_0*- eta PHSP;
0.000002 K- K+ K_0*- eta' PHSP;
0.000010 K- K- K_0*+ pi0 PHSP;
0.000005 K- K- K_0*+ eta PHSP;
0.000002 K- K- K_0*+ eta' PHSP;
0.000010 K- K+ anti-K_0*0 pi- PHSP;
0.000010 K- K- K_0*0 pi+ PHSP;
0.000010 anti-K0 anti-K0 K_0*0 pi- PHSP;
0.000010 K- anti-K_0*0 K0 pi0 PHSP;
0.000005 K- anti-K_0*0 K0 eta PHSP;
0.000002 K- anti-K_0*0 K0 eta' PHSP;
0.000010 K- K_0*0 anti-K0 pi0 PHSP;
0.000005 K- K_0*0 anti-K0 eta PHSP;
0.000002 K- K_0*0 anti-K0 eta' PHSP;
0.000002 phi anti-K'_10 pi- PHSP;
0.000002 phi K'_1- pi0 PHSP;
0.000001 phi K'_1- eta PHSP;
0.000001 phi K'_1- eta' PHSP;
0.000002 K- K+ anti-K'_10 pi- PHSP;
0.000002 K- K+ K'_1- pi0 PHSP;
0.000001 K- K+ K'_1- eta PHSP;
0.000001 K- K+ K'_1- eta' PHSP;
0.000002 K- K- K'_1+ pi0 PHSP;
0.000002 K- K- anti-K'_10 pi+ PHSP;
0.000002 K0 anti-K0 anti-K'_10 pi- PHSP;
0.000002 K0 anti-K0 K'_1- pi0 PHSP;
0.000001 K0 anti-K0 K'_1- eta PHSP;
0.000001 K0 anti-K0 K'_1- eta' PHSP;
0.000002 anti-K0 anti-K0 K'_10 pi- PHSP;
0.000002 K0 K0 K'_1- pi0 PHSP;
0.000001 K0 K0 K'_1- eta PHSP;
0.000001 K0 K0 K'_1- eta' PHSP;
0.000010 K- K0 anti-K'_10 pi0 PHSP;
0.000005 K- K0 anti-K'_10 eta PHSP;
0.000002 K- K0 anti-K'_10 eta' PHSP;
0.000010 K- K'_10 anti-K0 pi0 PHSP;
0.000005 K- K'_10 anti-K0 eta PHSP;
0.000002 K- K'_10 anti-K0 eta' PHSP;
#--- 5-body phi-phi-K, phi-phi-pi, phi-3K, phi-K-K-pi, 5K, 4K-pi ------------
0.000004900 phi phi K- PHSP; #[Reconstructed PDG2011]
0.000001 phi phi pi- PHSP;
0.000001 phi K+ K- K- PHSP;
0.000001 phi K0 anti-K0 K- PHSP;
0.000001 phi K0 anti-K0 pi- PHSP;
0.000001 phi K0 K- pi0 PHSP;
0.000001 K+ K- K+ K- pi- PHSP;
0.000001 K+ K- K0 anti-K0 pi- PHSP;
0.000001 K+ K- K- K0 pi0 PHSP;
0.000001 K0 anti-K0 K0 K- pi0 PHSP;
#--- 6-body phi-phi-K*, phi-3Kpi, phi-K-K-2pi ------------
0.000003 phi phi K*- PHSP;
0.000001 phi K+ K- K*- PHSP;
0.000001 phi K0 anti-K0 K*- PHSP;
0.000001 phi K0 K- K*0 PHSP;
0.000001 phi K+ K- K- pi0 PHSP;
0.000001 phi K+ K- anti-K0 pi- PHSP;
0.000001 phi K0 anti-K0 K- pi0 PHSP;
0.000001 phi K0 anti-K0 anti-K0 pi- PHSP;
0.000001 phi K0 K- K- pi+ PHSP;
#--- 6-body a1a1 ------------
0.000050 a_1- a_10 PHSP;
#
# B -> cc= s sum = 1.92%
#
0.001014000 J/psi K- SVS; #[Reconstructed PDG2011]
0.001430000 J/psi K*- SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; #[Reconstructed PDG2011]
0.000049000 J/psi pi- SVS; #[Reconstructed PDG2011]
0.000050000 J/psi rho- SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; #[Reconstructed PDG2011]
0.0002 J/psi anti-K0 pi- PHSP;
0.0001 J/psi K- pi0 PHSP;
#rl0.0007 J/psi K- pi+ pi- PHSP;
#rl0.00035 J/psi K- pi0 pi0 PHSP;
#rl0.00035 J/psi anti-K0 pi- pi0 PHSP;
0.0001 J/psi K'_1- SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0;
0.0005 J/psi K_2*- PHSP;
0.001800000 J/psi K_1- SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; #[Reconstructed PDG2011]
0.000052000 J/psi phi K- PHSP; #[Reconstructed PDG2011]
#
0.000646000 psi(2S) K- SVS; #[Reconstructed PDG2011]
0.000620000 psi(2S) K*- SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; #[Reconstructed PDG2011]
0.0004 psi(2S) anti-K0 pi- PHSP;
0.0002 psi(2S) K- pi0 PHSP;
0.001900000 psi(2S) K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.0001 psi(2S) K- pi0 pi0 PHSP;
0.0001 psi(2S) anti-K0 pi- pi0 PHSP;
0.0004 psi(2S) K_1- PHSP;
#
0.000910000 eta_c K- PHSP; #[Reconstructed PDG2011]
0.001200000 K*- eta_c SVS; #[Reconstructed PDG2011]
0.0002 eta_c anti-K0 pi- PHSP;
0.0001 eta_c K- pi0 PHSP;
0.0002 eta_c K- pi+ pi- PHSP;
0.0001 eta_c K- pi0 pi0 PHSP;
0.0001 eta_c anti-K0 pi- pi0 PHSP;
#
0.000340000 eta_c(2S) K- PHSP; #[Reconstructed PDG2011]
0.00048 K*- eta_c(2S) SVS;
0.00008 eta_c(2S) anti-K0 pi- PHSP;
0.00005 eta_c(2S) K- pi0 PHSP;
0.00008 eta_c(2S) K- pi+ pi- PHSP;
0.00005 eta_c(2S) K- pi0 pi0 PHSP;
0.00005 eta_c(2S) anti-K0 pi- pi0 PHSP;
#
0.000133000 chi_c0 K- PHSP; #[Reconstructed PDG2011]
0.0004 K*- chi_c0 SVS;
0.0002 chi_c0 anti-K0 pi- PHSP;
0.0001 chi_c0 K- pi0 PHSP;
0.0002 chi_c0 K- pi+ pi- PHSP;
0.0001 chi_c0 K- pi0 pi0 PHSP;
0.0001 chi_c0 anti-K0 pi- pi0 PHSP;
#
0.000460000 chi_c1 K- SVS; #[Reconstructed PDG2011]
0.000300000 chi_c1 K*- SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; #[Reconstructed PDG2011]
0.0004 chi_c1 anti-K0 pi- PHSP;
0.0002 chi_c1 K- pi0 PHSP;
0.0004 chi_c1 K- pi+ pi- PHSP;
0.0002 chi_c1 K- pi0 pi0 PHSP;
0.0002 chi_c1 anti-K0 pi- pi0 PHSP;
#
0.00002 chi_c2 K- STS;
0.00002 chi_c2 K*- PHSP;
0.0002 chi_c2 anti-K0 pi- PHSP;
0.0001 chi_c2 K- pi0 PHSP;
0.0002 chi_c2 K- pi+ pi- PHSP;
0.0001 chi_c2 K- pi0 pi0 PHSP;
0.0001 chi_c2 anti-K0 pi- pi0 PHSP;
#
0.000490000 psi(3770) K- SVS; #[Reconstructed PDG2011]
0.0005 psi(3770) K*- PHSP;
0.0003 psi(3770) anti-K0 pi- PHSP;
0.0002 psi(3770) K- pi0 PHSP;
0.0002 psi(3770) K- pi+ pi- PHSP;
0.0001 psi(3770) K- pi0 pi0 PHSP;
0.0001 psi(3770) anti-K0 pi- pi0 PHSP;
0.0003 psi(3770) K_1- PHSP;
#
# b -> c (sc=) -> D Ds X Sum = 10%
#
0.010000000 D0 D_s- PHSP; #[Reconstructed PDG2011]
0.008200000 D*0 D_s- SVS; #[Reconstructed PDG2011]
0.007600000 D_s*- D0 SVS; #[Reconstructed PDG2011]
0.017100000 D_s*- D*0 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; #[Reconstructed PDG2011]
0.0006 D'_10 D_s- SVS;
0.0012 D'_10 D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0012 D_10 D_s- SVS;
0.0024 D_10 D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0042 D_2*0 D_s- STS;
0.0040 D_2*0 D_s*- PHSP;
#
#
# SVV_HELAMP from factorization, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html:
#
0.0036 D_s- D+ pi- PHSP;
0.0018 D_s- D0 pi0 PHSP;
0.0037 D_s*- D+ pi- PHSP;
0.0018 D_s*- D0 pi0 PHSP;
0.0033 D_s- D+ pi- pi0 PHSP;
0.0033 D_s- D0 pi- pi+ PHSP;
0.0008 D_s- D0 pi0 pi0 PHSP;
0.0033 D_s*- D+ pi- pi0 PHSP;
0.0033 D_s*- D0 pi- pi+ PHSP;
0.0008 D_s*- D0 pi0 pi0 PHSP;
#
#
# b -> c (sc=) -> D D= K X Sum = 8%
# update: Ref. [B1]:
#
0.0017 D0 D- anti-K0 PHSP;
0.0052 D0 D*- anti-K0 PHSP;
0.0031 D*0 D- anti-K0 PHSP;
0.007800000 D*0 D*- anti-K0 PHSP; #[Reconstructed PDG2011]
# External+internal W-emission amplitude
0.002100000 D0 anti-D0 K- PHSP; #[Reconstructed PDG2011]
0.0018 D*0 anti-D0 K- PHSP;
0.004700000 D0 anti-D*0 K- PHSP; #[Reconstructed PDG2011]
0.005300000 D*0 anti-D*0 K- PHSP; #[Reconstructed PDG2011]
# Internal W-emission amplitude (color suppressed modes)
0.0005 D- D+ K- PHSP;
0.0005 D*- D+ K- PHSP;
0.001500000 D- D*+ K- PHSP; #[Reconstructed PDG2011]
0.0015 D*- D*+ K- PHSP;
#
0.0025 D0 D- anti-K*0 PHSP;
0.0025 D*0 D- anti-K*0 PHSP;
0.0025 D0 D*- anti-K*0 PHSP;
0.0050 D*0 D*- anti-K*0 PHSP;
#
0.0025 D0 anti-D0 K*- PHSP;
0.0025 D*0 anti-D0 K*- PHSP;
0.0025 D0 anti-D*0 K*- PHSP;
0.0050 D*0 anti-D*0 K*- PHSP;
#
0.0005 D- D+ K*- PHSP;
0.0005 D*- D+ K*- PHSP;
0.0005 D- D*+ K*- PHSP;
0.0010 D*- D*+ K*- PHSP;
#
# B->D(*)D(*). See Ref [B1]:
#
0.000380000 D- D0 PHSP; #[Reconstructed PDG2011]
0.000390000 D*- D0 SVS; #[Reconstructed PDG2011]
0.000630000 D*0 D- SVS; #[Reconstructed PDG2011]
0.000810000 D*0 D*- SVV_HELAMP 0.47 0.0 0.96 0.0 0.56 0.0; #[Reconstructed PDG2011]
#
# B -> D(*) X Exclusive Modes
#
0.005190000 D*0 pi- SVS; #[Reconstructed PDG2011]
0.004840000 D0 pi- PHSP; #[Reconstructed PDG2011]
0.013400000 rho- D0 SVS; #[Reconstructed PDG2011]
# D* rho HELAMP parameters taken from ICHEP 98-852.
0.009800000 D*0 rho- SVV_HELAMP 0.228 0.95 0.932 0.0 0.283 1.13; #[Reconstructed PDG2011]
#
0.0005 D0 pi0 pi- PHSP;
0.0005 D*0 pi0 pi- PHSP;
0.001070000 D+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.001350000 D*+ pi- pi- PHSP; #[Reconstructed PDG2011]
#
# D a1 updated Ref. [B1]:
0.004000000 a_1- D0 SVS; #[Reconstructed PDG2011]
0.000200000 D0 rho0 pi- PHSP; #[Reconstructed PDG2011]
0.006800000 D0 pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
#
# SVV_HELAMP from factorization, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html:
# updated Ref. [B1]:
#
#
0.019000000 D*0 a_1- SVV_HELAMP 0.200 0.0 0.866 0.0 0.458 0.0; #[Reconstructed PDG2011]
#
0.00150 D*0 rho0 pi- PHSP;
0.000500000 D*0 pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
#
0.0020 D+ rho- pi- PHSP;
0.0020 D+ pi0 pi- pi- PHSP;
0.0020 D*+ rho- pi- PHSP;
0.015000000 D*+ pi0 pi- pi- PHSP; #[Reconstructed PDG2011]
0.0005 D*0 rho- pi0 PHSP;
0.0005 D*0 pi- pi0 pi0 PHSP;
#
# B->D** pi and D** rho, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html
# further update October 26, 2004 Lange
#
0.000876 D_10 pi- SVS;
0.0005 D'_10 pi- SVS;
0.00052 D_2*0 pi- STS;
0.0007 D_10 rho- PHSP;
0.0022 D'_10 rho- PHSP;
0.0038 D_2*0 rho- PHSP;
0.00061 D_0*0 pi- PHSP;
#
#
# B->DK, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html:
# update: Ref [B1]:
#
0.000368000 D0 K- PHSP; #[Reconstructed PDG2011]
0.000421000 D*0 K- SVS; #[Reconstructed PDG2011]
0.000530000 K*- D0 SVS; #[Reconstructed PDG2011]
0.000810000 D*0 K*- SVV_HELAMP 0.228 0.0 0.932 0.0 0.283 0.0; #[Reconstructed PDG2011]
#October 26, 2004 Lange
0.0000005 D- pi0 PHSP;
0.0000005 D*- pi0 SVS;
0.000011 D- anti-K0 PHSP;
0.000006 D*- anti-K0 SVS;
#
#October 26, 2004 - Lange
0.00075 D0 D_s0*- PHSP;
0.0009 D*0 D_s0*- SVS;
0.003100000 D_s1- D0 SVS; #[Reconstructed PDG2011]
0.012000000 D*0 D_s1- SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.00055 D0 K- anti-K0 PHSP;
0.00075 D0 K- anti-K*0 PHSP;
0.001500000 D*0 K- anti-K*0 PHSP; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.002750000 D0 omega pi- PHSP; #[Reconstructed PDG2011]
0.004500000 D*0 omega pi- PHSP; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.00045 D0 D'_s1- PHSP;
0.00094 D*0 D'_s1- PHSP;
#
# Lam_c X / Sigma_c X 4.0 %
#
#0.04000 cd_1 anti-uu_1 PYTHIA 63;
0.032587684 cd_1 anti-uu_1 PYTHIA 63;
#
# Xi_c X 2.5%
#
#0.02400 cs_1 anti-uu_1 PYTHIA 63;
0.008887593 cs_1 anti-uu_1 PYTHIA 63;
#
#
0.214329978 anti-u d c anti-u PYTHIA 23;
0.040912464 anti-u d c anti-u PYTHIA 43;
0.022218888 anti-u s c anti-u PYTHIA 43;
#lange - try to crank up the psi production....
0.073075460 anti-c s c anti-u PYTHIA 43;
0.003950000 anti-c d c anti-u PYTHIA 43;
0.002962500 anti-u d u anti-u PYTHIA 23;
0.003950000 anti-c s u anti-u PYTHIA 23;
# JGS 11/5/02 This and similar a few lines above have been divided by two
# to solve a double-counting problem for this channel
0.002024389 anti-u u d anti-u PYTHIA 23;
0.000069145 anti-d d d anti-u PYTHIA 23;
0.000088900 anti-s s d anti-u PYTHIA 23;
0.002172556 anti-u u s anti-u PYTHIA 23;
0.001777537 anti-d d s anti-u PYTHIA 23;
0.001481296 anti-s s s anti-u PYTHIA 23;
0.004937500 s anti-u PYTHIA 91;
#
####
0.000550000 D0 K- K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000750000 D0 K- K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.018000000 D*0 pi+ pi- pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.005700000 D*0 pi- pi- pi- pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002600000 D*+ pi- pi- pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000180000 D_s+ pi- K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000145000 D_s*+ pi- K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011000 D_s+ K- K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001070000 J/psi K- pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000108000 J/psi eta K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000350000 J/psi omega K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011800 J/psi anti-p- Lambda0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000025800 psi(2S) pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000020000 chi_c1 pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000018000 eta K_0*- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000009100 eta K_2*- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000024000 omega K_0*- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000021000 omega K_2*- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000010100 anti-K*0 pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000001070 f_2 K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000005600 anti-K_2*0 pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000001200 K*- anti-K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000006100 phi K_1- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000008400 phi K_2*- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000043000 K_1- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000007900 eta K- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000003500 phi K- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000007600 K- pi+ pi- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000020000 anti-K*0 pi- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000046000 anti-K0 pi- pi0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000014000 K_2*- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000980 rho- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000001620 anti-p- p+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000005900 anti-p- p+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000003600 anti-p- p+ K*- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002500 anti-p- Lambda0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000003000 anti-p- Lambda0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 anti-p- Lambda0 pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004800 anti-p- Lambda0 rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002000 anti-p- Lambda0 f_2 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000003400 anti-Lambda0 Lambda0 K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002200 anti-Lambda0 Lambda0 K*- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000280000 Lambda_c+ anti-p- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001800000 Lambda_c+ anti-p- pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002300000 Lambda_c+ anti-p- pi- pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000035000 Sigma_c0 anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000440000 Sigma_c0 anti-p- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000440000 Sigma_c0 anti-p- pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000280000 Sigma_c++ anti-p- pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay B+
# Updated to PDG 2008
# b -> c semileptonic
#
-0.0569 anti-D*0 e+ nu_e PHOTOS HQET2 1.207 0.920 1.406 0.853; # For details see B- decay
-0.022907 anti-D0 e+ nu_e PHOTOS HQET2 1.185 1.081;
-0.0045 anti-D_10 e+ nu_e PHOTOS ISGW2;
-0.0037 anti-D_0*0 e+ nu_e PHOTOS ISGW2;
-0.0040 anti-D'_10 e+ nu_e PHOTOS ISGW2;
-0.0033 anti-D_2*0 e+ nu_e PHOTOS ISGW2;
-0.006100 D*- pi+ e+ nu_e PHOTOS GOITY_ROBERTS;
-0.0006 anti-D*0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS;
-0.0021 D- pi+ e+ nu_e PHOTOS GOITY_ROBERTS;
-0.0020 anti-D0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS;
+0.0569 anti-D*0 e+ nu_e FSR HQET2 1.207 0.920 1.406 0.853; # For details see B- decay
+0.022907 anti-D0 e+ nu_e FSR HQET2 1.185 1.081;
+0.0045 anti-D_10 e+ nu_e FSR ISGW2;
+0.0037 anti-D_0*0 e+ nu_e FSR ISGW2;
+0.0040 anti-D'_10 e+ nu_e FSR ISGW2;
+0.0033 anti-D_2*0 e+ nu_e FSR ISGW2;
+0.006100 D*- pi+ e+ nu_e FSR GOITY_ROBERTS;
+0.0006 anti-D*0 pi0 e+ nu_e FSR GOITY_ROBERTS;
+0.0021 D- pi+ e+ nu_e FSR GOITY_ROBERTS;
+0.0020 anti-D0 pi0 e+ nu_e FSR GOITY_ROBERTS;
# For muonic decays do same as for electrons
-0.0569 anti-D*0 mu+ nu_mu PHOTOS HQET2 1.207 0.920 1.406 0.853;
-0.022907 anti-D0 mu+ nu_mu PHOTOS HQET2 1.185 1.081;
-0.0045 anti-D_10 mu+ nu_mu PHOTOS ISGW2;
-0.0037 anti-D_0*0 mu+ nu_mu PHOTOS ISGW2;
-0.0040 anti-D'_10 mu+ nu_mu PHOTOS ISGW2;
-0.0033 anti-D_2*0 mu+ nu_mu PHOTOS ISGW2;
-0.006100 D*- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS;
-0.0006 anti-D*0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS;
-0.0021 D- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS;
-0.0020 anti-D0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS;
+0.0569 anti-D*0 mu+ nu_mu FSR HQET2 1.207 0.920 1.406 0.853;
+0.022907 anti-D0 mu+ nu_mu FSR HQET2 1.185 1.081;
+0.0045 anti-D_10 mu+ nu_mu FSR ISGW2;
+0.0037 anti-D_0*0 mu+ nu_mu FSR ISGW2;
+0.0040 anti-D'_10 mu+ nu_mu FSR ISGW2;
+0.0033 anti-D_2*0 mu+ nu_mu FSR ISGW2;
+0.006100 D*- pi+ mu+ nu_mu FSR GOITY_ROBERTS;
+0.0006 anti-D*0 pi0 mu+ nu_mu FSR GOITY_ROBERTS;
+0.0021 D- pi+ mu+ nu_mu FSR GOITY_ROBERTS;
+0.0020 anti-D0 pi0 mu+ nu_mu FSR GOITY_ROBERTS;
#
# b -> c tau nu
#
0.020000000 anti-D*0 tau+ nu_tau ISGW2; #[Reconstructed PDG2011]
0.007000000 anti-D0 tau+ nu_tau ISGW2; #[Reconstructed PDG2011]
0.0013 anti-D_10 tau+ nu_tau ISGW2;
0.0013 anti-D_0*0 tau+ nu_tau ISGW2;
0.0020 anti-D'_10 tau+ nu_tau ISGW2;
0.0020 anti-D_2*0 tau+ nu_tau ISGW2;
#
# b -> u l nu
#
#
#
# This will need check whether we get correct inclusive q2 dependence
-0.00007800 pi0 e+ nu_e PHOTOS ISGW2; # PDG2014
-0.00003800 eta e+ nu_e PHOTOS ISGW2; # PDG2014
-0.00015800 rho0 e+ nu_e PHOTOS ISGW2; # PDG2014
-0.00011900 omega e+ nu_e PHOTOS ISGW2; # PDG2014
-0.0000230 eta' e+ nu_e PHOTOS ISGW2; # PDG2014
-0.000000 anti-D(2S)0 e+ nu_e PHOTOS ISGW2;
-0.000000 anti-D*(2S)0 e+ nu_e PHOTOS ISGW2;
+0.00007800 pi0 e+ nu_e FSR ISGW2; # PDG2014
+0.00003800 eta e+ nu_e FSR ISGW2; # PDG2014
+0.00015800 rho0 e+ nu_e FSR ISGW2; # PDG2014
+0.00011900 omega e+ nu_e FSR ISGW2; # PDG2014
+0.0000230 eta' e+ nu_e FSR ISGW2; # PDG2014
+0.000000 anti-D(2S)0 e+ nu_e FSR ISGW2;
+0.000000 anti-D*(2S)0 e+ nu_e FSR ISGW2;
0.001948 Xu0 e+ nu_e VUB 4.8 1.29 0.22 20 0.30 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51;
#
# For muons do same as for electrons
-0.00007800 pi0 mu+ nu_mu PHOTOS ISGW2;
-0.00003800 eta mu+ nu_mu PHOTOS ISGW2;
-0.00015800 rho0 mu+ nu_mu PHOTOS ISGW2;
-0.00011900 omega mu+ nu_mu PHOTOS ISGW2;
-0.0000230 eta' mu+ nu_mu PHOTOS ISGW2;
-0.000000 anti-D(2S)0 mu+ nu_mu PHOTOS ISGW2;
-0.000000 anti-D*(2S)0 mu+ nu_mu PHOTOS ISGW2;
+0.00007800 pi0 mu+ nu_mu FSR ISGW2;
+0.00003800 eta mu+ nu_mu FSR ISGW2;
+0.00015800 rho0 mu+ nu_mu FSR ISGW2;
+0.00011900 omega mu+ nu_mu FSR ISGW2;
+0.0000230 eta' mu+ nu_mu FSR ISGW2;
+0.000000 anti-D(2S)0 mu+ nu_mu FSR ISGW2;
+0.000000 anti-D*(2S)0 mu+ nu_mu FSR ISGW2;
0.0020454 Xu0 mu+ nu_mu VUB 4.8 1.29 0.22 20 0.30 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51;
#
0.000030 pi0 tau+ nu_tau ISGW2;
0.000012 eta tau+ nu_tau ISGW2;
0.000042 rho0 tau+ nu_tau ISGW2;
0.000042 omega tau+ nu_tau ISGW2;
0.000018 eta' tau+ nu_tau ISGW2;
0.000046 a_10 tau+ nu_tau ISGW2;
0.000027 b_10 tau+ nu_tau ISGW2;
0.000004 a_00 tau+ nu_tau ISGW2;
0.000002 f_0 tau+ nu_tau ISGW2;
0.000002 f'_0 tau+ nu_tau ISGW2;
0.000023 f_1 tau+ nu_tau ISGW2;
0.000023 f'_1 tau+ nu_tau ISGW2;
0.000013 h_1 tau+ nu_tau ISGW2;
0.000013 h'_1 tau+ nu_tau ISGW2;
0.000020 f_2 tau+ nu_tau ISGW2;
0.000020 f'_2 tau+ nu_tau ISGW2;
0.000000 anti-D(2S)0 tau+ nu_tau ISGW2;
0.000000 anti-D*(2S)0 tau+ nu_tau ISGW2;
#
#
#
# b->u hadronic
# Ref. [B1]:
#
0.000016000 D_s+ pi0 PHSP; #[Reconstructed PDG2011]
0.000020 D_s*+ pi0 SVS;
#
0.000028 rho0 D_s+ SVS;
0.000028 D_s*+ rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# b-> s gamma
#
0.000042100 K*+ gamma HELAMP 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
#0.0000135 K_1+ gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000065 K'_1+ gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000128 K'*+ gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000166 K_2*+ gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000017 K''*+ gamma HELAMP 1.0 0.0 1.0 0.0;
0.0003118 Xsu gamma BTOXSGAMMA 2;
#
-0.000000550 K+ e+ e- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.000001550 K*+ e+ e- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.0000050 Xsu e+ e- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.000000520 K+ mu+ mu- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.000001160 K*+ mu+ mu- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.0000025 Xsu mu+ mu- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.0000001 K+ tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 K*+ tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 Xsu tau+ tau- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
+0.000000550 K+ e+ e- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.000001550 K*+ e+ e- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.0000050 Xsu e+ e- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.000000520 K+ mu+ mu- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.000001160 K*+ mu+ mu- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.0000025 Xsu mu+ mu- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.0000001 K+ tau+ tau- FSR BTOSLLBALL;
+0.0000002 K*+ tau+ tau- FSR BTOSLLBALL;
+0.0000002 Xsu tau+ tau- FSR BTOXSLL 4.8 0.2 0.0 0.41;
#
# b -> l nu
#
0.000180000 tau+ nu_tau SLN; #[Reconstructed PDG2011]
-0.000000 mu+ nu_mu PHOTOS SLN;
-0.000000 e+ nu_e PHOTOS SLN;
+0.000000 mu+ nu_mu FSR SLN;
+0.000000 e+ nu_e FSR SLN;
#
#------------------------------------------------------------------------------
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv
#
# Exclusive hadronic b->u
#
0.000026 pi+ pi0 pi0 CB3PI-P00 alpha;
0.000000 pi+ pi+ pi- CB3PI-MPP alpha;
####
0.000004070 eta pi+ PHSP; #[Reconstructed PDG2011]
0.000002330 eta K+ PHSP; #[Reconstructed PDG2011]
0.000019300 K*+ eta SVS; #[Reconstructed PDG2011]
0.000007000 rho+ eta SVS; #[Reconstructed PDG2011]
0.000002700 eta' pi+ PHSP; #[Reconstructed PDG2011]
0.000070600 eta' K+ PHSP; #[Reconstructed PDG2011]
0.000004900 K*+ eta' SVS; #[Reconstructed PDG2011]
0.000008700 rho+ eta' SVS; #[Reconstructed PDG2011]
0.000006900 omega pi+ SVS; #[Reconstructed PDG2011]
0.000006700 omega K+ SVS; #[Reconstructed PDG2011]
0.0000010 omega K*+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000015900 omega rho+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.0000000 phi pi+ SVS;
0.000008300 phi K+ SVS; #[Reconstructed PDG2011]
#2-body modes from Jim Olsen
# (K_S0 K- and K_L0 K- -> 1x10^-6, Jim Olsen - Mar 27, 2001)
# (pi- pi0 -> 5x10^-6 and K- pi0 -> 11x10^-6, Jim Olsen - Mar 27, 2001)
# PR LHCb 04/08/04 split into KS/KL
0.000000 K0 pi+ PHSP;
0.000011550 K_S0 pi+ PHSP; #[Reconstructed PDG2011]
0.000011550 K_L0 pi+ PHSP; #[Reconstructed PDG2011]
0.000001360 anti-K0 K+ PHSP; #[Reconstructed PDG2011]
0.000005700 pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.000012900 K+ pi0 PHSP; #[Reconstructed PDG2011]
#
# 3-body John Back (jback@slac.stanford.edu) - Oct 15, 2002
# JGS intersperses modes with pi0->eta,eta'
# B+ modes
#
# rho0 3-body modes
0.000008300 rho0 pi+ SVS; #[Reconstructed PDG2011]
0.000003700 rho0 K+ SVS; #[Reconstructed PDG2011]
#
# rho+ 3-body modes
0.000010900 rho+ pi0 SVS; #[Reconstructed PDG2011]
0.000008000 rho+ K0 SVS; #[Reconstructed PDG2011]
#
# rho(1450) 3-body modes
0.0000022 rho(2S)0 pi+ SVS;
0.000001 rho(2S)0 K+ SVS;
#
# f0(980) 3-body modes
0.000001 f_0 pi+ PHSP;
0.0000092 f_0 K+ PHSP;
0.000001 a_0+ K0 PHSP;
0.000001 a_00 K+ PHSP;
0.000001 a_00 pi+ PHSP;
0.000001 a_0+ pi0 PHSP;
0.000001600 f_2 pi+ PHSP; #[Reconstructed PDG2011]
#
# K*0(892) 3-body modes
0.000045000 K_0*0 pi+ PHSP; #[Reconstructed PDG2011]
0.0000010 anti-K_0*0 K+ PHSP;
0.000002 K_0*+ pi0 PHSP;
0.000002 K_0*+ anti-K0 PHSP;
#
# K*+(892) 3-body modes
0.000006900 K*+ pi0 SVS; #[Reconstructed PDG2011]
0.000003 K*+ anti-K0 SVS;
#
#
# Non-resonant 3-body left-overs
# Most modes are set at 1e-6
#
# pi+pi-pi+: high mass + f0(400-1200) = (1+1)e-6
#0402270.000002 pi+ pi- pi+ PHSP;
#
# K+ pi- pi+: high mass + f0(400-1200) = (5+5)e-6
0.000000000 K+ pi- pi+ PHSP; #[Reconstructed PDG2011]
#
# K+ K- pi+: just non-resonant
0.000005000 K+ K- pi+ PHSP; #[Reconstructed PDG2011]
#
# K+K-K+: high mass structure near 1500 + non-res: total - phiK = 30-4
0.000025400 K+ K- K+ PHSP; #[Reconstructed PDG2011]
#
#
# K+K+pi-: suppressed mode (1e-7)
0.0000001 K+ K+ pi- PHSP;
# K-pi+pi+: suppressed mode (1e-7)
0.0000001 K- pi+ pi+ PHSP;
#
#
# K+ anti-K0 pi0
0.000001 K+ anti-K0 pi0 PHSP;
0.000001 K+ anti-K0 eta PHSP;
0.000001 K+ anti-K0 eta' PHSP;
#
# pi+ K0 pi0
0.000001 pi+ K0 pi0 PHSP;
0.000001 pi+ K0 eta PHSP;
0.000001 pi+ K0 eta' PHSP;
#
# pi+ pi0 pi0
#0402270.000001 pi+ pi0 pi0 PHSP;
0.000001 pi+ pi0 eta PHSP;
0.000001 pi+ pi0 eta' PHSP;
0.000001 pi+ eta eta PHSP;
0.000001 pi+ eta eta' PHSP;
#
# K+ pi0 pi0
0.000001 K+ pi0 pi0 PHSP;
0.000001 K+ pi0 eta PHSP;
0.000001 K+ pi0 eta' PHSP;
0.000001 K+ eta eta PHSP;
0.000001 K+ eta eta' PHSP;
0.000001 K+ eta' eta' PHSP;
#
# K+ K0 anti-K0: 4*BF(K+KsKs) (4 is a guess)
0.0000460 K+ K0 anti-K0 PHSP;
#
# pi+ K0 anti-K0
0.000001 pi+ K0 anti-K0 PHSP;
#
#^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#---------------------------------------------------------------------------
#
#4-body modes from Andrei Gritsan
#--- 4-body rho-rho, rho-pi-pi, pi-pi-pi-pi --------------------------
# PR LHCb 22 Apr 2004 Set long. pol. for rho rho
0.000024000 rho+ rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000010 rho0 pi+ pi0 PHSP;
0.000005 rho0 pi+ eta PHSP;
0.000002 rho0 pi+ eta' PHSP;
0.000010 omega pi+ pi0 PHSP;
0.000005 omega pi+ eta PHSP;
0.000002 omega pi+ eta' PHSP;
0.000010 rho+ pi+ pi- PHSP;
# PR Add rho- pi+ pi+
0.000010 rho- pi+ pi+ PHSP;
0.000010 rho+ pi0 pi0 PHSP;
0.000005 rho+ pi0 eta PHSP;
0.000002 rho+ eta eta PHSP;
0.000002 rho+ pi0 eta' PHSP;
0.000010 pi- pi+ pi+ pi0 PHSP;
0.000005 pi- pi+ pi+ eta PHSP;
0.000002 pi- pi+ pi+ eta' PHSP;
0.000010 pi+ pi0 pi0 pi0 PHSP;
0.000005 pi+ eta pi0 pi0 PHSP;
0.000002 pi+ eta eta pi0 PHSP;
0.000002 pi+ eta' pi0 pi0 PHSP;
0.000001 pi+ eta' eta pi0 PHSP;
0.000020000 a_10 pi+ SVS; #[Reconstructed PDG2011]
0.000026000 a_1+ pi0 SVS; #[Reconstructed PDG2011]
0.0000067 b_10 pi+ SVS;
0.000010 b_1+ pi0 SVS;
0.000010 rho+ f_0 SVS;
0.000010 rho+ a_00 SVS;
0.000002 rho0 a_0+ SVS;
0.000010 f_0 pi+ pi0 PHSP;
0.000001 a_00 pi+ pi0 PHSP;
0.000001 a_0+ pi0 pi0 PHSP;
0.000001 a_0- pi+ pi+ PHSP;
#--- 4-body rho-K*, a1-K, rho-pi-K, K*-pi-pi, pi-pi-pi-K -------------------
0.000009200 rho+ K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000010 rho0 K*+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000010 pi+ pi0 K*0 PHSP;
0.000005 pi+ eta K*0 PHSP;
0.000069800 pi- pi+ K*+ PHSP; #[Reconstructed PDG2011]
0.000010 pi0 pi0 K*+ PHSP;
0.000005 pi0 eta K*+ PHSP;
0.000002 eta eta K*+ PHSP;
0.000002 pi0 eta' K*+ PHSP;
0.000001 eta eta' K*+ PHSP;
0.000010 rho+ K0 pi0 PHSP;
0.000005 rho+ K0 eta PHSP;
0.000002 rho+ K0 eta' PHSP;
0.000010 rho+ K+ pi- PHSP;
0.000010 rho- K+ pi+ PHSP;
0.000005 rho0 K0 pi+ PHSP;
0.000005 rho0 K+ pi0 PHSP;
0.000002 rho0 K+ eta PHSP;
0.000001 rho0 K+ eta' PHSP;
0.000005 omega K0 pi+ PHSP;
0.000005 omega K+ pi0 PHSP;
0.000002 omega K+ eta PHSP;
0.000001 omega K+ eta' PHSP;
0.000010 pi+ pi+ pi- K0 PHSP;
0.000010 pi+ pi0 pi0 K0 PHSP;
0.000005 pi+ eta pi0 K0 PHSP;
0.000002 pi+ eta eta K0 PHSP;
0.000010 pi+ pi- pi0 K+ PHSP;
0.000005 pi+ pi- eta K+ PHSP;
0.000010 pi0 pi0 pi0 K+ PHSP;
0.000005 pi0 pi0 eta K+ PHSP;
0.000002 pi0 eta eta K+ PHSP;
0.000002 pi0 pi0 eta' K+ PHSP;
0.000001 pi0 eta eta' K+ PHSP;
0.000010 rho+ K_0*0 PHSP;
0.000006 rho0 K_0*+ PHSP;
0.000010 pi+ pi0 K_0*0 PHSP;
0.000010 pi0 pi0 K_0*+ PHSP;
0.000005200 K*+ f_0 SVS; #[Reconstructed PDG2011]
0.000010 a_10 K+ SVS;
0.000035000 a_1+ K0 SVS; #[Reconstructed PDG2011]
0.0000091 b_10 K+ SVS;
0.000010 b_1+ K0 SVS;
0.000005 K*+ a_00 SVS;
0.000005 K*0 a_0+ SVS;
#--- 4-body K*-K*, rho-K-K, K*-K-pi, phi-pi-pi, pi-pi-K-K ------------
0.000001 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 phi rho+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 phi pi+ pi0 PHSP;
0.0000005 phi pi+ eta PHSP;
0.0000002 phi pi+ eta' PHSP;
0.000001 K+ K- rho+ PHSP;
0.000001 K0 anti-K0 rho+ PHSP;
0.000001 anti-K0 K+ rho0 PHSP;
0.000001 anti-K0 K+ omega PHSP;
0.000001 K+ K- pi+ pi0 PHSP;
0.0000005 K+ K- pi+ eta PHSP;
0.0000002 K+ K- pi+ eta' PHSP;
0.000001 K0 anti-K0 pi+ pi0 PHSP;
0.0000005 K0 anti-K0 pi+ eta PHSP;
0.0000002 K0 anti-K0 pi+ eta' PHSP;
0.000001 anti-K0 K+ pi+ pi- PHSP;
0.000001 anti-K0 K+ pi0 pi0 PHSP;
0.0000005 anti-K0 K+ pi0 eta PHSP;
0.0000002 anti-K0 K+ eta eta PHSP;
0.0000002 anti-K0 K+ pi0 eta' PHSP;
0.0000001 anti-K0 K+ eta eta' PHSP;
0.000001 K*+ K- pi+ PHSP;
0.000001 K*- K+ pi+ PHSP;
0.000001 K*0 anti-K0 pi+ PHSP;
0.000001 K0 anti-K*0 pi+ PHSP;
0.000001 K+ anti-K*0 pi0 PHSP;
0.0000005 K+ anti-K*0 eta PHSP;
0.0000002 K+ anti-K*0 eta' PHSP;
0.000001 K*+ anti-K0 pi0 PHSP;
0.0000005 K*+ anti-K0 eta PHSP;
0.0000002 K*+ anti-K0 eta' PHSP;
#--- 4-body phi-K*, phi-K-pi, K-K-K*, pi-K-K-K -----------------------
0.000010000 phi K*+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000010 phi K0 pi+ PHSP;
0.000010 phi K+ pi0 PHSP;
0.000005 phi K+ eta PHSP;
0.000002 phi K+ eta' PHSP;
0.000026000 K- K+ K*+ PHSP; #[Reconstructed PDG2011]
0.000010 K+ K*- K+ PHSP;
0.000010 K+ K*0 anti-K0 PHSP;
0.000010 K+ K0 anti-K*0 PHSP;
0.000010 K0 K*+ anti-K0 PHSP;
0.000010 K+ K- K+ pi0 PHSP;
0.000005 K+ K- K+ eta PHSP;
0.000002 K+ K- K+ eta' PHSP;
0.000010 K+ K- K0 pi+ PHSP;
0.000010 K0 anti-K0 K+ pi0 PHSP;
0.000005 K0 anti-K0 K+ eta PHSP;
0.000002 K0 anti-K0 K+ eta' PHSP;
0.000010 K0 anti-K0 K0 pi+ PHSP;
0.000007000 phi K_0*+ PHSP; #[Reconstructed PDG2011]
0.000010 K- K+ K_0*+ PHSP;
0.000010 K+ K+ K_0*- PHSP;
0.000010 K+ anti-K_0*0 K0 PHSP;
0.000010 K+ K_0*0 anti-K0 PHSP;
0.000002 phi K'_1+ PHSP;
0.000002 K- K+ K'_1+ PHSP;
#--- 4-body phi-phi, phi-K-K, K-K-K-K --------------------------------
0.000001 phi anti-K0 K+ PHSP;
0.000001 K+ K- K+ anti-K0 PHSP;
0.000001 K0 anti-K0 anti-K0 K+ PHSP;
#
#5-body modes from Jim Smith - 1/30/05
#--- 5-body rho-rho-pi, rho-pi-pi-pi, pi-pi-pi-pi-pi -------------------
0.000010 rho0 rho0 pi+ PHSP;
0.000010 rho+ rho0 pi0 PHSP;
0.000005 rho+ rho0 eta PHSP;
0.000002 rho+ rho0 eta' PHSP;
0.000010 rho+ rho- pi+ PHSP;
0.000010 omega rho0 pi+ PHSP;
0.000010 omega rho+ pi0 PHSP;
0.000005 omega rho+ eta PHSP;
0.000002 omega rho+ eta' PHSP;
0.000002 rho0 pi+ pi- pi+ PHSP;
0.000002 rho0 pi+ pi0 pi0 PHSP;
0.000001 rho0 pi+ eta pi0 PHSP;
0.000001 rho0 pi+ eta' pi0 PHSP;
0.000002 omega pi+ pi0 pi0 PHSP;
0.000001 omega pi+ eta pi0 PHSP;
0.000001 omega pi+ eta' pi0 PHSP;
0.000002 rho- pi+ pi+ pi0 PHSP;
0.000001 rho- pi+ pi+ eta PHSP;
0.000001 rho- pi+ pi+ eta' PHSP;
0.000002 rho+ pi+ pi- pi0 PHSP;
0.000001 rho+ pi+ pi- eta PHSP;
0.000001 rho+ pi+ pi- eta' PHSP;
0.000002 rho+ pi0 pi0 pi0 PHSP;
0.000001 rho+ pi0 eta pi0 PHSP;
0.000001 rho+ eta eta pi0 PHSP;
0.000001 rho+ pi0 eta' pi0 PHSP;
0.000001 pi- pi+ pi+ pi0 pi0 PHSP;
0.000001 pi- pi+ pi+ eta pi0 PHSP;
0.000001 pi- pi+ pi+ eta' pi0 PHSP;
0.000001 pi+ pi0 pi0 pi0 pi0 PHSP;
0.000001 pi+ eta pi0 pi0 pi0 PHSP;
0.000001 pi+ eta' pi0 pi0 pi0 PHSP;
0.000010 a_1+ rho0 PHSP;
0.000010 a_1+ omega PHSP;
0.000010 a_1+ f_0 PHSP;
0.000010 a_10 pi+ pi0 PHSP;
0.000005 a_10 pi+ eta PHSP;
0.000002 a_10 pi+ eta' PHSP;
0.000010 a_1- pi+ pi+ PHSP;
0.000010 a_1+ pi+ pi- PHSP;
0.000010 a_1+ pi0 pi0 PHSP;
0.000005 a_1+ pi0 eta PHSP;
0.000002 a_1+ pi0 eta' PHSP;
0.000010 rho+ f_0 pi0 PHSP;
0.000005 rho+ f_0 eta PHSP;
0.000002 rho+ f_0 eta' PHSP;
0.000010 rho0 f_0 pi+ PHSP;
0.000010 omega f_0 pi+ PHSP;
0.000010 rho+ a_00 pi0 PHSP;
0.000005 rho+ a_00 eta PHSP;
0.000002 rho+ a_00 eta' PHSP;
0.000010 rho- a_0+ pi+ PHSP;
0.000010 rho0 a_0+ pi0 PHSP;
0.000005 rho0 a_0+ eta PHSP;
0.000002 rho0 a_0+ eta' PHSP;
0.000002 f_0 pi+ pi- pi+ PHSP;
0.000002 f_0 pi+ pi0 pi0 PHSP;
0.000001 f_0 pi+ pi0 eta PHSP;
0.000001 f_0 pi+ pi0 eta' PHSP;
0.000001 a_00 pi+ pi0 pi0 PHSP;
0.000001 a_0+ pi0 pi0 pi0 PHSP;
0.000001 a_0- pi+ pi+ pi0 PHSP;
#--- 5-body rho-K*pi, rho-2pi-K, K*-3pi, 4pi-K -------------------
0.000010 rho+ K*+ pi- PHSP;
0.000010 rho- K*+ pi+ PHSP;
0.000010 rho+ K*0 pi0 PHSP;
0.000005 rho+ K*0 eta PHSP;
0.000002 rho+ K*0 eta' PHSP;
0.000010 rho0 K*0 pi+ PHSP;
0.000010 rho0 K*+ pi0 PHSP;
0.000005 rho0 K*+ eta PHSP;
0.000002 rho0 K*+ eta' PHSP;
0.000010 omega K*0 pi+ PHSP;
0.000010 omega K*+ pi0 PHSP;
0.000005 omega K*+ eta PHSP;
0.000002 omega K*+ eta' PHSP;
0.000010 pi+ pi- K*0 pi+ PHSP;
0.000010 pi+ pi0 K*0 pi0 PHSP;
0.000005 pi+ eta K*0 pi0 PHSP;
0.000002 pi+ eta' K*0 pi0 PHSP;
0.000010 pi- pi+ K*+ pi0 PHSP;
0.000005 pi- pi+ K*+ eta PHSP;
0.000002 pi- pi+ K*+ eta' PHSP;
0.000010 pi0 pi0 K*+ pi0 PHSP;
0.000005 pi0 eta K*+ pi0 PHSP;
0.000002 eta eta K*+ pi0 PHSP;
0.000002 pi0 eta' K*+ pi0 PHSP;
0.000001 eta eta' K*+ pi0 PHSP;
0.000010 rho+ K0 pi+ pi- PHSP;
0.000010 rho+ K0 pi0 pi0 PHSP;
0.000005 rho+ K0 eta pi0 PHSP;
0.000002 rho+ K0 eta' pi0 PHSP;
0.000010 rho+ K+ pi- pi0 PHSP;
0.000010 rho- K+ pi+ pi0 PHSP;
0.000010 rho- K0 pi+ pi+ PHSP;
0.000010 rho0 K0 pi+ pi0 PHSP;
0.000010 rho0 K+ pi0 pi0 PHSP;
0.000005 rho0 K+ eta pi0 PHSP;
0.000002 rho0 K+ eta' pi0 PHSP;
0.000010 omega K0 pi+ pi0 PHSP;
0.000010 omega K+ pi0 pi0 PHSP;
0.000005 omega K+ eta pi0 PHSP;
0.000002 omega K+ eta' pi0 PHSP;
0.000002 pi+ pi+ pi- K0 pi0 PHSP;
0.000001 pi+ pi+ pi- K0 eta PHSP;
0.000001 pi+ pi+ pi- K0 eta' PHSP;
0.000002 pi+ pi0 pi0 K0 pi0 PHSP;
0.000001 pi+ eta pi0 K0 pi0 PHSP;
0.000001 pi+ eta eta K0 pi0 PHSP;
0.000002 pi+ pi- pi+ K+ pi- PHSP;
0.000002 pi+ pi- pi0 K+ pi0 PHSP;
0.000001 pi+ pi- eta K+ pi0 PHSP;
0.000001 pi+ pi- eta' K+ pi0 PHSP;
0.000002 pi0 pi0 pi0 K+ pi0 PHSP;
0.000001 pi0 pi0 eta K+ pi0 PHSP;
0.000001 pi0 eta eta K+ pi0 PHSP;
0.000001 pi0 pi0 eta' K+ pi0 PHSP;
0.000001 pi0 eta eta' K+ pi0 PHSP;
0.000010 rho0 K_0*0 pi+ PHSP;
0.000010 rho+ K_0*0 pi0 PHSP;
0.000005 rho+ K_0*0 eta PHSP;
0.000002 rho+ K_0*0 eta' PHSP;
0.000010 rho+ K_0*+ pi- PHSP;
0.000010 rho0 K_0*+ pi0 PHSP;
0.000005 rho0 K_0*+ eta PHSP;
0.000002 rho0 K_0*+ eta' PHSP;
0.000010 pi+ pi+ K_0*0 pi- PHSP;
0.000010 pi+ pi0 K_0*0 pi0 PHSP;
0.000005 pi+ pi0 K_0*0 eta PHSP;
0.000002 pi+ pi0 K_0*0 eta' PHSP;
0.000010 pi0 pi0 K_0*+ pi0 PHSP;
0.000005 pi0 pi0 K_0*+ eta PHSP;
0.000002 pi0 pi0 K_0*+ eta' PHSP;
0.000010 K*0 f_0 pi+ PHSP;
0.000010 K*+ f_0 pi0 PHSP;
0.000005 K*+ f_0 eta PHSP;
0.000002 K*+ f_0 eta' PHSP;
0.000020 a_10 K*+ PHSP;
0.000010 a_10 K+ pi0 PHSP;
0.000010 a_10 K0 pi+ PHSP;
0.000020 a_1+ K*0 PHSP;
0.000010 a_1+ K+ pi- PHSP;
0.000010 a_1+ K0 pi0 PHSP;
0.000005 K*+ a_00 pi0 PHSP;
0.000005 K*0 a_0+ pi0 PHSP;
#--- 5-body K*-K*pi,rho-K-Kpi, K*-K-2pi, phi-3pi, 3pi-K-K ------------
0.000001 K*0 anti-K*0 pi+ PHSP;
0.000001 anti-K*0 K*+ pi0 PHSP;
0.0000005 anti-K*0 K*+ eta PHSP;
0.0000002 anti-K*0 K*+ eta' PHSP;
0.000001 phi rho0 pi+ PHSP;
0.000001 phi omega pi+ PHSP;
0.000001 phi f_0 pi+ PHSP;
0.000001 phi rho+ pi0 PHSP;
0.0000005 phi rho+ eta PHSP;
0.0000002 phi rho+ eta' PHSP;
0.000001 phi pi+ pi- pi+ PHSP;
0.000001 phi pi+ pi0 pi0 PHSP;
0.0000005 phi pi+ eta pi0 PHSP;
0.0000002 phi pi+ eta' pi0 PHSP;
0.000001 anti-K0 K+ rho+ pi- PHSP;
0.000001 anti-K0 K+ rho- pi+ PHSP;
0.000001 anti-K0 K+ rho0 pi0 PHSP;
0.0000005 anti-K0 K+ rho0 eta PHSP;
0.0000002 anti-K0 K+ rho0 eta' PHSP;
0.000001 anti-K0 K+ omega pi0 PHSP;
0.000001 anti-K0 K+ f_0 pi0 PHSP;
0.000001 K+ K- rho0 pi+ PHSP;
0.000001 K+ K- rho+ pi0 PHSP;
0.0000005 K+ K- rho+ eta PHSP;
0.0000002 K+ K- rho+ eta' PHSP;
0.000001 K+ K- omega pi+ PHSP;
0.000001 K0 anti-K0 rho0 pi+ PHSP;
0.000001 K0 anti-K0 omega pi+ PHSP;
0.000001 K0 anti-K0 f_0 pi+ PHSP;
0.000001 K0 anti-K0 rho+ pi0 PHSP;
0.0000005 K0 anti-K0 rho+ eta PHSP;
0.0000002 K0 anti-K0 rho+ eta' PHSP;
0.000001 K0 K- rho+ pi+ PHSP;
0.0000002 K0 K- pi+ pi+ pi0 PHSP;
0.0000001 K0 K- pi+ pi+ eta PHSP;
0.0000001 K0 K- pi+ pi+ eta' PHSP;
0.0000002 K+ K- pi+ pi- pi+ PHSP;
0.0000002 K+ K- pi+ pi0 pi0 PHSP;
0.0000001 K+ K- pi+ eta pi0 PHSP;
0.0000001 K+ K- pi+ eta' pi0 PHSP;
0.0000002 K0 anti-K0 pi+ pi- pi+ PHSP;
0.0000002 K0 anti-K0 pi+ pi0 pi0 PHSP;
0.0000001 K0 anti-K0 pi+ eta pi0 PHSP;
0.0000001 K0 anti-K0 pi+ eta' pi0 PHSP;
0.0000002 anti-K0 K+ pi+ pi- pi0 PHSP;
0.0000001 anti-K0 K+ pi+ pi- eta PHSP;
0.0000001 anti-K0 K+ pi+ pi- eta' PHSP;
0.0000002 anti-K0 K+ pi0 pi0 pi0 PHSP;
0.0000001 anti-K0 K+ pi0 eta pi0 PHSP;
0.0000001 anti-K0 K+ pi0 eta' pi0 PHSP;
0.000001 K*0 K- pi+ pi+ PHSP;
0.000001 K*- K0 pi+ pi+ PHSP;
0.000001 K*+ K- pi+ pi0 PHSP;
0.000001 K*- K+ pi+ pi0 PHSP;
0.000001 K*0 anti-K0 pi+ pi0 PHSP;
0.000001 K0 anti-K*0 pi+ pi0 PHSP;
0.000001 K+ anti-K*0 pi0 pi0 PHSP;
0.0000005 K+ anti-K*0 eta pi0 PHSP;
0.0000002 K+ anti-K*0 eta' pi0 PHSP;
0.000001 K*+ anti-K0 pi0 pi0 PHSP;
0.0000005 K*+ anti-K0 eta pi0 PHSP;
0.0000002 K*+ anti-K0 eta' pi0 PHSP;
#--- 5-body phi-K*-pi, phi-K-2pi, K-K-K*-pi, 2pi-K-K-K --------------------
0.000010 phi K*+ pi0 PHSP;
0.000010 phi K+ rho0 PHSP;
0.000010 phi K+ omega PHSP;
0.000010 phi K+ f_0 PHSP;
0.000010 phi K0 rho+ PHSP;
0.000010 phi K0 pi+ pi0 PHSP;
0.000010 phi K+ pi+ pi- PHSP;
0.000010 phi K+ pi0 pi0 PHSP;
0.000005 phi K+ eta pi0 PHSP;
0.000002 phi K+ eta' pi0 PHSP;
0.000010 K- K+ K*+ pi0 PHSP;
0.000010 K+ K*- K+ pi0 PHSP;
0.000010 K+ K*0 anti-K0 pi0 PHSP;
0.000010 K+ K0 anti-K*0 pi0 PHSP;
0.000010 K0 K*+ anti-K0 pi0 PHSP;
0.000010 K- K+ K+ rho0 PHSP;
0.000010 K- K+ K+ omega PHSP;
0.000010 K- K+ K+ f_0 PHSP;
0.000010 K- K+ K0 rho+ PHSP;
0.000010 K+ K- K+ pi0 pi0 PHSP;
0.000005 K+ K- K+ eta pi0 PHSP;
0.000002 K+ K- K+ eta' pi0 PHSP;
0.000010 K+ K- K0 pi+ pi0 PHSP;
0.000010 K0 anti-K0 K+ pi0 pi0 PHSP;
0.000005 K0 anti-K0 K+ eta pi0 PHSP;
0.000002 K0 anti-K0 K+ eta' pi0 PHSP;
0.000010 K0 anti-K0 K0 pi+ pi0 PHSP;
0.000010 phi K_0*0 pi+ PHSP;
0.000010 phi K_0*+ pi0 PHSP;
0.000005 phi K_0*+ eta PHSP;
0.000002 phi K_0*+ eta' PHSP;
0.000010 K- K+ K_0*+ pi0 PHSP;
0.000005 K- K+ K_0*+ eta PHSP;
0.000002 K- K+ K_0*+ eta' PHSP;
0.000010 K+ K+ K_0*- pi0 PHSP;
0.000005 K+ K+ K_0*- eta PHSP;
0.000002 K+ K+ K_0*- eta' PHSP;
0.000010 K- K+ K_0*0 pi+ PHSP;
0.000010 K+ K+ anti-K_0*0 pi- PHSP;
0.000010 K0 K0 anti-K_0*0 pi+ PHSP;
0.000010 K+ anti-K_0*0 K0 pi0 PHSP;
0.000005 K+ anti-K_0*0 K0 eta PHSP;
0.000002 K+ anti-K_0*0 K0 eta' PHSP;
0.000010 K+ K_0*0 anti-K0 pi0 PHSP;
0.000005 K+ K_0*0 anti-K0 eta PHSP;
0.000002 K+ K_0*0 anti-K0 eta' PHSP;
0.000002 phi K'_10 pi+ PHSP;
0.000002 phi K'_1+ pi0 PHSP;
0.000001 phi K'_1+ eta PHSP;
0.000001 phi K'_1+ eta' PHSP;
0.000002 K- K+ K'_10 pi+ PHSP;
0.000002 K- K+ K'_1+ pi0 PHSP;
0.000001 K- K+ K'_1+ eta PHSP;
0.000001 K- K+ K'_1+ eta' PHSP;
0.000002 K+ K+ K'_1- pi0 PHSP;
0.000002 K+ K+ anti-K'_10 pi- PHSP;
0.000002 K0 anti-K0 K'_10 pi+ PHSP;
0.000002 K0 anti-K0 K'_1+ pi0 PHSP;
0.000001 K0 anti-K0 K'_1+ eta PHSP;
0.000001 K0 anti-K0 K'_1+ eta' PHSP;
0.000002 K0 K0 anti-K'_10 pi+ PHSP;
0.000002 anti-K0 anti-K0 K'_1+ pi0 PHSP;
0.000001 anti-K0 anti-K0 K'_1+ eta PHSP;
0.000001 anti-K0 anti-K0 K'_1+ eta' PHSP;
0.000010 K+ K0 anti-K'_10 pi0 PHSP;
0.000005 K+ K0 anti-K'_10 eta PHSP;
0.000002 K+ K0 anti-K'_10 eta' PHSP;
0.000010 K+ K'_10 anti-K0 pi0 PHSP;
0.000005 K+ K'_10 anti-K0 eta PHSP;
0.000002 K+ K'_10 anti-K0 eta' PHSP;
#--- 5-body phi-phi-K, phi-phi-pi, phi-3K, phi-K-K-pi, 5K, 4K-pi ------------
0.000004900 phi phi K+ PHSP; #[Reconstructed PDG2011]
0.000001 phi phi pi+ PHSP;
0.000001 phi K+ K- K+ PHSP;
0.000001 phi K0 anti-K0 K+ PHSP;
0.000001 phi K0 anti-K0 pi+ PHSP;
0.000001 phi anti-K0 K+ pi0 PHSP;
0.000001 K+ K- K+ K- pi+ PHSP;
0.000001 K+ K- K0 anti-K0 pi+ PHSP;
0.000001 K+ K- K+ anti-K0 pi0 PHSP;
0.000001 K0 anti-K0 anti-K0 K+ pi0 PHSP;
#--- 6-body phi-phi-K*, phi-3Kpi, phi-K-K-2pi ------------
0.000003 phi phi K*+ PHSP;
0.000001 phi K+ K- K*+ PHSP;
0.000001 phi K0 anti-K0 K*+ PHSP;
0.000001 phi anti-K0 K+ K*0 PHSP;
0.000001 phi K+ K- K+ pi0 PHSP;
0.000001 phi K+ K- K0 pi+ PHSP;
0.000001 phi K0 anti-K0 K+ pi0 PHSP;
0.000001 phi K0 anti-K0 K0 pi+ PHSP;
0.000001 phi anti-K0 K+ K+ pi- PHSP;
#--- 6-body a1a1 ------------
0.000050 a_1+ a_10 PHSP;
#
# B -> cc= s sum = 1.92%
#
0.001014000 J/psi K+ SVS; #[Reconstructed PDG2011]
0.001430000 J/psi K*+ SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; #[Reconstructed PDG2011]
0.000049000 J/psi pi+ SVS; #[Reconstructed PDG2011]
0.000050000 J/psi rho+ SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; #[Reconstructed PDG2011]
0.0002 J/psi K0 pi+ PHSP;
0.0001 J/psi K+ pi0 PHSP;
#rl0.0007 J/psi K+ pi- pi+ PHSP;
#rl0.00035 J/psi K+ pi0 pi0 PHSP;
#rl0.00035 J/psi K0 pi+ pi0 PHSP;
0.0001 J/psi K'_1+ SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0;
0.0005 J/psi K_2*+ PHSP;
0.001800000 J/psi K_1+ SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; #[Reconstructed PDG2011]
0.000052000 J/psi phi K+ PHSP; #[Reconstructed PDG2011]
#
0.000646000 psi(2S) K+ SVS; #[Reconstructed PDG2011]
0.000620000 psi(2S) K*+ SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; #[Reconstructed PDG2011]
0.0004 psi(2S) K0 pi+ PHSP;
0.0002 psi(2S) K+ pi0 PHSP;
0.001900000 psi(2S) K+ pi- pi+ PHSP; #[Reconstructed PDG2011]
0.0001 psi(2S) K+ pi0 pi0 PHSP;
0.0001 psi(2S) K0 pi+ pi0 PHSP;
0.0004 psi(2S) K_1+ PHSP;
#
0.000910000 eta_c K+ PHSP; #[Reconstructed PDG2011]
0.001200000 K*+ eta_c SVS; #[Reconstructed PDG2011]
0.0002 eta_c K0 pi+ PHSP;
0.0001 eta_c K+ pi0 PHSP;
0.0002 eta_c K+ pi- pi+ PHSP;
0.0001 eta_c K+ pi0 pi0 PHSP;
0.0001 eta_c K0 pi+ pi0 PHSP;
#
0.000340000 eta_c(2S) K+ PHSP; #[Reconstructed PDG2011]
0.00048 K*+ eta_c(2S) SVS;
0.00008 eta_c(2S) K0 pi+ PHSP;
0.00005 eta_c(2S) K+ pi0 PHSP;
0.00008 eta_c(2S) K+ pi- pi+ PHSP;
0.00005 eta_c(2S) K+ pi0 pi0 PHSP;
0.00005 eta_c(2S) K0 pi+ pi0 PHSP;
#
0.000133000 chi_c0 K+ PHSP; #[Reconstructed PDG2011]
0.0004 K*+ chi_c0 SVS;
0.0002 chi_c0 K0 pi+ PHSP;
0.0001 chi_c0 K+ pi0 PHSP;
0.0002 chi_c0 K+ pi- pi+ PHSP;
0.0001 chi_c0 K+ pi0 pi0 PHSP;
0.0001 chi_c0 K0 pi+ pi0 PHSP;
#
0.000460000 chi_c1 K+ SVS; #[Reconstructed PDG2011]
0.000300000 chi_c1 K*+ SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; #[Reconstructed PDG2011]
0.0004 chi_c1 K0 pi+ PHSP;
0.0002 chi_c1 K+ pi0 PHSP;
0.0004 chi_c1 K+ pi- pi+ PHSP;
0.0002 chi_c1 K+ pi0 pi0 PHSP;
0.0002 chi_c1 K0 pi+ pi0 PHSP;
#
0.00002 chi_c2 K+ STS;
0.00002 chi_c2 K*+ PHSP;
0.0002 chi_c2 K0 pi+ PHSP;
0.0001 chi_c2 K+ pi0 PHSP;
0.0002 chi_c2 K+ pi- pi+ PHSP;
0.0001 chi_c2 K+ pi0 pi0 PHSP;
0.0001 chi_c2 K0 pi+ pi0 PHSP;
#
0.000490000 psi(3770) K+ SVS; #[Reconstructed PDG2011]
0.0005 psi(3770) K*+ PHSP;
0.0003 psi(3770) K0 pi+ PHSP;
0.0002 psi(3770) K+ pi0 PHSP;
0.0002 psi(3770) K+ pi- pi+ PHSP;
0.0001 psi(3770) K+ pi0 pi0 PHSP;
0.0001 psi(3770) K0 pi+ pi0 PHSP;
0.0003 psi(3770) K_1+ PHSP;
#
# b -> c (sc=) -> D Ds X Sum = 10%
#
0.010000000 anti-D0 D_s+ PHSP; #[Reconstructed PDG2011]
0.008200000 anti-D*0 D_s+ SVS; #[Reconstructed PDG2011]
0.007600000 D_s*+ anti-D0 SVS; #[Reconstructed PDG2011]
0.017100000 D_s*+ anti-D*0 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; #[Reconstructed PDG2011]
0.0006 anti-D'_10 D_s+ SVS;
0.0012 anti-D'_10 D_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0012 anti-D_10 D_s+ SVS;
0.0024 anti-D_10 D_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0042 anti-D_2*0 D_s+ STS;
0.0040 anti-D_2*0 D_s*+ PHSP;
#
#
#
#
#
0.0036 D_s+ D- pi+ PHSP;
0.0018 D_s+ anti-D0 pi0 PHSP;
0.0037 D_s*+ D- pi+ PHSP;
0.0018 D_s*+ anti-D0 pi0 PHSP;
0.0033 D_s+ D- pi+ pi0 PHSP;
0.0033 D_s+ anti-D0 pi+ pi- PHSP;
0.0008 D_s+ anti-D0 pi0 pi0 PHSP;
0.0033 D_s*+ D- pi+ pi0 PHSP;
0.0033 D_s*+ anti-D0 pi+ pi- PHSP;
0.0008 D_s*+ anti-D0 pi0 pi0 PHSP;
#
# b -> c (sc=) -> D D= K X Sum = 8%
# update: Ref. [B1]:
# update October 26, 2004
# External W-emission amplitude
0.0017 anti-D0 D+ K0 PHSP;
0.0052 anti-D0 D*+ K0 PHSP;
0.0031 anti-D*0 D+ K0 PHSP;
0.007800000 anti-D*0 D*+ K0 PHSP; #[Reconstructed PDG2011]
# External+internal W-emission amplitude
0.002100000 anti-D0 D0 K+ PHSP; #[Reconstructed PDG2011]
0.0018 anti-D*0 D0 K+ PHSP;
0.004700000 anti-D0 D*0 K+ PHSP; #[Reconstructed PDG2011]
0.005300000 anti-D*0 D*0 K+ PHSP; #[Reconstructed PDG2011]
# Internal W-emission amplitude (color suppressed modes)
0.0005 D+ D- K+ PHSP;
0.0005 D*+ D- K+ PHSP;
0.001500000 D+ D*- K+ PHSP; #[Reconstructed PDG2011]
0.0015 D*+ D*- K+ PHSP;
#
0.0025 anti-D0 D+ K*0 PHSP;
0.0025 anti-D*0 D+ K*0 PHSP;
0.0025 anti-D0 D*+ K*0 PHSP;
0.0050 anti-D*0 D*+ K*0 PHSP;
#
0.0025 anti-D0 D0 K*+ PHSP;
0.0025 anti-D*0 D0 K*+ PHSP;
0.0025 anti-D0 D*0 K*+ PHSP;
0.0050 anti-D*0 D*0 K*+ PHSP;
#
0.0005 D+ D- K*+ PHSP;
0.0005 D*+ D- K*+ PHSP;
0.0005 D+ D*- K*+ PHSP;
0.0010 D*+ D*- K*+ PHSP;
#
# B->D(*)D(*). See Ref [B1]:
#
0.000380000 D+ anti-D0 PHSP; #[Reconstructed PDG2011]
0.000390000 D*+ anti-D0 SVS; #[Reconstructed PDG2011]
0.000630000 anti-D*0 D+ SVS; #[Reconstructed PDG2011]
0.000810000 anti-D*0 D*+ SVV_HELAMP 0.56 0.0 0.96 0.0 0.47 0.0; #[Reconstructed PDG2011]
#
# B -> D(*) X Exclusive Modes
# October 26, 2004 Lange update
0.005190000 anti-D*0 pi+ SVS; #[Reconstructed PDG2011]
0.004840000 anti-D0 pi+ PHSP; #[Reconstructed PDG2011]
0.013400000 rho+ anti-D0 SVS; #[Reconstructed PDG2011]
# D* rho HELAMP parameters taken from ICHEP 98-852.
0.009800000 anti-D*0 rho+ SVV_HELAMP 0.283 1.13 0.932 0.0 0.228 0.95; #[Reconstructed PDG2011]
#
0.0005 anti-D0 pi0 pi+ PHSP;
0.0005 anti-D*0 pi0 pi+ PHSP;
0.001070000 D- pi+ pi+ PHSP; #[Reconstructed PDG2011]
0.001350000 D*- pi+ pi+ PHSP; #[Reconstructed PDG2011]
#
# D a1 updated Ref. [B1]:
0.004000000 a_1+ anti-D0 SVS; #[Reconstructed PDG2011]
0.000200000 anti-D0 rho0 pi+ PHSP; #[Reconstructed PDG2011]
0.006800000 anti-D0 pi- pi+ pi+ PHSP; #[Reconstructed PDG2011]
#
# SVV_HELAMP from factorization, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html:
# updated Ref. [B1]:
# October 26, 2004 Lange update
#
0.019000000 anti-D*0 a_1+ SVV_HELAMP 0.458 0.0 0.866 0.0 0.200 0.0; #[Reconstructed PDG2011]
#
0.00150 anti-D*0 rho0 pi+ PHSP;
0.000500000 anti-D*0 pi- pi+ pi+ PHSP; #[Reconstructed PDG2011]
#
0.0020 D- rho+ pi+ PHSP;
0.0020 D- pi0 pi+ pi+ PHSP;
0.0020 D*- rho+ pi+ PHSP;
0.015000000 D*- pi0 pi+ pi+ PHSP; #[Reconstructed PDG2011]
0.0005 anti-D*0 rho+ pi0 PHSP;
0.0005 anti-D*0 pi+ pi0 pi0 PHSP;
#
# B->D** pi and D** rho, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html
#
#
0.000876 anti-D_10 pi+ SVS;
0.0005 anti-D'_10 pi+ SVS;
0.00052 anti-D_2*0 pi+ STS;
0.0007 anti-D_10 rho+ PHSP;
0.0022 anti-D'_10 rho+ PHSP;
0.0038 anti-D_2*0 rho+ PHSP;
0.00061 anti-D_0*0 pi+ PHSP;
#
#
# B->DK, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html:
# update: Ref [B1]:
#
0.000368000 anti-D0 K+ PHSP; #[Reconstructed PDG2011]
0.000421000 anti-D*0 K+ SVS; #[Reconstructed PDG2011]
0.000530000 K*+ anti-D0 SVS; #[Reconstructed PDG2011]
0.000810000 anti-D*0 K*+ SVV_HELAMP 0.283 0.0 0.932 0.0 0.228 0.0; #[Reconstructed PDG2011]
#October 26, 2004 Lange
0.0000005 D+ pi0 PHSP;
0.0000005 D*+ pi0 SVS;
0.000011 D+ anti-K0 PHSP;
0.000006 D*+ anti-K0 SVS;
#
#October 26, 2004 - Lange
0.00075 anti-D0 D_s0*+ PHSP;
0.00090 anti-D*0 D_s0*+ SVS;
0.003100000 D_s1+ anti-D0 SVS; #[Reconstructed PDG2011]
0.012000000 anti-D*0 D_s1+ SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.000550000 anti-D0 K+ anti-K0 PHSP; #[Reconstructed PDG2011]
0.000750000 anti-D0 K+ anti-K*0 PHSP; #[Reconstructed PDG2011]
0.00150 anti-D*0 K+ anti-K*0 PHSP;
#
# Feb 2009
#
0.002750000 anti-D0 omega pi+ PHSP; #[Reconstructed PDG2011]
0.004500000 anti-D*0 omega pi+ PHSP; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.00045 anti-D0 D'_s1+ PHSP;
0.00094 anti-D*0 D'_s1+ PHSP;
#
# Lam_c X / Sigma_c X
#
#0.04000 anti-cd_1 uu_1 PYTHIA 63;
0.032572352 anti-cd_1 uu_1 PYTHIA 63;
#
# Xi_c X 2.4%
#0.02400 anti-cs_1 uu_1 PYTHIA 63;
0.008883411 anti-cs_1 uu_1 PYTHIA 63;
#
#
0.211960282 u anti-d anti-c u PYTHIA 23;
0.040460124 u anti-d anti-c u PYTHIA 43;
0.022208435 u anti-s anti-c u PYTHIA 43;
#lange - try to crank up the psi production....
0.073041080 c anti-s anti-c u PYTHIA 43;
0.003948141 c anti-d anti-c u PYTHIA 43;
0.002961106 u anti-d anti-u u PYTHIA 23;
0.003948141 c anti-s anti-u u PYTHIA 23;
# JGS 11/5/02 This and similar a few lines above have been divided by two
# to solve a double-counting problem for this channel
0.002023436 u anti-u anti-d u PYTHIA 23;
0.000069112 d anti-d anti-d u PYTHIA 23;
0.000088858 s anti-s anti-d u PYTHIA 23;
0.002171534 u anti-u anti-s u PYTHIA 23;
0.001776701 d anti-d anti-s u PYTHIA 23;
0.001480600 s anti-s anti-s u PYTHIA 23;
0.004935177 anti-s u PYTHIA 91;
####
0.001500000 anti-D*0 K+ K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.018000000 anti-D*0 pi- pi+ pi+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.005700000 anti-D*0 pi+ pi+ pi+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002600000 D*- pi+ pi+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000180000 D_s- pi+ K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000145000 D_s*- pi+ K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011000 D_s- K+ K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001070000 J/psi K+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000108000 J/psi eta K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000350000 J/psi omega K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011800 J/psi p+ anti-Lambda0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000025800 psi(2S) pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000020000 chi_c1 pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000018000 eta K_0*+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000009100 eta K_2*+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000024000 omega K_0*+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000021000 omega K_2*+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000010100 K*0 pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000001070 f_2 K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000005600 K_2*0 pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000001200 K*+ K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000006100 phi K_1+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000008400 phi K_2*+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000043000 K_1+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000007900 eta K+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000003500 phi K+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000007600 K+ pi- pi+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000020000 K*0 pi+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000046000 K0 pi+ pi0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000014000 K_2*+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000980 rho+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000001620 p+ anti-p- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000005900 p+ anti-p- K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000003600 p+ anti-p- K*+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002500 p+ anti-Lambda0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000003000 p+ anti-Lambda0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 p+ anti-Lambda0 pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004800 p+ anti-Lambda0 rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002000 p+ anti-Lambda0 f_2 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000003400 Lambda0 anti-Lambda0 K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002200 Lambda0 anti-Lambda0 K*+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000280000 anti-Lambda_c- p+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001800000 anti-Lambda_c- p+ pi+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002300000 anti-Lambda_c- p+ pi+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000035000 anti-Sigma_c0 p+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000440000 anti-Sigma_c0 p+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000440000 anti-Sigma_c0 p+ pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000280000 anti-Sigma_c-- p+ pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#-----------------------------------------------------------------
# B references:
#
# [B1]: http://www.slac.stanford.edu/BFROOT/www/Physics/Tools/generators/dec-update/2002/Breco-recommendations.html
#
#-----------------------------------------------------------------
#
#
# B* mesons
#
Decay B*+
1.0000 B+ gamma VSP_PWAVE;
Enddecay
Decay B*-
1.0000 B- gamma VSP_PWAVE;
Enddecay
Decay B*0
1.0000 B0 gamma VSP_PWAVE;
Enddecay
Decay anti-B*0
1.0000 anti-B0 gamma VSP_PWAVE;
Enddecay
Decay B_s*0
1.0000 B_s0 gamma VSP_PWAVE;
Enddecay
Decay anti-B_s*0
1.0000 anti-B_s0 gamma VSP_PWAVE;
Enddecay
#
# B_s decays.
#
#
# To count up the BR for this decay:
# awk ' /^0./{ sum = sum + $1 ;print sum } ' junk.dec
#
# anti-B_s decays.
# -------------------------------------------------------
# whb&fkw 3/28/01 Taken from fkw's QQ tables.
# most dubious part are the B to baryons.
# fkw 4/28/00 made the Bs parallel to the Bd as best as I could
# -------------------------------------------------------
#
# Lange - Nov14 - NOT adjusted for D_s->phipi change
#
Decay anti-B_s0
# b --> c (l nu)
# Sum = 24.5%
-0.0210 D_s+ e- anti-nu_e PHOTOS HQET 1.185 1.081;
-0.0490 D_s*+ e- anti-nu_e PHOTOS HQET2 1.207 0.920 1.406 0.853;
-0.0040 D_s1+ e- anti-nu_e PHOTOS ISGW2;
-0.0040 D_s0*+ e- anti-nu_e PHOTOS ISGW2;
-0.0070 D'_s1+ e- anti-nu_e PHOTOS ISGW2;
-0.0070 D_s2*+ e- anti-nu_e PHOTOS ISGW2;
-#
-0.0210 D_s+ mu- anti-nu_mu PHOTOS HQET2 1.185 1.081;
-0.0490 D_s*+ mu- anti-nu_mu PHOTOS HQET2 1.207 0.920 1.406 0.853;
-0.0040 D_s1+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0040 D_s0*+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0070 D'_s1+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0070 D_s2*+ mu- anti-nu_mu PHOTOS ISGW2;
+0.0210 D_s+ e- anti-nu_e FSR HQET 1.185 1.081;
+0.0490 D_s*+ e- anti-nu_e FSR HQET2 1.207 0.920 1.406 0.853;
+0.0040 D_s1+ e- anti-nu_e FSR ISGW2;
+0.0040 D_s0*+ e- anti-nu_e FSR ISGW2;
+0.0070 D'_s1+ e- anti-nu_e FSR ISGW2;
+0.0070 D_s2*+ e- anti-nu_e FSR ISGW2;
+#
+0.0210 D_s+ mu- anti-nu_mu FSR HQET2 1.185 1.081;
+0.0490 D_s*+ mu- anti-nu_mu FSR HQET2 1.207 0.920 1.406 0.853;
+0.0040 D_s1+ mu- anti-nu_mu FSR ISGW2;
+0.0040 D_s0*+ mu- anti-nu_mu FSR ISGW2;
+0.0070 D'_s1+ mu- anti-nu_mu FSR ISGW2;
+0.0070 D_s2*+ mu- anti-nu_mu FSR ISGW2;
#
#0.0070 D_s+ tau- anti-nu_tau ISGW2;
#0.0150 D_s*+ tau- anti-nu_tau ISGW2;
#0.0013 D_s1+ tau- anti-nu_tau ISGW2;
#0.0013 D_s0*+ tau- anti-nu_tau ISGW2;
#0.0023 D'_s1+ tau- anti-nu_tau ISGW2;
#0.0023 D_s2*+ tau- anti-nu_tau ISGW2;
# fkw 5/04/01 changed the above to account for the non-res part that I
# had to take out.
0.0080 D_s+ tau- anti-nu_tau ISGW2;
0.0160 D_s*+ tau- anti-nu_tau ISGW2;
0.0018 D_s1+ tau- anti-nu_tau ISGW2;
0.0018 D_s0*+ tau- anti-nu_tau ISGW2;
0.0028 D'_s1+ tau- anti-nu_tau ISGW2;
0.0028 D_s2*+ tau- anti-nu_tau ISGW2;
#
# fkw 4/28/00 the next few are decays where a u\bar u or d\bar d is popped
# between the charm quark and the spectator. I can thus not
# just replace a D by a Ds as above when going from Bd to Bs.
# fkw 5/04/01 Had to take these out because they crash EvtGen.
# Will have to fix this eventually !!!
#0.0010 D*0 K+ tau- anti-nu_tau GOITY_ROBERTS;
#0.0010 D*+ K0 tau- anti-nu_tau GOITY_ROBERTS;
#0.0010 D0 K+ tau- anti-nu_tau GOITY_ROBERTS;
#0.0010 D+ K0 tau- anti-nu_tau GOITY_ROBERTS;
# fkw 4/28/00 B0B -> TAU D PI0 = 1/2 of TAU D PI+ because of pi0 wave function
# However, the same factor of 1/2 doesn't apply to BSB !!!
#
# fkw 3/28/01 There seem to be no semi-leptonic B to baryon decays in nature.
# I don't pretend to understand why. PDG 2000 has a limit of
# < 3.2e-3 where one might naively expect
# 10% * BR(B->/\c) = 0.1 * (6.4+-1.1)%
#0.0050 anti-nu_e e- ??? Baryon
#0.0050 anti-nu_mu mu- ??? Baryon
#
# b --> c (s c=)
# Sum = 11.44%
# 2-body = 4.72%
# more-body = 6.72%
0.010400000 D_s- D_s+ PHSP; #[Reconstructed PDG2011]
0.0099 D_s*+ D_s- SVS;
0.0099 D_s*- D_s+ SVS;
0.0197 D_s*- D_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# fkw 4/28/00 more states with popped q\bar q.
# The one's here involve only popped and spectator.
# Popping stuff in the cs from the W comes further below.
# The same isospin comment applies here as above in the
# semi-leptonic decays with tau and popped q\bar q.
0.0096 D_s- D+ K0 PHSP;
0.0096 D_s- anti-D0 K+ PHSP;
0.0096 D_s*- D+ K0 PHSP;
0.0096 D_s*- D0 K+ PHSP;
#
0.0024 D_s- D+ pi0 K0 PHSP;
0.0048 D_s- D0 pi+ K0 PHSP;
0.0048 D_s- D+ pi- K+ PHSP;
0.0024 D_s- D0 pi0 K+ PHSP;
#
0.0024 D_s*- D+ pi0 K0 PHSP;
0.0048 D_s*- D0 pi+ K0 PHSP;
0.0048 D_s*- D+ pi- K+ PHSP;
0.0024 D_s*- D0 pi0 K+ PHSP;
#
#
# b --> (c ) (c ) (s )
# Sum = 8.0%
# DDK amplitudes R.A.Briere 10/97
# fkw 4/28/00 these are q\bar q popping that don't involve the spectator
# Bd->Bs just involves switching the c\bar d to c\bar s.
#
0.0150 D_s*+ anti-D*0 K- PHSP;
0.0150 D_s*+ D*- anti-K0 PHSP;
#
0.0050 D_s*+ anti-D0 K- PHSP;
0.0050 D_s*+ D- anti-K0 PHSP;
#
0.0050 D_s+ anti-D*0 K- PHSP;
0.0050 D_s+ D*- anti-K0 PHSP;
#
0.0020 D_s+ anti-D0 K- PHSP;
0.0020 D_s+ D- anti-K0 PHSP;
#
0.0030 D_s*+ anti-D*0 K*- PHSP;
0.0030 D_s*+ D*- anti-K*0 PHSP;
#
0.0050 D_s*+ anti-D0 K*- PHSP;
0.0050 D_s*+ D- anti-K*0 PHSP;
#
0.0025 D_s+ anti-D*0 K*- PHSP;
0.0025 D_s+ D*- anti-K*0 PHSP;
#
0.0025 D_s+ anti-D0 K*- PHSP;
0.0025 D_s+ D- anti-K*0 PHSP;
#
#
# b --> c (d c=)
# Sum = 1.0%
0.0017 D_s- D+ PHSP;
0.0017 D*+ D_s- SVS;
0.0017 D_s*- D+ SVS;
0.0017 D_s*- D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# fkw 4/38/00 more popping at the lower vertex
# but with upper vertex cabbibo suppressed.
0.0007 D- D+ K0 PHSP;
0.0007 D- anti-D0 K+ PHSP;
0.0007 D*- D+ K0 PHSP;
0.0007 D*- D0 K+ PHSP;
#
0.0003 D- D+ pi0 K0 PHSP;
0.0007 D- D0 pi+ K0 PHSP;
0.0003 D- D+ pi- K+ PHSP;
0.0007 D- D0 pi0 K+ PHSP;
#
0.0003 D*- D+ pi0 K0 PHSP;
0.0007 D*- D0 pi+ K0 PHSP;
0.0003 D*- D+ pi- K+ PHSP;
0.0007 D*- D0 pi0 K+ PHSP;
#
# b --> c (s u=)
# exclusive
# Sum = 0.09%
0.00015 D_s*+ K- SVS;
0.000150000 D_s+ K- PHSP; #[Reconstructed PDG2011]
0.00030 D_s*+ K*- SVV_HELAMP 0.228 0.0 0.932 0.0 0.0283 0.0;
0.00030 K*- D_s+ SVS;
#
# fkw 4/28/00 Strategy for charmonium modes:
# Take Bd BR's, replace spectator,
# assume etaprime = 2/3 ss
# and eta = 1/3 ss
#
# Note: Just for kicks I gave the c\bar c decays a small piece that is
# self tagging. See if you can find it. This is already in
# the B0 decays in cleo's version of decay.dec .
#
# B --> (c c=) (s s=)
# 2.65%
# should be: psi = 0.80% CLNS 94/1315 but isn't quite right.
0.00064 J/psi eta' SVS;
0.00032 J/psi eta SVS;
0.001300000 J/psi phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.00008 J/psi K0 SVS;
0.00070 J/psi K- K+ PHSP;
0.00070 J/psi anti-K0 K0 PHSP;
0.00070 J/psi anti-K0 K+ pi- PHSP;
0.00070 J/psi anti-K0 K0 pi0 PHSP;
0.00070 J/psi K- K+ pi0 PHSP;
# LHCb PR 04/02/04 Add (cc) phi n pi(+/0)
0.00039 J/psi phi pi+ pi- PHSP;
0.00039 J/psi phi pi0 pi0 PHSP;
# LHCb PR add (cc) phi eta(') + npi see CDF QQ
0.0002 J/psi eta pi+ pi- PHSP;
0.0002 J/psi eta pi0 pi0 PHSP;
0.0004 J/psi eta' pi+ pi- PHSP;
0.0004 J/psi eta' pi0 pi0 PHSP;
0.0002 J/psi pi+ pi- PHSP;
0.0002 J/psi pi0 pi0 PHSP;
# psi' = 0.34% CLNS 94/1315
#
0.000465 psi(2S) eta' SVS;
0.000235 psi(2S) eta SVS;
0.000680000 psi(2S) phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.0003 psi(2S) K- K+ PHSP;
0.0003 psi(2S) anti-K0 K0 PHSP;
0.0003 psi(2S) anti-K0 K+ pi- PHSP;
0.0003 psi(2S) anti-K0 K0 pi0 PHSP;
0.0003 psi(2S) K- K+ pi0 PHSP;
0.00034 psi(2S) phi pi+ pi- PHSP;
0.00034 psi(2S) phi pi0 pi0 PHSP;
0.0002 psi(2S) eta pi+ pi- PHSP;
0.0002 psi(2S) eta pi0 pi0 PHSP;
0.0004 psi(2S) eta' pi+ pi- PHSP;
0.0004 psi(2S) eta' pi0 pi0 PHSP;
0.0002 psi(2S) pi+ pi- PHSP;
0.0002 psi(2S) pi0 pi0 PHSP;
#
# chic0 = 0.05% (20% of chic2)
# Bodwin et.al. Phys Rev D46 1992
0.00010 chi_c0 eta' PHSP;
0.00005 chi_c0 eta PHSP;
0.00020 phi chi_c0 SVS;
0.00003 chi_c0 K- K+ PHSP;
0.00003 chi_c0 anti-K0 K0 PHSP;
0.00003 chi_c0 anti-K0 K+ pi- PHSP;
0.00003 chi_c0 anti-K0 K0 pi0 PHSP;
0.00003 chi_c0 K- K+ pi0 PHSP;
#
#
# chic1 = 0.37% CLNS 94/1315
0.0007 chi_c1 eta' SVS;
0.0003 chi_c1 eta SVS;
0.0014 chi_c1 phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00026 chi_c1 K- K+ PHSP;
0.00026 chi_c1 anti-K0 K0 PHSP;
0.00026 chi_c1 anti-K0 K+ pi- PHSP;
0.00026 chi_c1 anti-K0 K0 pi0 PHSP;
0.00026 chi_c1 K- K+ pi0 PHSP;
0.00040 chi_c1 phi pi+ pi- PHSP;
0.00040 chi_c1 phi pi0 pi0 PHSP;
0.0001 chi_c1 eta pi+ pi- PHSP;
0.0001 chi_c1 eta pi0 pi0 PHSP;
0.0002 chi_c1 eta' pi+ pi- PHSP;
0.0002 chi_c1 eta' pi0 pi0 PHSP;
#
#
# chic2 = 0.25% CLNS 94/1315
0.000465 chi_c2 eta' STS;
0.000235 chi_c2 eta STS;
#0.0010 chi_c2 phi STV; whb: model doesn't exist!
0.00016 chi_c2 K- K+ PHSP;
0.00016 chi_c2 anti-K0 K0 PHSP;
0.00016 chi_c2 anti-K0 K+ pi- PHSP;
0.00016 chi_c2 anti-K0 K0 pi0 PHSP;
0.00016 chi_c2 K- K+ pi0 PHSP;
#
#
# etac(1s) = 0.41% Guess: CBX 97-65
#
0.0008 eta_c eta' PHSP;
0.0004 eta_c eta PHSP;
0.0015 phi eta_c SVS;
0.00028 eta_c K- K+ PHSP;
0.00028 eta_c anti-K0 K0 PHSP;
0.00028 eta_c anti-K0 K+ pi- PHSP;
0.00028 eta_c anti-K0 K0 pi0 PHSP;
0.00028 eta_c K- K+ pi0 PHSP;
0.00040 eta_c phi pi+ pi- PHSP;
0.00040 eta_c phi pi0 pi0 PHSP;
0.0001 eta_c eta pi+ pi- PHSP;
0.0001 eta_c eta pi0 pi0 PHSP;
0.0002 eta_c eta' pi+ pi- PHSP;
0.0002 eta_c eta' pi0 pi0 PHSP;
#
#
# etac(2s) = 0.18% Guess: CBX 97-65
0.0004 eta_c(2S) eta' PHSP;
0.0002 eta_c(2S) eta PHSP;
0.0006 phi eta_c(2S) SVS;
0.00012 eta_c(2S) K- K+ PHSP;
0.00012 eta_c(2S) anti-K0 K0 PHSP;
0.00012 eta_c(2S) anti-K0 K+ pi- PHSP;
0.00012 eta_c(2S) anti-K0 K0 pi0 PHSP;
0.00012 eta_c(2S) K- K+ pi0 PHSP;
#
#
# hc = 0.25% (100% of chic2)
# Bodwin et.al. Phys Rev D46 1992
#
0.000465 h_c eta' SVS;
0.000235 h_c eta SVS;
0.0010 h_c phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00016 h_c K- K+ PHSP;
0.00016 h_c anti-K0 K0 PHSP;
0.00016 h_c anti-K0 K+ pi- PHSP;
0.00016 h_c anti-K0 K0 pi0 PHSP;
0.00016 h_c K- K+ pi0 PHSP;
#
#
# b --> c (d u=)
# Exclusive Channels = 6.33%
# fkw 4/28/00 I rearanged this a bit after copying it from
# B0B decay list.
#
# first come the external W-emission decays:
#
0.0008 D_s1+ pi- SVS;
0.0021 D_s1+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0013 D_s2*+ pi- STS;
#0.0037 D_s2*+ rho- STV; # whb: model doesn't exist
#
0.0027 D_s*+ pi- SVS;
0.003200000 D_s+ pi- PHSP; #[Reconstructed PDG2011]
0.0073 rho- D_s+ SVS;
0.0070 D_s*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.0085 a_1- D_s+ SVS;
0.0009 D_s+ rho0 pi- PHSP;
0.0009 D_s+ rho- pi0 PHSP;
0.008400000 D_s+ pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.0009 D_s+ pi0 pi- pi0 PHSP;
#
0.0122 D_s*+ a_1- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0010 D_s*+ rho0 pi- PHSP;
0.0010 D_s*+ rho- pi0 PHSP;
0.0077 D_s*+ pi+ pi- pi- PHSP;
0.0010 D_s*+ pi0 pi- pi0 PHSP;
#
# then the color suppressed decays:
#
# fkw 4/28/00 color suppressed modes bumped up by factor 2 from isospin
# i.e. Bs doesn't have the factor 2 suppression Bd has.
0.0002 D*0 K0 SVS;
0.0002 D0 K0 PHSP;
0.0002 K*0 D0 SVS;
0.0002 D*0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# PR LHCb Add p pbar mode
0.000000001 p+ anti-p- PHSP;
# fkw 4/28/00 ignore the internal W emission decays with additional
# q\bar q popping.
#
# Here come the various types of "inclusive unknown" decays:
#
# Start with B to baryons:
# fkw 3/28/01 I don't know what I'm doing here!!! This needs to be checked!!!
# Mark Whitehead 30/4/2010 Weighted PYHTIA to get total BF = 100%
0.019574780 cs_0 anti-ud_0 PYTHIA 63;
0.039129957 cs_1 anti-ud_1 PYTHIA 63;
#
# Next come external W-emission:
0.301256716 anti-u d c anti-s PYTHIA 23;
0.048443906 anti-u d c anti-s PYTHIA 65;
# Now the internal W-emission:
0.019086636 anti-u c d anti-s PYTHIA 23;
# Then some b->u external W-emission with upper vertex charm
0.003912996 anti-c s u anti-s PYTHIA 23;
# and finally some cabibbo suppressed external and internal W-emission
0.014683536 anti-u s c anti-s PYTHIA 23;
0.002152148 anti-u s c anti-s PYTHIA 65;
0.000880424 anti-u c s anti-s PYTHIA 23;
# and some c cbar d stuff as well as c cbar s
0.005391151 anti-c d c anti-s PYTHIA 43;
0.001468354 anti-c d c anti-s PYTHIA 43;
# and some miscellaneous charmless stuff
0.003521696 anti-u u d anti-s PYTHIA 23;
0.000684774 anti-d d d anti-s PYTHIA 23;
0.000880424 anti-s s d anti-s PYTHIA 23;
0.001956498 anti-u u s anti-s PYTHIA 23;
0.001565198 anti-d d s anti-s PYTHIA 23;
0.001271724 anti-s s s anti-s PYTHIA 23;
0.004891245 s anti-s PYTHIA 91;
# fkw 5/10/00 the b->ulnu decays are loosely modelled according to B0 in EvtGen
-0.000200 K+ e- anti-nu_e PHOTOS ISGW2;
-0.000300 K*+ e- anti-nu_e PHOTOS ISGW2;
-0.000300 K_1+ e- anti-nu_e PHOTOS ISGW2;
-0.000200 K'_1+ e- anti-nu_e PHOTOS ISGW2;
+0.000200 K+ e- anti-nu_e FSR ISGW2;
+0.000300 K*+ e- anti-nu_e FSR ISGW2;
+0.000300 K_1+ e- anti-nu_e FSR ISGW2;
+0.000200 K'_1+ e- anti-nu_e FSR ISGW2;
#
#
-0.000200 K+ mu- anti-nu_mu PHOTOS ISGW2;
-0.000300 K*+ mu- anti-nu_mu PHOTOS ISGW2;
-0.000300 K_1+ mu- anti-nu_mu PHOTOS ISGW2;
-0.000200 K'_1+ mu- anti-nu_mu PHOTOS ISGW2;
+0.000200 K+ mu- anti-nu_mu FSR ISGW2;
+0.000300 K*+ mu- anti-nu_mu FSR ISGW2;
+0.000300 K_1+ mu- anti-nu_mu FSR ISGW2;
+0.000200 K'_1+ mu- anti-nu_mu FSR ISGW2;
# -------------
# 2e-3 for charmless semi-leptonic
#***********************************************************
#
# fkw 5/10/00
#
# ideas behind these (largely) made up Br's for charmless
# hadronic B decays:
# (1) any PP and PV modes that are used or calculated
# in globfit code by Hou,Smith,Wuerthwein are taken from
# the latest fit i.e. May2000
# (2) anything else is from Ali,Kramer,Lue
#
# None of this should be taken too serious!
#
#***********************************************************
# Mark Whitehead 30/4/2010 Updated K+K-
# PR LHCb 04/07/04 update BR
0.000033000 K- K+ PHSP; #[Reconstructed PDG2011]
# PR LHCb 04/07/04 split into KS/KL
0.0000000 anti-K0 K0 PHSP;
0.0000100 K_S0 K_S0 PHSP;
0.0000100 K_L0 K_L0 PHSP;
# PR LHCb 04/07/04 update BR
0.000004900 pi- K+ PHSP; #[Reconstructed PDG2011]
0.0000002 pi0 K0 PHSP;
# PR LHCb 04/07/04 add Bs->pi+ pi-
0.00000001 pi+ pi- PHSP;
#
0.0000012 omega eta SVS;
0.0000025 omega eta' SVS;
0.0000013 phi eta SVS;
0.0000025 phi eta' SVS;
0.00000008 omega anti-K0 SVS;
0.000000002 phi anti-K0 SVS;
#
#next is just twice PI- RHO0
0.0000250 K*+ pi- SVS;
0.0000120 rho- K+ SVS;
0.00000002 rho0 K0 SVS;
0.00000002 K*0 pi0 SVS;
#
0.0000046 K*- K+ SVS;
# PR LHCb 04/07/04 Split into KS/KL
0.0000000 anti-K*0 K0 SVS;
0.0000020 anti-K*0 K_S0 SVS;
0.0000020 anti-K*0 K_L0 SVS;
0.0000082 K*+ K- SVS;
# PR LHCb 04/07/04 Split into KS/KL
0.0000000 K*0 anti-K0 SVS;
0.0000020 K*0 K_S0 SVS;
0.0000020 K*0 K_L0 SVS;
#
0.0000580 eta' eta' PHSP;
0.0000250 eta' eta PHSP;
0.0000040 eta eta PHSP;
#### Already included above 0.0000200 phi eta SVS;
#### Already included above 0.0000100 phi eta' SVS;
#
#next comes stuff from Ali,Kramer,Lue PRD58, 094009 FOR NC=3
0.00000007 K0 eta' PHSP;
0.00000023 K0 eta PHSP;
0.000000021 K*0 eta' SVS;
0.00000007 K*0 eta SVS;
#
#next comes stuff from Ali,Kramer,Lue PRD58, 094009 FOR NC=3
# for vector-vector final states
0.000020 rho- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0000008 rho0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.000000005 omega K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.000006 K*- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
# PR LHCb 04/07/04 Update BR
0.000004 anti-K*0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.000014000 phi phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000000004 phi K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# decays that go via b->d penguins
#### Already included above 0.0000004 phi K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
# PR LHCb : add Bs -> mu+ mu-
0.0000000035 mu- mu+ PHSP;
#PR LHCb 04/08/2004 add Bs -> tau+ tau- (BR not to take too seriously)
0.0000000020 tau- tau+ PHSP;
# PR LHCb 04/05/2004 : add Bs -> phi gamma
0.000057000 phi gamma SVP_HELAMP 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
# PR LHCb 04/08/2004 : add Bs -> phi mu mu, phi e e
0.0000023 phi e- e+ BTOSLLALI;
0.0000023 phi mu- mu+ BTOSLLALI;
# PR LHCb 16 apr 2004 : add Bs -> gamma gamma
0.0000005 gamma gamma PHSP;
#--------------
# 257.122e-6 for all the charmless hadronic
#
0.000150000 D_s- K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
# B_s decays.
# -------------------------------------------------------
# whb&fkw 3/28/01 Taken from fkw's QQ tables.
# most dubious part are the B to baryons.
# fkw 4/28/00 made the Bs parallel to the Bd as best as I could
# -------------------------------------------------------
Decay B_s0
-0.0210 D_s- e+ nu_e PHOTOS HQET2 1.185 1.081;
-0.0490 D_s*- e+ nu_e PHOTOS HQET2 1.207 0.920 1.406 0.853;
-0.0040 D_s1- e+ nu_e PHOTOS ISGW2;
-0.0040 D_s0*- e+ nu_e PHOTOS ISGW2;
-0.0070 D'_s1- e+ nu_e PHOTOS ISGW2;
-0.0070 D_s2*- e+ nu_e PHOTOS ISGW2;
-0.0210 D_s- mu+ nu_mu PHOTOS HQET2 1.185 1.081;
-0.0490 D_s*- mu+ nu_mu PHOTOS HQET2 1.207 0.920 1.406 0.853;
-0.0040 D_s1- mu+ nu_mu PHOTOS ISGW2;
-0.0040 D_s0*- mu+ nu_mu PHOTOS ISGW2;
-0.0070 D'_s1- mu+ nu_mu PHOTOS ISGW2;
-0.0070 D_s2*- mu+ nu_mu PHOTOS ISGW2;
+0.0210 D_s- e+ nu_e FSR HQET2 1.185 1.081;
+0.0490 D_s*- e+ nu_e FSR HQET2 1.207 0.920 1.406 0.853;
+0.0040 D_s1- e+ nu_e FSR ISGW2;
+0.0040 D_s0*- e+ nu_e FSR ISGW2;
+0.0070 D'_s1- e+ nu_e FSR ISGW2;
+0.0070 D_s2*- e+ nu_e FSR ISGW2;
+0.0210 D_s- mu+ nu_mu FSR HQET2 1.185 1.081;
+0.0490 D_s*- mu+ nu_mu FSR HQET2 1.207 0.920 1.406 0.853;
+0.0040 D_s1- mu+ nu_mu FSR ISGW2;
+0.0040 D_s0*- mu+ nu_mu FSR ISGW2;
+0.0070 D'_s1- mu+ nu_mu FSR ISGW2;
+0.0070 D_s2*- mu+ nu_mu FSR ISGW2;
#fkw 5/04/01 changed these to account for taking out non-res
#0.0070 D_s- tau+ nu_tau ISGW2;
#0.0150 D_s*- tau+ nu_tau ISGW2;
#0.0013 D_s1- tau+ nu_tau ISGW2;
#0.0013 D_s0*- tau+ nu_tau ISGW2;
#0.0023 D'_s1- tau+ nu_tau ISGW2;
#0.0023 D_s2*- tau+ nu_tau ISGW2;
0.0080 D_s- tau+ nu_tau ISGW2;
0.0160 D_s*- tau+ nu_tau ISGW2;
0.0018 D_s1- tau+ nu_tau ISGW2;
0.0018 D_s0*- tau+ nu_tau ISGW2;
0.0028 D'_s1- tau+ nu_tau ISGW2;
0.0028 D_s2*- tau+ nu_tau ISGW2;
#
# fkw 4/28/00 the next few are decays where a u\bar u or d\bar d is popped
# between the charm quark and the spectator. I can thus not
# just replace a D by a Ds as above when going from Bd to Bs.
#
# fkw 5/04/01 Had to take non-res out because it crashed EvtGen.
#0.0010 anti-D*0 K- tau+ nu_tau GOITY_ROBERTS;
#0.0010 D*- anti-K0 tau+ nu_tau GOITY_ROBERTS;
#0.0010 anti-D0 K- tau+ nu_tau GOITY_ROBERTS;
#0.0010 D- anti-K0 tau+ nu_tau GOITY_ROBERTS;
# fkw 4/28/00 B0 -> TAU D PI0 = 1/2 of TAU D PI- because of pi0 wave function
# However, the same factor of 1/2 doesn't apply to BS0 !!!
# fkw 3/28/01 There seem to be no semi-leptonic B to baryon decays in nature.
# I don't pretend to understand why. PDG 2000 has a limit of
# < 3.2e-3 where one might naively expect
# 10% * BR(B->/\c) = 0.1 * (6.4+-1.1)%
#0.0050 nu_e e+ B-Baryon
#0.0050 nu_mu mu+ B-Baryon
#
# b --> c (s c=)
# Sum = 11.44%
# 2-body = 4.72%
# more-body = 6.72%
0.010400000 D_s- D_s+ PHSP; #[Reconstructed PDG2011]
0.0099 D_s*+ D_s- SVS;
0.0099 D_s*- D_s+ SVS;
0.0197 D_s*- D_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# fkw 4/28/00 more states with popped q\bar q.
# The one's here involve only popped and spectator.
# Popping stuff in the cs from the W comes further below.
# The same isospin comment applies here as above in the
# semi-leptonic decays with tau and popped q\bar q.
0.0096 D_s+ D- anti-K0 PHSP;
0.0096 D_s+ D0 K- PHSP;
0.0096 D_s*+ D- anti-K0 PHSP;
0.0096 D_s*+ anti-D0 K- PHSP;
#
0.0024 D_s+ D- pi0 anti-K0 PHSP;
0.0048 D_s+ anti-D0 pi- anti-K0 PHSP;
0.0048 D_s+ D- pi+ K- PHSP;
0.0024 D_s+ anti-D0 pi0 K- PHSP;
#
0.0024 D_s*+ D- pi0 anti-K0 PHSP;
0.0048 D_s*+ anti-D0 pi- anti-K0 PHSP;
0.0048 D_s*+ D- pi+ K- PHSP;
0.0024 D_s*+ anti-D0 pi0 K- PHSP;
#
#
# b --> (c ) (c ) (s )
# Sum = 8.0%
# DDK amplitudes R.A.Briere 10/97
# fkw 4/28/00 these are q\bar q popping that don't involve the spectator
# Bd->Bs just involves switching the c\bar d to c\bar s.
#
0.0150 D_s*- D*0 K+ PHSP;
0.0150 D_s*- D*+ K0 PHSP;
0.0050 D_s*- D0 K+ PHSP;
0.0050 D_s*- D+ K0 PHSP;
0.0050 D_s- D*0 K+ PHSP;
0.0050 D_s- D*+ K0 PHSP;
0.0020 D_s- D0 K+ PHSP;
0.0020 D_s- D+ K0 PHSP;
0.0030 D_s*- D*0 K*+ PHSP;
0.0030 D_s*- D*+ K*0 PHSP;
0.0050 D_s*- D0 K*+ PHSP;
0.0050 D_s*- D+ K*0 PHSP;
0.0025 D_s- D*0 K*+ PHSP;
0.0025 D_s- D*+ K*0 PHSP;
0.0025 D_s- D0 K*+ PHSP;
0.0025 D_s- D+ K*0 PHSP;
#
#
# b --> c (d c=)
# Sum = 1.36%
0.0017 D_s+ D- PHSP;
0.0017 D*- D_s+ SVS;
0.0017 D_s*+ D- SVS;
0.0017 D_s*+ D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# fkw 4/38/00 more popping at the lower vertex
# but with upper vertex cabbibo suppressed.
0.0007 D+ D- anti-K0 PHSP;
0.0007 D+ D0 K- PHSP;
0.0007 D*+ D- anti-K0 PHSP;
0.0007 D*+ anti-D0 K- PHSP;
#
0.0003 D+ D- pi0 anti-K0 PHSP;
0.0007 D+ anti-D0 pi- anti-K0 PHSP;
0.0003 D+ D- pi+ K- PHSP;
0.0007 D+ anti-D0 pi0 K- PHSP;
#
0.0003 D*+ D- pi0 anti-K0 PHSP;
0.0007 D*+ anti-D0 pi- anti-K0 PHSP;
0.0003 D*+ D- pi+ K- PHSP;
0.0007 D*+ anti-D0 pi0 K- PHSP;
#
# b --> c (u s=)
# exclusive
# Sum = 0.9%
0.00015 D_s*- K+ SVS;
0.000150000 D_s- K+ PHSP; #[Reconstructed PDG2011]
0.00030 D_s*- K*+ SVV_HELAMP 0.0283 0.0 0.932 0.0 0.228 0.0;
0.00030 K*+ D_s- SVS;
#
# fkw 4/28/00 Strategy for charmonium modes:
# Take Bd BR's, replace spectator,
# assume etaprime = 2/3 ss
# and eta = 1/3 ss
#
# Note: Just for kicks I gave the c\bar c decays a small piece that is
# self tagging. See if you can find it. This is already in
# the B0 decays in cleo's version of decay.dec .
#
# B --> (c c=) (s s=)
# 2.65%
# should be: psi = 0.80% CLNS 94/1315 but isn't quite right.
0.00064 J/psi eta' SVS;
0.00032 J/psi eta SVS;
0.001300000 J/psi phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.00008 J/psi K0 SVS;
0.00070 J/psi K- K+ PHSP;
0.00070 J/psi anti-K0 K0 PHSP;
0.00070 J/psi K0 K- pi+ PHSP;
0.00070 J/psi anti-K0 K0 pi0 PHSP;
0.00070 J/psi K- K+ pi0 PHSP;
# LHCb PR 04/02/04 Add (cc) phi n pi(+/0)
0.00039 J/psi phi pi+ pi- PHSP;
0.00039 J/psi phi pi0 pi0 PHSP;
# LHCb PR Add (cc) phi eta(') + npi like in CDF QQ
0.0002 J/psi eta pi+ pi- PHSP;
0.0002 J/psi eta pi0 pi0 PHSP;
0.0004 J/psi eta' pi+ pi- PHSP;
0.0004 J/psi eta' pi0 pi0 PHSP;
0.0002 J/psi pi+ pi- PHSP;
0.0002 J/psi pi0 pi0 PHSP;
# psi' = 0.34% CLNS 94/1315
0.000465 psi(2S) eta' SVS;
0.000235 psi(2S) eta SVS;
0.000680000 psi(2S) phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.0003 psi(2S) K- K+ PHSP;
0.0003 psi(2S) anti-K0 K0 PHSP;
0.0003 psi(2S) K0 K- pi+ PHSP;
0.0003 psi(2S) anti-K0 K0 pi0 PHSP;
0.0003 psi(2S) K- K+ pi0 PHSP;
0.00034 psi(2S) phi pi+ pi- PHSP;
0.00034 psi(2S) phi pi0 pi0 PHSP;
0.0002 psi(2S) eta pi+ pi- PHSP;
0.0002 psi(2S) eta pi0 pi0 PHSP;
0.0004 psi(2S) eta' pi+ pi- PHSP;
0.0004 psi(2S) eta' pi0 pi0 PHSP;
0.0002 psi(2S) pi+ pi- PHSP;
0.0002 psi(2S) pi0 pi0 PHSP;
#
# chic0 = 0.05% (20% of chic2)
# Bodwin et.al. Phys Rev D46 1992
0.00010 chi_c0 eta' PHSP;
0.00005 chi_c0 eta PHSP;
0.00020 phi chi_c0 SVS;
0.00003 chi_c0 K- K+ PHSP;
0.00003 chi_c0 anti-K0 K0 PHSP;
0.00003 chi_c0 K0 K- pi+ PHSP;
0.00003 chi_c0 anti-K0 K0 pi0 PHSP;
0.00003 chi_c0 K- K+ pi0 PHSP;
#
#
# chic1 = 0.37% CLNS 94/1315
0.0007 chi_c1 eta' SVS;
0.0003 chi_c1 eta SVS;
0.0014 chi_c1 phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00026 chi_c1 K- K+ PHSP;
0.00026 chi_c1 anti-K0 K0 PHSP;
0.00026 chi_c1 K0 K- pi+ PHSP;
0.00026 chi_c1 anti-K0 K0 pi0 PHSP;
0.00026 chi_c1 K- K+ pi0 PHSP;
0.00040 chi_c1 phi pi+ pi- PHSP;
0.00040 chi_c1 phi pi0 pi0 PHSP;
0.0001 chi_c1 eta pi+ pi- PHSP;
0.0001 chi_c1 eta pi0 pi0 PHSP;
0.0002 chi_c1 eta' pi+ pi- PHSP;
0.0002 chi_c1 eta' pi0 pi0 PHSP;
#
#
# chic2 = 0.25% CLNS 94/1315
0.000465 chi_c2 eta' STS;
0.000235 chi_c2 eta STS;
#0.0010 chi_c2 phi STV; whb: doesn't exist
0.00016 chi_c2 K- K+ PHSP;
0.00016 chi_c2 anti-K0 K0 PHSP;
0.00016 chi_c2 K0 K- pi+ PHSP;
0.00016 chi_c2 anti-K0 K0 pi0 PHSP;
0.00016 chi_c2 K- K+ pi0 PHSP;
#
#
# etac(1s) = 0.41% Guess: CBX 97-65
0.0008 eta_c eta' PHSP;
0.0004 eta_c eta PHSP;
0.0015 phi eta_c SVS;
0.00028 eta_c K- K+ PHSP;
0.00028 eta_c K0 anti-K0 PHSP;
0.00028 eta_c K0 K- pi+ PHSP;
0.00028 eta_c K0 anti-K0 pi0 PHSP;
0.00028 eta_c K- K+ pi0 PHSP;
0.00040 eta_c phi pi+ pi- PHSP;
0.00040 eta_c phi pi0 pi0 PHSP;
0.0001 eta_c eta pi+ pi- PHSP;
0.0001 eta_c eta pi0 pi0 PHSP;
0.0002 eta_c eta' pi+ pi- PHSP;
0.0002 eta_c eta' pi0 pi0 PHSP;
#
#
# etac(2s) = 0.18% Guess: CBX 97-65
0.0004 eta_c(2S) eta' PHSP;
0.0002 eta_c(2S) eta PHSP;
0.0006 phi eta_c(2S) SVS;
0.00012 eta_c(2S) K- K+ PHSP;
0.00012 eta_c(2S) anti-K0 K0 PHSP;
0.00012 eta_c(2S) K0 K- pi+ PHSP;
0.00012 eta_c(2S) anti-K0 K0 pi0 PHSP;
0.00012 eta_c(2S) K- K+ pi0 PHSP;
#
#
# hc = 0.25% (100% of chic2)
# Bodwin et.al. Phys Rev D46 1992
0.000465 h_c eta' SVS;
0.000235 h_c eta SVS;
0.0010 h_c phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00016 h_c K- K+ PHSP;
0.00016 h_c anti-K0 K0 PHSP;
0.00016 h_c K0 K- pi+ PHSP;
0.00016 h_c anti-K0 K0 pi0 PHSP;
0.00016 h_c K- K+ pi0 PHSP;
#
#
# b --> c (d u=)
# Exclusive Channels = 6.33%
# fkw 4/28/00 I rearanged this a bit after copying it from
# B0B decay list.
#
# first come the external W-emission decays:
#
0.0008 D_s1- pi+ SVS;
0.0021 D_s1- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0013 D_s2*- pi+ STS;
#0.0037 D_s2*- rho+ STV; #whb: STV does not exist yet
#
0.0027 D_s*- pi+ SVS;
0.003200000 D_s- pi+ PHSP; #[Reconstructed PDG2011]
0.0073 rho+ D_s- SVS;
0.0070 D_s*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.0085 a_1+ D_s- SVS;
0.0009 D_s- rho0 pi+ PHSP;
0.0009 D_s- rho+ pi0 PHSP;
0.008400000 D_s- pi- pi+ pi+ PHSP; #[Reconstructed PDG2011]
0.0009 D_s- pi0 pi+ pi0 PHSP;
#
0.0122 D_s*- a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0010 D_s*- rho0 pi+ PHSP;
0.0010 D_s*- rho+ pi0 PHSP;
0.0077 D_s*- pi- pi+ pi+ PHSP;
0.0010 D_s*- pi0 pi+ pi0 PHSP;
#
# then the color suppressed decays:
#
# fkw 4/28/00 color suppressed modes bumped up by factor 2 from isospin
# i.e. Bs doesn't have the factor 2 suppression Bd has.
0.0002 anti-D*0 anti-K0 SVS;
0.0002 anti-D0 anti-K0 PHSP;
0.0002 anti-K*0 anti-D0 SVS;
0.0002 anti-D*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# PR LHCb : add p ppbar mode
0.000000001 p+ anti-p- PHSP;
# fkw 4/28/00 ignore the internal W emission decays with additional
# q\bar q popping.
#
# Here come the various types of "inclusive unknown" decays:
#
# Start with B to baryons:
# fkw 3/28/01 I don't know what I'm doing here!!! This needs to be checked!!!
# Mark Whitehead 30/4/2010 Weight PYTHIA to get Total BF=100%
0.019574780 anti-cs_0 ud_0 PYTHIA 63;
0.039129957 anti-cs_1 ud_1 PYTHIA 63;
#
# Next come external W-emission:
0.301256716 u anti-d anti-c s PYTHIA 23;
0.048443906 u anti-d anti-c s PYTHIA 65;
# Now the internal W-emission:
0.019086636 u anti-c anti-d s PYTHIA 23;
# Then some b->u external W-emission with upper vertex charm
0.003912996 c anti-s anti-u s PYTHIA 23;
# and finally some cabibbo suppressed external and internal W-emission
0.014683536 u anti-s anti-c s PYTHIA 23;
0.002152148 u anti-s anti-c s PYTHIA 65;
0.000880424 u anti-c anti-s s PYTHIA 23;
# and some c cbar d stuff as well as c cbar s
0.005391151 c anti-d anti-c s PYTHIA 43;
0.001468354 c anti-d anti-c s PYTHIA 43;
# and some miscellaneous charmless stuff
0.003521696 u anti-u anti-d s PYTHIA 23;
0.000684774 d anti-d anti-d s PYTHIA 23;
0.000880424 s anti-s anti-d s PYTHIA 23;
0.001956498 u anti-u anti-s s PYTHIA 23;
0.001565198 d anti-d anti-s s PYTHIA 23;
0.001271724 s anti-s anti-s s PYTHIA 23;
0.004891245 anti-s s PYTHIA 91;
# fkw 5/10/00 the b->ulnu decays are loosely modelled according to B0 in EvtGen
-0.000200 K- e+ nu_e PHOTOS ISGW2;
-0.000300 K*- e+ nu_e PHOTOS ISGW2;
-0.000300 K_1- e+ nu_e PHOTOS ISGW2;
-0.000200 K'_1- e+ nu_e PHOTOS ISGW2;
+0.000200 K- e+ nu_e FSR ISGW2;
+0.000300 K*- e+ nu_e FSR ISGW2;
+0.000300 K_1- e+ nu_e FSR ISGW2;
+0.000200 K'_1- e+ nu_e FSR ISGW2;
#
#
-0.000200 K- mu+ nu_mu PHOTOS ISGW2;
-0.000300 K*- mu+ nu_mu PHOTOS ISGW2;
-0.000300 K_1- mu+ nu_mu PHOTOS ISGW2;
-0.000200 K'_1- mu+ nu_mu PHOTOS ISGW2;
+0.000200 K- mu+ nu_mu FSR ISGW2;
+0.000300 K*- mu+ nu_mu FSR ISGW2;
+0.000300 K_1- mu+ nu_mu FSR ISGW2;
+0.000200 K'_1- mu+ nu_mu FSR ISGW2;
# -------------
# 2e-3 for charmless semi-leptonic
#***********************************************************
#
# fkw 5/10/00
#
# ideas behind these (largely) made up Br's for charmless
# hadronic B decays:
# (1) any PP and PV modes that are used or calculated
# in globfit code by Hou,Smith,Wuerthwein are taken from
# the latest fit i.e. May2000
# (2) anything else is from Ali,Kramer,Lue
#
# None of this should be taken too serious!
#
#***********************************************************
# Mark Whitehead 30/4/2010 Update K+K-
# PR LHCb update Br Bs -> K- K+
0.000033000 K- K+ PHSP; #[Reconstructed PDG2011]
# PR LHCb 4/07/04 Split in KS/KL
0.0000000 anti-K0 K0 PHSP;
0.0000100 K_S0 K_S0 PHSP;
0.0000100 K_L0 K_L0 PHSP;
#
0.000004900 pi+ K- PHSP; #[Reconstructed PDG2011]
0.0000002 pi0 anti-K0 PHSP;
# PR LHCb 4/07/04 add Bs -> pi+ pi-
0.00000001 pi+ pi- PHSP;
#
0.0000012 omega eta SVS;
0.0000025 omega eta' SVS;
0.0000013 phi eta SVS;
0.0000025 phi eta' SVS;
0.00000008 omega K0 SVS;
0.000000002 phi K0 SVS;
#
0.0000250 K*- pi+ SVS;
0.0000120 rho+ K- SVS;
0.00000002 rho0 K0 SVS;
0.00000002 anti-K*0 pi0 SVS;
#
0.0000046 K*+ K- SVS;
# PR LHCb 4/07/04 split in KS/KL
0.0000000 K*0 anti-K0 SVS;
0.0000020 K*0 K_S0 SVS;
0.0000020 K*0 K_L0 SVS;
0.0000082 K*- K+ SVS;
# PR LHCb 4/07/04 split in KS/KL
0.0000000 anti-K*0 K0 SVS;
0.0000020 anti-K*0 K_S0 SVS;
0.0000020 anti-K*0 K_L0 SVS;
#
0.0000580 eta' eta' PHSP;
0.0000250 eta' eta PHSP;
0.0000040 eta eta PHSP;
### Already included above 0.0000200 phi eta SVS;
### Already included above 0.0000100 phi eta' SVS;
#
#next comes stuff from Ali,Kramer,Lue PRD58, 094009 FOR NC=3
0.00000007 anti-K0 eta' PHSP;
0.00000023 anti-K0 eta PHSP;
0.000000021 anti-K*0 eta' SVS;
0.00000007 anti-K*0 eta SVS;
#
#next comes stuff from Ali,Kramer,Lue PRD58, 094009 FOR NC=3
# for vector-vector final states
0.000020 rho+ K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0000008 rho0 anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.000000005 omega anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.000006 K*- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
# PR LHCb Update BR
0.000004 anti-K*0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.000014000 phi phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000000004 phi anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# decays that go via b->d penguins
#### Already included above 0.0000004 phi anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#PR LHCb add Bs -> mu+ mu-
0.0000000035 mu+ mu- PHSP;
#PR LHCb 04/08/2004 add Bs -> tau+ tau- (BR not to take too seriously)
0.0000000020 tau+ tau- PHSP;
# PR LHCb 04/05/2004 : add Bs -> phi gamma
0.000057000 phi gamma SVP_HELAMP 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
# PR LHCb 04/08/2004 : add Bs -> phi mu mu, phi e e
0.0000023 phi e+ e- BTOSLLALI;
0.0000023 phi mu+ mu- BTOSLLALI;
# PR LHCb 16 Apr 2004 : add Bs -> gamma gamma
0.0000005 gamma gamma PHSP;
#--------------
# 257.122e-6 for all the charmless hadronic
#
0.000150000 D_s+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
# whb: QQ B_c included- Near end of File
#Decay B_c-
#CHANNEL 0 0.0700 TAU- NUTB
#CHANNEL 1 0.1100 NUEB E- *CC*
#CHANNEL 1 0.1100 NUMB MU- *CC*
#CHANNEL 1 0.0300 NUTB TAU- *CC*
#CHANNEL 0 0.3400 *DU* *CC*
#CHANNEL 0 0.0700 *SC* *CC*
#CHANNEL 0 0.2700 *SC*
#0.0700 tau- anti-nu_tau PHSP;
#0.1100 anti-nu_e e- *CC* Simpleleptonic;
#0.1100 anti-nu_mu mu- *CC* Simple leptonic;
#0.0300 anti-nu_tau tau- *CC* Simple leptonic;
#0.3400 *DU* *CC* PHSP;
#0.0700 *SC* *CC* PHSP;
#0.2700 *SC* PHSP;
#Enddecay
#
#Decay B_c+
#CHANNEL 0 0.0700 TAU+ NUT
#CHANNEL 1 0.1100 NUE E+ *CC*
#CHANNEL 1 0.1100 NUM MU+ *CC*
#CHANNEL 1 0.0300 NUT TAU+ *CC*
#CHANNEL 0 0.3400 *UD* *CC*
#CHANNEL 0 0.0700 *CS* *CC*
#CHANNEL 0 0.2700 *CS*
#0.0700 tau+ nu_tau PHSP;
#0.1100 nu_e E+ *CC* Simple leptonic;
#0.1100 nu_mu mu+ *CC* Simple leptonic;
#0.0300 nu_tau tau+ *CC* Simple leptonic;
#0.3400 *UD* *CC* PHSP;
#0.0700 *CS* *CC* PHSP;
#0.2700 *CS* PHSP;
#Enddecay
#
# Updated to PDG 2008
#
Decay tau-
-0.154002925 e- anti-nu_e nu_tau PHOTOS TAULNUNU; #[Reconstructed PDG2011]
-0.170000000 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; #[Reconstructed PDG2011]
+0.154002925 e- anti-nu_e nu_tau FSR TAULNUNU; #[Reconstructed PDG2011]
+0.170000000 mu- anti-nu_mu nu_tau FSR TAULNUNU; #[Reconstructed PDG2011]
0.109100000 pi- nu_tau TAUSCALARNU; #[Reconstructed PDG2011]
0.006960000 K- nu_tau TAUSCALARNU; #[Reconstructed PDG2011]
0.255100000 pi- pi0 nu_tau TAUHADNU -0.108 0.775 0.149 1.364 0.400; #[Reconstructed PDG2011]
0.001124109 nu_tau gamma pi- pi0 PYTHIA 21;
0.079301562 pi0 pi0 pi- nu_tau TAUHADNU -0.108 0.775 0.149 1.364 0.400 1.23 0.4; #[Reconstructed PDG2011]
0.000385656 nu_tau K- pi0 pi0 PYTHIA 21;
0.008508640 nu_tau pi- pi0 pi0 pi0 PYTHIA 21;
0.000864699 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
#0.2515 rho- nu_tau TAUVECTORNU;
#0.1790 a_1- nu_tau TAUVECTORNU;
# Modes with K0s
#
0.000319939 nu_tau pi- anti-K0 PYTHIA 21;
0.001590000 nu_tau K- K0 PYTHIA 21;
0.001700000 nu_tau K0 pi- anti-K0 PYTHIA 21;
0.001590000 nu_tau K- pi0 K0 PYTHIA 21;
0.004000000 nu_tau pi- anti-K0 pi0 PYTHIA 21;
# 3 Charged Particles
#
0.093200000 pi- pi- pi+ nu_tau TAUHADNU -0.108 0.775 0.149 1.364 0.400 1.23 0.4; #[Reconstructed PDG2011]
0.046100000 nu_tau pi- pi+ pi- pi0 PYTHIA 21;
0.000501526 nu_tau pi- pi- pi+ pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.000155646 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.003420000 nu_tau K- pi+ pi- PYTHIA 21;
0.001360000 nu_tau K- pi+ pi- pi0 PYTHIA 21;
0.001400000 nu_tau K- pi- K+ PYTHIA 21;
0.000015800 nu_tau K- K+ K- PYTHIA 21;
# 5 Charged Particles
#
0.000700406 nu_tau pi- pi- pi- pi+ pi+ PHSP; #[Reconstructed PDG2011]
0.000129705 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; #[Reconstructed PDG2011]
# Misc other modes
#
0.012000000 K*- nu_tau TAUVECTORNU; #[Reconstructed PDG2011]
0.001390000 nu_tau eta pi- pi0 PYTHIA 21;
0.003199387 nu_tau pi- omega pi0 PYTHIA 21;
0.000410000 nu_tau K- omega PYTHIA 21;
0.002200000 anti-K*0 pi- nu_tau PHSP; #[Reconstructed PDG2011]
0.002100000 K*0 K- nu_tau PHSP; #[Reconstructed PDG2011]
0.000034000 phi pi- nu_tau PHSP; #[Reconstructed PDG2011]
0.000037000 phi K- nu_tau PHSP; #[Reconstructed PDG2011]
0.003600000 mu- anti-nu_mu nu_tau gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.017500000 e- anti-nu_e nu_tau gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.004290000 K- pi0 nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002200000 anti-K0 rho- nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000260000 pi- anti-K0 pi0 pi0 nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000310000 pi- K0 anti-K0 pi0 nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000061000 K- K+ pi- pi0 nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000028000 e- e- e+ anti-nu_e nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.004700000 K_1- nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001700000 K'_1- nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001500000 K'*- nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000150000 eta pi- pi0 pi0 nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000161000 eta K- nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000138000 eta K*- nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000048000 eta K- pi0 nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000093000 eta anti-K0 pi- nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000360000 f_1 pi- nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
CDecay tau+
#
# Vector Mesons Updated PDG 2008
#
Decay D*+
0.6770 D0 pi+ VSS;
0.3070 D+ pi0 VSS;
0.0160 D+ gamma VSP_PWAVE;
Enddecay
Decay D*-
0.6770 anti-D0 pi- VSS;
0.3070 D- pi0 VSS;
0.0160 D- gamma VSP_PWAVE;
Enddecay
Decay D*0
0.619000000 D0 pi0 VSS; #[Reconstructed PDG2011]
0.381000000 D0 gamma VSP_PWAVE; #[Reconstructed PDG2011]
Enddecay
Decay anti-D*0
0.6190 anti-D0 pi0 VSS;
0.3810 anti-D0 gamma VSP_PWAVE;
Enddecay
#
Decay D_s*+
0.942000000 D_s+ gamma VSP_PWAVE; #[Reconstructed PDG2011]
0.058000000 D_s+ pi0 VSS; #[Reconstructed PDG2011]
Enddecay
Decay D_s*-
0.942000000 D_s- gamma VSP_PWAVE; #[Reconstructed PDG2011]
0.058000000 D_s- pi0 VSS; #[Reconstructed PDG2011]
Enddecay
#
#
# D+ Meson
#
Decay D+
-0.055200000 anti-K*0 e+ nu_e PHOTOS ISGW2; # PDG2014
-0.088300000 anti-K0 e+ nu_e PHOTOS ISGW2; # PDG2014
-0.002773020 anti-K_10 e+ nu_e PHOTOS ISGW2; # Keep same as in 2010 version
-0.002927076 anti-K_2*0 e+ nu_e PHOTOS ISGW2; # Keep same as in 2010 version
-0.004050000 pi0 e+ nu_e PHOTOS ISGW2; # PDG2014
-0.001140000 eta e+ nu_e PHOTOS ISGW2; # PDG2014
-0.000220000 eta' e+ nu_e PHOTOS ISGW2; # PDG2014
-0.002180000 rho0 e+ nu_e PHOTOS ISGW2; # PDG2014
-0.001820000 omega e+ nu_e PHOTOS ISGW2; # PDG2014
-0.003321725 K- pi+ e+ nu_e PHOTOS PHSP; # PDG2014 (subtracted K*)+tiny bit to have sum=1
-0.001200122 anti-K0 pi0 e+ nu_e PHOTOS PHSP; # Keep same as in 2010 version+tiny bit to have sum=1
-#
-0.052800000 anti-K*0 mu+ nu_mu PHOTOS ISGW2; # PDG2014
-0.092000000 anti-K0 mu+ nu_mu PHOTOS ISGW2; # PDG2014
-0.002773020 anti-K_10 mu+ nu_mu PHOTOS ISGW2; # Keep same as in 2010 version
-0.002927076 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; # Keep same as in 2010 version
-0.004050000 pi0 mu+ nu_mu PHOTOS ISGW2; # Same as electron
-0.001140000 eta mu+ nu_mu PHOTOS ISGW2; # Same as electron
-0.002200000 eta' mu+ nu_mu PHOTOS ISGW2; # Same as electron
-0.002400000 rho0 mu+ nu_mu PHOTOS ISGW2; # PDG2014
-0.001820000 omega mu+ nu_mu PHOTOS ISGW2; # Same as electron
-0.002921725 K- pi+ mu+ nu_mu PHOTOS PHSP; # PDG2014 (subtracted K*)+tiny bit to have sum=1
-0.001200122 anti-K0 pi0 mu+ nu_mu PHOTOS PHSP; # Keep same as in 2010 version+tiny bit to have sum=1
-#
-#
-0.000382000 mu+ nu_mu PHOTOS SLN; #[Reconstructed PDG2011]
+0.055200000 anti-K*0 e+ nu_e FSR ISGW2; # PDG2014
+0.088300000 anti-K0 e+ nu_e FSR ISGW2; # PDG2014
+0.002773020 anti-K_10 e+ nu_e FSR ISGW2; # Keep same as in 2010 version
+0.002927076 anti-K_2*0 e+ nu_e FSR ISGW2; # Keep same as in 2010 version
+0.004050000 pi0 e+ nu_e FSR ISGW2; # PDG2014
+0.001140000 eta e+ nu_e FSR ISGW2; # PDG2014
+0.000220000 eta' e+ nu_e FSR ISGW2; # PDG2014
+0.002180000 rho0 e+ nu_e FSR ISGW2; # PDG2014
+0.001820000 omega e+ nu_e FSR ISGW2; # PDG2014
+0.003321725 K- pi+ e+ nu_e FSR PHSP; # PDG2014 (subtracted K*)+tiny bit to have sum=1
+0.001200122 anti-K0 pi0 e+ nu_e FSR PHSP; # Keep same as in 2010 version+tiny bit to have sum=1
+#
+0.052800000 anti-K*0 mu+ nu_mu FSR ISGW2; # PDG2014
+0.092000000 anti-K0 mu+ nu_mu FSR ISGW2; # PDG2014
+0.002773020 anti-K_10 mu+ nu_mu FSR ISGW2; # Keep same as in 2010 version
+0.002927076 anti-K_2*0 mu+ nu_mu FSR ISGW2; # Keep same as in 2010 version
+0.004050000 pi0 mu+ nu_mu FSR ISGW2; # Same as electron
+0.001140000 eta mu+ nu_mu FSR ISGW2; # Same as electron
+0.002200000 eta' mu+ nu_mu FSR ISGW2; # Same as electron
+0.002400000 rho0 mu+ nu_mu FSR ISGW2; # PDG2014
+0.001820000 omega mu+ nu_mu FSR ISGW2; # Same as electron
+0.002921725 K- pi+ mu+ nu_mu FSR PHSP; # PDG2014 (subtracted K*)+tiny bit to have sum=1
+0.001200122 anti-K0 pi0 mu+ nu_mu FSR PHSP; # Keep same as in 2010 version+tiny bit to have sum=1
+#
+#
+0.000382000 mu+ nu_mu FSR SLN; #[Reconstructed PDG2011]
0.000770283 tau+ nu_tau SLN; #[Reconstructed PDG2011]
#
0.014900000 K_S0 pi+ PHSP; #[Reconstructed PDG2011]
0.014600000 K_L0 pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 pi+ PHSP; #[Reconstructed PDG2011]
#
0.025950843 a_1+ K_S0 SVS; #[Reconstructed PDG2011]
0.025950843 a_1+ K_L0 SVS; #[Reconstructed PDG2011]
0.000000000 a_1+ anti-K0 SVS; #[Reconstructed PDG2011]
#
0.027090862 anti-K'_10 pi+ SVS; #[Reconstructed PDG2011]
#0.0115 anti-K_0*0N pi+ PHSP;
0.013387523 anti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
#
# the Dalitz mode below includes K*bar(892)0 pi+,
# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances.
0.094000000 K- pi+ pi+ D_DALITZ; #[Reconstructed PDG2011]
# the Dalitz mode below includes K0bar rho+,
# and K*bar(892)0 pi+ resonances
0.069900000 K_S0 pi+ pi0 D_DALITZ; # PDG2014
0.069900000 K_L0 pi+ pi0 D_DALITZ; # Assume to be same as K_S0 pi+ pi0
0.000000000 anti-K0 pi+ pi0 D_DALITZ; #[Reconstructed PDG2011]
#0.0100 anti-K0 eta pi+ PHSP;
#
0.001247859 K_S0 rho0 pi+ PHSP; #[Reconstructed PDG2011]
0.001247859 K_L0 rho0 pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 rho0 pi+ PHSP; #[Reconstructed PDG2011]
#
0.003851416 anti-K0 omega pi+ PHSP; #[Reconstructed PDG2011]
0.007032686 K- rho+ pi+ PHSP; #[Reconstructed PDG2011]
0.009274210 K*- pi+ pi+ PHSP; #[Reconstructed PDG2011]
0.047187552 anti-K*0 pi0 pi+ PHSP; #[Reconstructed PDG2011]
#0.0100 anti-K*0 eta pi+ PHSP;
0.001101505 anti-K*0 rho0 pi+ PHSP; #[Reconstructed PDG2011]
0.003851416 anti-K*0 omega pi+ PHSP; #[Reconstructed PDG2011]
#0.0100 K*- rho+ pi+ PHSP;
#
0.008473116 K- pi+ pi+ pi0 PHSP; #[Reconstructed PDG2011]
#
#0.002472609 K_S0 pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
#0.002472609 K_L0 pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.031200000 K_S0 pi+ pi+ pi- PHSP; # PDG2014 (why it was much smaller?)
0.031200000 K_L0 pi+ pi+ pi- PHSP; # PDG2014
0.000000000 anti-K0 pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
#
#0.0188 anti-K0 pi+ pi0 pi0 PHSP;
0.005700000 K- pi+ pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.003851416 K- pi+ pi+ pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.006701464 anti-K0 pi+ pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.002695991 anti-K0 pi+ pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.004600000 K_S0 K_S0 K+ PHSP; #[Reconstructed PDG2011]
0.003111944 K_L0 K_L0 K+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 anti-K0 K+ PHSP; #[Reconstructed PDG2011]
#
0.004660214 phi pi+ SVS; #[Reconstructed PDG2011]
0.023000000 phi pi+ pi0 PHSP; #[Reconstructed PDG2011]
#
0.002860000 K_S0 K+ PHSP; #[Reconstructed PDG2011]
0.002195307 K_L0 K+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K+ PHSP; #[Reconstructed PDG2011]
#
0.002179902 anti-K*0 K+ SVS; #[Reconstructed PDG2011]
#
0.016000000 K*+ K_S0 SVS; #[Reconstructed PDG2011]
0.011145999 K*+ K_L0 SVS; #[Reconstructed PDG2011]
0.000000000 K*+ anti-K0 SVS; #[Reconstructed PDG2011]
#
#0.0180 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.002826940 K+ K- pi+ PHSP; #[Reconstructed PDG2011]
0.000770283 K+ anti-K0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K0 pi+ PHSP; #[Reconstructed PDG2011]
0.000770283 K*+ K- pi+ PHSP; #[Reconstructed PDG2011]
0.000770283 K+ K*- pi+ PHSP; #[Reconstructed PDG2011]
0.000770283 K*+ anti-K0 pi0 PHSP; #[Reconstructed PDG2011]
0.000770283 K+ anti-K*0 pi0 PHSP; #[Reconstructed PDG2011]
0.000770283 anti-K*0 K0 pi+ PHSP; #[Reconstructed PDG2011]
0.000770283 anti-K0 K*0 pi+ PHSP; #[Reconstructed PDG2011]
#
0.001260000 pi0 pi+ PHSP; #[Reconstructed PDG2011]
0.000830000 rho0 pi+ SVS; #[Reconstructed PDG2011]
0.002440000 pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.004700000 pi+ pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.011600000 pi+ pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.003851416 pi+ pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.003430000 eta pi+ PHSP; #[Reconstructed PDG2011]
0.004400000 eta' pi+ PHSP; #[Reconstructed PDG2011]
0.001380000 eta pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.002310850 eta pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001540566 eta pi+ pi0 pi0 PHSP; #[Reconstructed PDG2011]
#lange jul22,2002
0.001660000 pi+ pi+ pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
#
# March 2009 New Modes
0.009300000 anti-K*0 a_1+ PHSP; #[Reconstructed PDG2011]
0.010545178 K+ K- pi+ pi0 PHSP; #[Reconstructed PDG2011]
#
0.001740000 K+ K_S0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001270967 K+ K_L0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 K+ anti-K0 pi+ pi- PHSP; #[Reconstructed PDG2011]
#
0.002380000 K_S0 K- pi+ pi+ PHSP; #[Reconstructed PDG2011]
0.001756246 K_L0 K- pi+ pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 K0 K- pi+ pi+ PHSP; #[Reconstructed PDG2011]
#
0.000230000 K+ K- pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
#
0.000240000 K+ K- K_S0 pi+ PHSP; #[Reconstructed PDG2011]
0.000161759 K+ K- K_L0 pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 K+ K- anti-K0 pi+ PHSP; #[Reconstructed PDG2011]
# Doubly Cabibbo suppressed modes
0.000237000 K+ pi0 PHSP; #[Reconstructed PDG2011]
0.000332000 K+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000089000 K+ K+ K- PHSP; #[Reconstructed PDG2011]
0.001720000 K- rho0 pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001600000 eta' pi+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000210000 K+ rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
#
Decay D-
-0.055200000 K*0 e- anti-nu_e PHOTOS ISGW2; # PDG2014
-0.088300000 K0 e- anti-nu_e PHOTOS ISGW2; # PDG2014
-0.002773020 K_10 e- anti-nu_e PHOTOS ISGW2; # Keep same as in 2010 version
-0.002927076 K_2*0 e- anti-nu_e PHOTOS ISGW2; # Keep same as in 2010 version
-0.004050000 pi0 e- anti-nu_e PHOTOS ISGW2; # PDG2014
-0.001140000 eta e- anti-nu_e PHOTOS ISGW2; # PDG2014
-0.000220000 eta' e- anti-nu_e PHOTOS ISGW2; # PDG2014
-0.002180000 rho0 e- anti-nu_e PHOTOS ISGW2; # PDG2014
-0.001820000 omega e- anti-nu_e PHOTOS ISGW2; # PDG2014
-0.003321725 K+ pi- e- anti-nu_e PHOTOS PHSP; # PDG2014 (subtracted K*)+tiny bit to have sum=1
-0.001200122 K0 pi0 e- anti-nu_e PHOTOS PHSP; # Keep same as in 2010 version+tiny bit to have sum=1
-#
-0.052800000 K*0 mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.092000000 K0 mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002773020 K_10 mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002927076 K_2*0 mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.004050000 pi0 mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.001140000 eta mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002200000 eta' mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002400000 rho0 mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.001820000 omega mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002921725 K+ pi- mu- anti-nu_mu PHOTOS PHSP; #[Reconstructed PDG2011]
-0.001200122 K0 pi0 mu- anti-nu_mu PHOTOS PHSP; #[Reconstructed PDG2011]
-#
-0.000382000 mu- anti-nu_mu PHOTOS SLN; #[Reconstructed PDG2011]
+0.055200000 K*0 e- anti-nu_e FSR ISGW2; # PDG2014
+0.088300000 K0 e- anti-nu_e FSR ISGW2; # PDG2014
+0.002773020 K_10 e- anti-nu_e FSR ISGW2; # Keep same as in 2010 version
+0.002927076 K_2*0 e- anti-nu_e FSR ISGW2; # Keep same as in 2010 version
+0.004050000 pi0 e- anti-nu_e FSR ISGW2; # PDG2014
+0.001140000 eta e- anti-nu_e FSR ISGW2; # PDG2014
+0.000220000 eta' e- anti-nu_e FSR ISGW2; # PDG2014
+0.002180000 rho0 e- anti-nu_e FSR ISGW2; # PDG2014
+0.001820000 omega e- anti-nu_e FSR ISGW2; # PDG2014
+0.003321725 K+ pi- e- anti-nu_e FSR PHSP; # PDG2014 (subtracted K*)+tiny bit to have sum=1
+0.001200122 K0 pi0 e- anti-nu_e FSR PHSP; # Keep same as in 2010 version+tiny bit to have sum=1
+#
+0.052800000 K*0 mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.092000000 K0 mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002773020 K_10 mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002927076 K_2*0 mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.004050000 pi0 mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.001140000 eta mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002200000 eta' mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002400000 rho0 mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.001820000 omega mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002921725 K+ pi- mu- anti-nu_mu FSR PHSP; #[Reconstructed PDG2011]
+0.001200122 K0 pi0 mu- anti-nu_mu FSR PHSP; #[Reconstructed PDG2011]
+#
+0.000382000 mu- anti-nu_mu FSR SLN; #[Reconstructed PDG2011]
0.000770283 tau- anti-nu_tau SLN; #[Reconstructed PDG2011]
#
0.014900000 K_S0 pi- PHSP; #[Reconstructed PDG2011]
0.014600000 K_L0 pi- PHSP; #[Reconstructed PDG2011]
0.000000000 K0 pi- PHSP; #[Reconstructed PDG2011]
#
0.025950843 a_1- K_S0 SVS; #[Reconstructed PDG2011]
0.025950843 a_1- K_L0 SVS; #[Reconstructed PDG2011]
0.000000000 a_1- K0 SVS; #[Reconstructed PDG2011]
#
0.027090862 K'_10 pi- SVS; #[Reconstructed PDG2011]
#0.0115 K_0*0N pi- PHSP;
0.013387523 K*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
#
# the Dalitz mode below includes K*(892)0 pi-, K*(1430)0 pi-, and K*(1680)0 pi- resonances.
0.094000000 K+ pi- pi- D_DALITZ; #[Reconstructed PDG2011]
# the Dalitz mode below includes K0 rho-, and K*(892)0 pi- resonances.
0.069900000 K_S0 pi- pi0 D_DALITZ; # PDG2014
0.069900000 K_L0 pi- pi0 D_DALITZ; # Assume to be same as K_S0 pi- pi0
0.000000000 K0 pi- pi0 D_DALITZ; #[Reconstructed PDG2011]
#
#0.0100 K0 eta pi- PHSP;
0.001247859 K_S0 rho0 pi- PHSP; #[Reconstructed PDG2011]
0.001247859 K_L0 rho0 pi- PHSP; #[Reconstructed PDG2011]
0.000000000 K0 rho0 pi- PHSP; #[Reconstructed PDG2011]
#
0.003851416 K0 omega pi- PHSP; #[Reconstructed PDG2011]
0.007032686 K+ rho- pi- PHSP; #[Reconstructed PDG2011]
0.009274210 K*+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.047187552 K*0 pi0 pi- PHSP; #[Reconstructed PDG2011]
#0.0100 K*0 eta pi- PHSP;
0.001101505 K*0 rho0 pi- PHSP; #[Reconstructed PDG2011]
0.003851416 K*0 omega pi- PHSP; #[Reconstructed PDG2011]
#0.0100 K*+ rho- pi- PHSP;
#
0.008473116 K+ pi- pi- pi0 PHSP; #[Reconstructed PDG2011]
#
0.031200000 K_S0 pi- pi- pi+ PHSP; # PDG2014 (why it was much smaller?)
0.031200000 K_L0 pi- pi- pi+ PHSP; # PDG2014
0.000000000 K0 pi- pi- pi+ PHSP; #[Reconstructed PDG2011]
#
#0.0188 K0 pi- pi0 pi0 PHSP;
0.005700000 K+ pi- pi- pi- pi+ PHSP; #[Reconstructed PDG2011]
0.003851416 K+ pi- pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.006701464 K0 pi- pi- pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.002695991 K0 pi- pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.004600000 K_S0 K_S0 K- PHSP; #[Reconstructed PDG2011]
0.003111944 K_L0 K_L0 K- PHSP; #[Reconstructed PDG2011]
0.000000000 K0 K0 K- PHSP; #[Reconstructed PDG2011]
#
0.004660214 phi pi- SVS; #[Reconstructed PDG2011]
0.023000000 phi pi- pi0 PHSP; #[Reconstructed PDG2011]
#
0.002860000 K_S0 K- PHSP; #[Reconstructed PDG2011]
0.002195307 K_L0 K- PHSP; #[Reconstructed PDG2011]
0.000000000 K0 K- PHSP; #[Reconstructed PDG2011]
#
0.002179902 K*0 K- SVS; #[Reconstructed PDG2011]
#
0.016000000 K*- K_S0 SVS; #[Reconstructed PDG2011]
0.011145999 K*- K_L0 SVS; #[Reconstructed PDG2011]
0.000000000 K*- K0 SVS; #[Reconstructed PDG2011]
#
#0.0180 K*0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.002826940 K- K+ pi- PHSP; #[Reconstructed PDG2011]
0.000770283 K- K0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K0 pi- PHSP; #[Reconstructed PDG2011]
0.000770283 K*- K+ pi- PHSP; #[Reconstructed PDG2011]
0.000770283 K- K*+ pi- PHSP; #[Reconstructed PDG2011]
0.000770283 K*- K0 pi0 PHSP; #[Reconstructed PDG2011]
0.000770283 K- K*0 pi0 PHSP; #[Reconstructed PDG2011]
0.000770283 K*0 anti-K0 pi- PHSP; #[Reconstructed PDG2011]
0.000770283 K0 anti-K*0 pi- PHSP; #[Reconstructed PDG2011]
#
0.001260000 pi0 pi- PHSP; #[Reconstructed PDG2011]
0.000830000 rho0 pi- SVS; #[Reconstructed PDG2011]
0.002440000 pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.004700000 pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.011600000 pi- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.003851416 pi- pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.003430000 eta pi- PHSP; #[Reconstructed PDG2011]
0.004400000 eta' pi- PHSP; #[Reconstructed PDG2011]
0.001380000 eta pi- pi0 PHSP; #[Reconstructed PDG2011]
0.002310850 eta pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001540566 eta pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
#lange jul22,2002
0.001660000 pi+ pi- pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
#
# March 2009 New Modes
0.009300000 K*0 a_1- PHSP; #[Reconstructed PDG2011]
0.010545178 K+ K- pi- pi0 PHSP; #[Reconstructed PDG2011]
#
0.001740000 K- K_S0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001270967 K- K_L0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 K- K0 pi+ pi- PHSP; #[Reconstructed PDG2011]
#
0.002380000 K_S0 K+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.001756246 K_L0 K+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K+ pi- pi- PHSP; #[Reconstructed PDG2011]
#
0.000230000 K+ K- pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
#
0.000240000 K+ K- K_S0 pi- PHSP; #[Reconstructed PDG2011]
0.000161759 K+ K- K_L0 pi- PHSP; #[Reconstructed PDG2011]
0.000000000 K+ K- K0 pi- PHSP; #[Reconstructed PDG2011]
# Doubly Cabibbo suppressed modes
0.000237000 K- pi0 PHSP; #[Reconstructed PDG2011]
0.000332000 K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000089000 K- K+ K- PHSP; #[Reconstructed PDG2011]
0.001720000 K+ rho0 pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001600000 eta' pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000210000 K- rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay K*BR
1.0000 anti-K0 pi0 VSS;
Enddecay
#
#
Decay D0
# updated according to suggestions by P. Roudeau,
# using PDG2004 measurements and imposing the equality
# of sl partial widths for D+ and D0.
# Include additional decay anti-K0 pi- e+ nu_e , K- pi0 e+ nu_e.
#
-0.021600000 K*- e+ nu_e PHOTOS ISGW2; # PDG2014
-0.035500000 K- e+ nu_e PHOTOS ISGW2; # PDG2014
-0.000760000 K_1- e+ nu_e PHOTOS ISGW2; # PDG2014
-0.001100000 K_2*- e+ nu_e PHOTOS ISGW2; # Small decrease as this is unmeasured
-0.002890000 pi- e+ nu_e PHOTOS ISGW2; # PDG2014
-0.001770000 rho- e+ nu_e PHOTOS ISGW2; # PDG2014
-0.001080000 anti-K0 pi- e+ nu_e PHOTOS PHSP; # PDG2014 subtracting K* (decreased due large uncertaity )
-0.000400000 K- pi0 e+ nu_e PHOTOS PHSP; # PDG2014 subtracting K* (decreased due large uncertaity )
-#
-0.021000000 K*- mu+ nu_mu PHOTOS ISGW2; # 1.1 * PDG2014
-0.034700000 K- mu+ nu_mu PHOTOS ISGW2; # 1.05 * PDG2014
-0.000076000 K_1- mu+ nu_mu PHOTOS ISGW2; # PDG2014 for electron
-0.001100000 K_2*- mu+ nu_mu PHOTOS ISGW2; # copy from electron
-0.002370000 pi- mu+ nu_mu PHOTOS ISGW2; # PDG2014
-0.002015940 rho- mu+ nu_mu PHOTOS ISGW2; # PDG2014 for electron
-0.001080000 anti-K0 pi- mu+ nu_mu PHOTOS PHSP; # copy electron
-0.000400000 K- pi0 mu+ nu_mu PHOTOS PHSP; # copy electron
+0.021600000 K*- e+ nu_e FSR ISGW2; # PDG2014
+0.035500000 K- e+ nu_e FSR ISGW2; # PDG2014
+0.000760000 K_1- e+ nu_e FSR ISGW2; # PDG2014
+0.001100000 K_2*- e+ nu_e FSR ISGW2; # Small decrease as this is unmeasured
+0.002890000 pi- e+ nu_e FSR ISGW2; # PDG2014
+0.001770000 rho- e+ nu_e FSR ISGW2; # PDG2014
+0.001080000 anti-K0 pi- e+ nu_e FSR PHSP; # PDG2014 subtracting K* (decreased due large uncertaity )
+0.000400000 K- pi0 e+ nu_e FSR PHSP; # PDG2014 subtracting K* (decreased due large uncertaity )
+#
+0.021000000 K*- mu+ nu_mu FSR ISGW2; # 1.1 * PDG2014
+0.034700000 K- mu+ nu_mu FSR ISGW2; # 1.05 * PDG2014
+0.000076000 K_1- mu+ nu_mu FSR ISGW2; # PDG2014 for electron
+0.001100000 K_2*- mu+ nu_mu FSR ISGW2; # copy from electron
+0.002370000 pi- mu+ nu_mu FSR ISGW2; # PDG2014
+0.002015940 rho- mu+ nu_mu FSR ISGW2; # PDG2014 for electron
+0.001080000 anti-K0 pi- mu+ nu_mu FSR PHSP; # copy electron
+0.000400000 K- pi0 mu+ nu_mu FSR PHSP; # copy electron
#
0.038900000 K- pi+ PHSP; #[Reconstructed PDG2011]
#
0.012200000 K_S0 pi0 PHSP; #[Reconstructed PDG2011]
0.010000000 K_L0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.004290000 K_S0 eta PHSP; #[Reconstructed PDG2011]
0.003802795 K_L0 eta PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 eta PHSP; #[Reconstructed PDG2011]
#
0.009300000 K_S0 eta' PHSP; #[Reconstructed PDG2011]
0.008980094 K_L0 eta' PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 eta' PHSP; #[Reconstructed PDG2011]
#
0.011100000 omega K_S0 SVS; #[Reconstructed PDG2011]
0.010904400 omega K_L0 SVS; #[Reconstructed PDG2011]
0.000000000 omega anti-K0 SVS; #[Reconstructed PDG2011]
#
0.001603588 anti-K*0 eta SVS; #[Reconstructed PDG2011]
0.000916336 anti-K*0 eta' SVS; #[Reconstructed PDG2011]
0.078000000 a_1+ K- SVS; #[Reconstructed PDG2011]
0.067625607 K*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.015800000 anti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.011000000 anti-K*0 omega SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
# the Dalitz mode below includes K*bar(892)0 pi0,
# K*(892)- pi+, and K- rho(770)+ resonances
0.139000000 K- pi+ pi0 D_DALITZ; #[Reconstructed PDG2011]
0.006634274 K*BR pi0 SVS; #[Reconstructed PDG2011]
0.016000000 K_1- pi+ SVS; #[Reconstructed PDG2011]
0.006505987 anti-K_10 pi0 SVS; #[Reconstructed PDG2011]
#
# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances
# LHCb PR 09 Apr 2004 split into KS/KL
0.029400000 K_S0 pi+ pi- D_DALITZ; #[Reconstructed PDG2011]
0.027856619 K_L0 pi+ pi- D_DALITZ; #[Reconstructed PDG2011]
0.000000000 anti-K0 pi+ pi- D_DALITZ; #[Reconstructed PDG2011]
#
0.008300000 K_S0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.004425904 K_L0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.024000000 anti-K*0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.010629499 anti-K*0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.009163361 K*- pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.006231086 K- rho+ pi0 PHSP; #[Reconstructed PDG2011]
0.005305586 K- pi+ rho0 PHSP; #[Reconstructed PDG2011]
0.019000000 K- pi+ omega PHSP; #[Reconstructed PDG2011]
0.009163361 K- pi+ eta PHSP; #[Reconstructed PDG2011]
0.007500000 K- pi+ eta' PHSP; #[Reconstructed PDG2011]
0.013300000 K- pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
#
0.054000000 K_S0 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.010079698 K_L0 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
#
# K- pi+ pi0 pi0 is (15 +/- 5)% in the PDG, but we decrease it to
# have everything add to 1 and get enough neutral kaons:
#0.02575 K- pi+ pi0 pi0 PHSP;
#
#0.0143 anti-K0 pi0 pi0 pi0 PHSP;
0.040316317 anti-K0 pi0 pi0 pi0 PHSP; # Add in to fill sum to 1. [MK June 2015]
0.000000000 K- pi+ pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.003482077 K- pi+ pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.002800000 K_S0 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002684865 K_L0 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
#
#0.0638 anti-K0 pi+ pi- pi0 pi0 PHSP;
#0.0192 anti-K0 pi+ pi- pi0 pi0 pi0 PHSP;
#
0.002034266 phi K_S0 SVS; #[Reconstructed PDG2011]
0.002034266 phi K_L0 SVS; #[Reconstructed PDG2011]
0.000000000 phi anti-K0 SVS; #[Reconstructed PDG2011]
#
0.004650000 K_S0 K+ K- PHSP; #[Reconstructed PDG2011]
0.002785662 K_L0 K+ K- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K+ K- PHSP; #[Reconstructed PDG2011]
#
0.000950000 K_S0 K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.003940000 K+ K- PHSP; #[Reconstructed PDG2011]
0.000190000 K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.000366534 K_L0 K_L0 PHSP; #[Reconstructed PDG2011]
0.000366534 K*0 anti-K0 SVS; #[Reconstructed PDG2011]
#
0.000091634 anti-K*0 K_S0 SVS; #[Reconstructed PDG2011]
0.000091634 anti-K*0 K_L0 SVS; #[Reconstructed PDG2011]
0.000000000 anti-K*0 K0 SVS; #[Reconstructed PDG2011]
#
0.000485658 K*- K+ SVS; #[Reconstructed PDG2011]
0.001365341 K*+ K- SVS; #[Reconstructed PDG2011]
0.001282871 anti-K*0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000714742 phi pi0 SVS; #[Reconstructed PDG2011]
0.001007970 phi pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002430000 K+ K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002749008 K+ K- pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.001280000 K_S0 K_S0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001255381 K_L0 K_L0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K0 pi+ pi- PHSP; #[Reconstructed PDG2011]
#
0.001374504 anti-K0 K0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.001397000 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000800000 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.000640000 eta pi0 PHSP; #[Reconstructed PDG2011]
0.000810000 eta' pi0 PHSP; #[Reconstructed PDG2011]
0.001670000 eta eta PHSP; #[Reconstructed PDG2011]
0.009800000 rho+ pi- SVS; #[Reconstructed PDG2011]
0.004970000 rho- pi+ SVS; #[Reconstructed PDG2011]
0.003730000 rho0 pi0 SVS; #[Reconstructed PDG2011]
0.001209564 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000091634 pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.005620000 pi+ pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.009360000 pi+ pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.001510000 pi+ pi- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.005498017 pi+ pi- pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.000420000 pi+ pi- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
#
# Doubly Cabibbo suppressed decays:
0.000137450 pi- K+ PHSP; #[Reconstructed PDG2011]
0.000128287 pi- K*+ PHSP; #[Reconstructed PDG2011]
0.000274901 pi- K+ pi0 PHSP; #[Reconstructed PDG2011]
0.000247411 K+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
# PR LHCb - 19 Apr. 2004 Add D0 -> mu+ mu-
0.000000000 mu+ mu- PHSP; #[Reconstructed PDG2011]
#
# March 2009 New Modes
0.000140000 phi eta PHSP; #[Reconstructed PDG2011]
0.019000000 anti-K*0 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000220000 K- pi+ pi- pi+ pi- pi+ PHSP; #[Reconstructed PDG2011]
0.000641435 K+ K- pi0 PHSP; #[Reconstructed PDG2011]
0.003100000 K+ K- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000221000 K+ K- K- pi+ PHSP; #[Reconstructed PDG2011]
#
0.005600000 K_S0 eta pi0 PHSP; #[Reconstructed PDG2011]
0.003665345 K_L0 eta pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 eta pi0 PHSP; #[Reconstructed PDG2011]
#
0.002600000 K_S0 K+ pi- PHSP; #[Reconstructed PDG2011]
0.002382474 K_L0 K+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K+ pi- PHSP; #[Reconstructed PDG2011]
#
0.003500000 K_S0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.003344627 K_L0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 K0 K- pi+ PHSP; #[Reconstructed PDG2011]
#
0.000310000 K_S0 K_S0 K+ pi- PHSP; #[Reconstructed PDG2011]
0.000293228 K_L0 K_L0 K+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K0 K+ pi- PHSP; #[Reconstructed PDG2011]
#
0.000310000 K_S0 K_S0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.000293228 K_L0 K_L0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 K- pi+ pi- e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001820000 rho0 rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001090000 eta pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001600000 omega pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000450000 eta' pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001260000 eta eta' PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000027000 phi gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000328000 anti-K*0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
#
Decay K*0R
1.0000 K0 pi0 VSS;
Enddecay
#
#
Decay anti-D0
-0.021600000 K*+ e- anti-nu_e PHOTOS ISGW2; # PDG2014
-0.035500000 K+ e- anti-nu_e PHOTOS ISGW2; # PDG2014
-0.000760000 K_1+ e- anti-nu_e PHOTOS ISGW2; # PDG2014
-0.001100000 K_2*+ e- anti-nu_e PHOTOS ISGW2; # Small decrease as this is unmeasured
-0.002890000 pi+ e- anti-nu_e PHOTOS ISGW2; # PDG2014
-0.001770000 rho+ e- anti-nu_e PHOTOS ISGW2; # PDG2014
-0.001080000 K0 pi+ e- anti-nu_e PHOTOS PHSP; # PDG2014 subtracting K* (decreased due large uncertaity )
-0.000400000 K+ pi0 e- anti-nu_e PHOTOS PHSP; # PDG2014 subtracting K* (decreased due large uncertaity )
-#
-0.021000000 K*+ mu- anti-nu_mu PHOTOS ISGW2; # 1.1 * PDG2014
-0.034700000 K+ mu- anti-nu_mu PHOTOS ISGW2; # 1.05 * PDG2014
-0.000076000 K_1+ mu- anti-nu_mu PHOTOS ISGW2; # PDG2014 for electron
-0.001100000 K_2*+ mu- anti-nu_mu PHOTOS ISGW2; # copy from electron
-0.002370000 pi+ mu- anti-nu_mu PHOTOS ISGW2; # PDG2014
-0.002015940 rho+ mu- anti-nu_mu PHOTOS ISGW2; # PDG2014 for electron
-0.001080000 K0 pi+ mu- anti-nu_mu PHOTOS PHSP; # copy electron
-0.000400000 K+ pi0 mu- anti-nu_mu PHOTOS PHSP; # copy electron
+0.021600000 K*+ e- anti-nu_e FSR ISGW2; # PDG2014
+0.035500000 K+ e- anti-nu_e FSR ISGW2; # PDG2014
+0.000760000 K_1+ e- anti-nu_e FSR ISGW2; # PDG2014
+0.001100000 K_2*+ e- anti-nu_e FSR ISGW2; # Small decrease as this is unmeasured
+0.002890000 pi+ e- anti-nu_e FSR ISGW2; # PDG2014
+0.001770000 rho+ e- anti-nu_e FSR ISGW2; # PDG2014
+0.001080000 K0 pi+ e- anti-nu_e FSR PHSP; # PDG2014 subtracting K* (decreased due large uncertaity )
+0.000400000 K+ pi0 e- anti-nu_e FSR PHSP; # PDG2014 subtracting K* (decreased due large uncertaity )
+#
+0.021000000 K*+ mu- anti-nu_mu FSR ISGW2; # 1.1 * PDG2014
+0.034700000 K+ mu- anti-nu_mu FSR ISGW2; # 1.05 * PDG2014
+0.000076000 K_1+ mu- anti-nu_mu FSR ISGW2; # PDG2014 for electron
+0.001100000 K_2*+ mu- anti-nu_mu FSR ISGW2; # copy from electron
+0.002370000 pi+ mu- anti-nu_mu FSR ISGW2; # PDG2014
+0.002015940 rho+ mu- anti-nu_mu FSR ISGW2; # PDG2014 for electron
+0.001080000 K0 pi+ mu- anti-nu_mu FSR PHSP; # copy electron
+0.000400000 K+ pi0 mu- anti-nu_mu FSR PHSP; # copy electron
#
0.038900000 K+ pi- PHSP; #[Reconstructed PDG2011]
#
0.012200000 K_S0 pi0 PHSP; #[Reconstructed PDG2011]
0.010000000 K_L0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 K0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.004290000 K_S0 eta PHSP; #[Reconstructed PDG2011]
0.003818748 K_L0 eta PHSP; #[Reconstructed PDG2011]
0.000000000 K0 eta PHSP; #[Reconstructed PDG2011]
#
0.009300000 K_S0 eta' PHSP; #[Reconstructed PDG2011]
0.009017767 K_L0 eta' PHSP; #[Reconstructed PDG2011]
0.000000000 K0 eta' PHSP; #[Reconstructed PDG2011]
#
0.011100000 omega K_S0 SVS; #[Reconstructed PDG2011]
0.010950146 omega K_L0 SVS; #[Reconstructed PDG2011]
0.000000000 omega K0 SVS; #[Reconstructed PDG2011]
#
0.001610316 K*0 eta SVS; #[Reconstructed PDG2011]
0.000920180 K*0 eta' SVS; #[Reconstructed PDG2011]
0.078000000 a_1- K+ SVS; #[Reconstructed PDG2011]
0.067909308 K*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.015800000 K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.011000000 K*0 omega SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
# the Dalitz mode below includes K*(892)0 pi0, K*(892)+ pi-, and K+ rho(770)- resonances
0.139000000 K+ pi- pi0 D_DALITZ; #[Reconstructed PDG2011]
0.006662106 K*0R pi0 SVS; #[Reconstructed PDG2011]
0.016000000 K_1+ pi- SVS; #[Reconstructed PDG2011]
0.006533280 K_10 pi0 SVS; #[Reconstructed PDG2011]
# the Dalitz mode below includes K*(892)+ pi- and K0 rho(770)0 resonances
# LHCb PR 09 Apr 2004, split into KS/KL
0.000000000 K0 pi+ pi- D_DALITZ; #[Reconstructed PDG2011]
0.029400000 K_S0 pi+ pi- D_DALITZ; #[Reconstructed PDG2011]
0.027973482 K_L0 pi+ pi- D_DALITZ; #[Reconstructed PDG2011]
#
0.008300000 K_S0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.004444471 K_L0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 K0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.024000000 K*0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.010674092 K*0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.009201803 K*+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.006257226 K+ rho- pi0 PHSP; #[Reconstructed PDG2011]
0.005327844 K+ pi- rho0 PHSP; #[Reconstructed PDG2011]
0.019000000 K+ pi- omega PHSP; #[Reconstructed PDG2011]
0.009201803 K+ pi- eta PHSP; #[Reconstructed PDG2011]
0.007500000 K+ pi- eta' PHSP; #[Reconstructed PDG2011]
0.013300000 K+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
#
0.054000000 K_S0 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.010121984 K_L0 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 K0 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
#
# K+ pi- pi0 pi0 is (15 +/- 5)% in the PDG, but we decrease it to
# have everything add to 1 and get enough neutral kaons:
#0.02575 K+ pi- pi0 pi0 PHSP;
#
#0.0143 K0 pi0 pi0 pi0 PHSP;
0.040346268 K0 pi0 pi0 pi0 PHSP;
0.000000000 K+ pi- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.003496685 K+ pi- pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.002800000 K_S0 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002696128 K_L0 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 K0 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
#
#0.0638 K0 pi- pi+ pi0 pi0 PHSP;
#0.0192 K0 pi- pi+ pi0 pi0 pi0 PHSP;
#
0.002042800 phi K_S0 SVS; #[Reconstructed PDG2011]
0.002042800 phi K_L0 SVS; #[Reconstructed PDG2011]
0.000000000 phi K0 SVS; #[Reconstructed PDG2011]
#
0.004650000 K_S0 K+ K- PHSP; #[Reconstructed PDG2011]
0.002797348 K_L0 K+ K- PHSP; #[Reconstructed PDG2011]
0.000000000 K0 K+ K- PHSP; #[Reconstructed PDG2011]
#
0.000950000 K_S0 K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.003940000 K+ K- PHSP; #[Reconstructed PDG2011]
0.000190000 K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.000368072 K_L0 K_L0 PHSP; #[Reconstructed PDG2011]
0.000368072 anti-K*0 K0 SVS; #[Reconstructed PDG2011]
#
0.000092018 K*0 K_S0 SVS; #[Reconstructed PDG2011]
0.000092018 K*0 K_L0 SVS; #[Reconstructed PDG2011]
0.000000000 K*0 anti-K0 SVS; #[Reconstructed PDG2011]
#
0.000487696 K*+ K- SVS; #[Reconstructed PDG2011]
0.001371069 K*- K+ SVS; #[Reconstructed PDG2011]
0.001288252 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000717741 phi pi0 SVS; #[Reconstructed PDG2011]
0.001012198 phi pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002430000 K+ K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002760541 K+ K- pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.001280000 K_S0 K_S0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001260647 K_L0 K_L0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K0 pi+ pi- PHSP; #[Reconstructed PDG2011]
#
0.001380270 anti-K0 K0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.001397000 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000800000 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.000640000 eta pi0 PHSP; #[Reconstructed PDG2011]
0.000810000 eta' pi0 PHSP; #[Reconstructed PDG2011]
0.001670000 eta eta PHSP; #[Reconstructed PDG2011]
0.009128189 rho+ pi- SVS; #[Reconstructed PDG2011]
0.004637709 rho- pi+ SVS; #[Reconstructed PDG2011]
0.003730000 rho0 pi0 SVS; #[Reconstructed PDG2011]
0.001214638 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000092018 pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.005620000 pi+ pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.009360000 pi+ pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.001510000 pi+ pi- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.005521082 pi+ pi- pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.000420000 pi+ pi- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
#
# Doubly Cabibbo suppressed decays:
0.000138027 pi+ K- PHSP; #[Reconstructed PDG2011]
0.000128825 pi+ K*- PHSP; #[Reconstructed PDG2011]
0.000276054 pi+ K- pi0 PHSP; #[Reconstructed PDG2011]
0.000248449 K- pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
# PR LHCb - 19 Apr. 2004 Add anti-D0 -> mu+ mu-
0.000000000 mu- mu+ PHSP; #[Reconstructed PDG2011]
#
# March 2009 New Modes
0.000140000 phi eta PHSP; #[Reconstructed PDG2011]
0.019000000 K*0 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000220000 K+ pi- pi- pi+ pi- pi+ PHSP; #[Reconstructed PDG2011]
0.000644126 K+ K- pi0 PHSP; #[Reconstructed PDG2011]
0.003100000 K+ K- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000221000 K+ K+ K- pi- PHSP; #[Reconstructed PDG2011]
#
0.005600000 K_S0 eta pi0 PHSP; #[Reconstructed PDG2011]
0.003680721 K_L0 eta pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 K0 eta pi0 PHSP; #[Reconstructed PDG2011]
#
0.002600000 K_S0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.002392469 K_L0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 K0 K- pi+ PHSP; #[Reconstructed PDG2011]
#
0.003500000 K_S0 K+ pi- PHSP; #[Reconstructed PDG2011]
0.003358658 K_L0 K+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K+ pi- PHSP; #[Reconstructed PDG2011]
#
0.000310000 K_S0 K_S0 K+ pi- PHSP; #[Reconstructed PDG2011]
0.000294458 K_L0 K_L0 K+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K0 K+ pi- PHSP; #[Reconstructed PDG2011]
#
0.000310000 K_S0 K_S0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.000294458 K_L0 K_L0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 K+ pi- pi+ e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001820000 rho0 rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001090000 eta pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001600000 omega pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000450000 eta' pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001260000 eta eta' PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000027000 phi gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000328000 K*0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
# Updated to PDG 2008
Decay D_s+
-0.024900000 phi e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.026700000 eta e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.009900000 eta' e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002058115 anti-K0 e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000762265 anti-K*0 e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.018309605 phi mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.022845082 eta mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.008186726 eta' mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002058115 anti-K0 mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000762265 anti-K*0 mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.005800000 mu+ nu_mu PHOTOS SLN; #[Reconstructed PDG2011]
+0.024900000 phi e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.026700000 eta e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.009900000 eta' e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.002058115 anti-K0 e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.000762265 anti-K*0 e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.018309605 phi mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.022845082 eta mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.008186726 eta' mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002058115 anti-K0 mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.000762265 anti-K*0 mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.005800000 mu+ nu_mu FSR SLN; #[Reconstructed PDG2011]
0.031100000 tau+ nu_tau SLN; #[Reconstructed PDG2011]
### Lange Nov14, 2004 - average cleo + babar (prelim) using stat error only..
0.045000000 phi pi+ SVS; #[Reconstructed PDG2011]
0.015600000 eta pi+ PHSP; #[Reconstructed PDG2011]
0.038000000 eta' pi+ PHSP; #[Reconstructed PDG2011]
0.002300000 omega pi+ SVS; #[Reconstructed PDG2011]
0.000304906 rho+ pi0 SVS; #[Reconstructed PDG2011]
0.000076226 pi+ pi0 PHSP; #[Reconstructed PDG2011]
#?
0.000196200 rho0 pi+ SVS; # PDG 2014
0.007852048 f_0 pi+ PHSP; # PDG 2014
0.001753646 f_2 pi+ PHSP; # PDG 2014
0.004754077 f'_0 pi+ PHSP; # PDG 2014
0.005768112 f_0(1500) pi+ PHSP; # PDG 2014
#0.000735750 rho(2S)0 pi+ PHSP; # PDG 2014
0.000000000 pi+ pi- pi+ PHSP; # PDG 2014 (filled by exclusives)
0.084000000 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.089000000 rho+ eta SVS; #[Reconstructed PDG2011]
0.124213286 rho+ eta' SVS; # Decrease compared to PDG 2014 to preserve unitarity after
# # fixing Ds --> 3pi, we also have too much of inclusive eta',
# #so pick this decay
0.006500000 pi+ pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.007622650 phi pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.011433975 eta pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.011433975 eta' pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.012100000 phi pi+ pi- pi+ PHSP; #[Reconstructed PDG2011]
0.003811325 phi pi+ pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.003811325 eta pi+ pi- pi+ PHSP; #[Reconstructed PDG2011]
0.003811325 eta pi+ pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.014900000 K_S0 K+ PHSP; #[Reconstructed PDG2011]
0.011472088 K_L0 K+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K+ PHSP; #[Reconstructed PDG2011]
#
0.030490600 anti-K*0 K+ SVS; #[Reconstructed PDG2011]
0.054000000 K*+ anti-K0 SVS; #[Reconstructed PDG2011]
0.072000000 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.002286795 anti-K0 K+ pi0 PHSP; #[Reconstructed PDG2011]
0.000914718 anti-K*0 K+ pi0 PHSP; #[Reconstructed PDG2011]
0.000914718 K*+ anti-K0 pi0 PHSP; #[Reconstructed PDG2011]
0.003049060 anti-K*0 K*+ pi0 PHSP; #[Reconstructed PDG2011]
0.003811325 K+ K- pi+ PHSP; #[Reconstructed PDG2011]
#
0.009600000 K_S0 K+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.007470197 K_L0 K+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K+ pi+ pi- PHSP; #[Reconstructed PDG2011]
#
0.000762265 anti-K0 K+ pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 K+ K- pi+ pi- pi+ PHSP; #[Reconstructed PDG2011]
0.000152453 phi K+ SVS; #[Reconstructed PDG2011]
0.001390000 eta K+ PHSP; #[Reconstructed PDG2011]
0.001600000 eta' K+ PHSP; #[Reconstructed PDG2011]
0.000152453 eta K+ pi0 PHSP; #[Reconstructed PDG2011]
0.000152453 eta K+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000152453 eta' K+ pi0 PHSP; #[Reconstructed PDG2011]
0.000152453 eta' K+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000490000 K+ K- K+ PHSP; #[Reconstructed PDG2011]
#
0.001200000 K_S0 pi+ PHSP; #[Reconstructed PDG2011]
0.000968077 K_L0 pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 K0 pi+ PHSP; #[Reconstructed PDG2011]
#
0.001143397 rho+ K0 SVS; #[Reconstructed PDG2011]
0.002700000 rho0 K+ SVS; #[Reconstructed PDG2011]
0.010000000 K0 pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.001905662 a_1+ K0 SVS; #[Reconstructed PDG2011]
0.006021893 K*0 pi+ SVS; #[Reconstructed PDG2011]
0.003811325 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.003811325 K*0 pi+ pi0 PHSP; #[Reconstructed PDG2011]
#
# March 2009 New Modes
0.000820000 K+ pi0 PHSP; #[Reconstructed PDG2011]
0.004200000 K+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.008000000 pi+ pi+ pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.049000000 pi+ pi+ pi+ pi- pi- pi0 PHSP; #[Reconstructed PDG2011]
0.001300000 p+ anti-n0 PHSP; #[Reconstructed PDG2011]
#
0.000840000 K_S0 K_S0 pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000686038 K_L0 K_L0 pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K0 pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
#
0.002900000 K_S0 pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002424003 K_L0 pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
# Doubly Cabibbo suppressed
0.000129000 K+ K+ pi- PHSP; #[Reconstructed PDG2011]
0.003700000 K0 e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001800000 K*0 e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 K+ K- pi+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.028000000 omega pi+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.016000000 omega pi+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
# Updated to PDG 2008
Decay D_s-
-0.024900000 phi e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.026700000 eta e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.009900000 eta' e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002058115 K0 e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000762265 K*0 e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.018309605 phi mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.022845082 eta mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.008186726 eta' mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002058115 K0 mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000762265 K*0 mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.005800000 mu- anti-nu_mu PHOTOS SLN; #[Reconstructed PDG2011]
+0.024900000 phi e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.026700000 eta e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.009900000 eta' e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.002058115 K0 e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.000762265 K*0 e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.018309605 phi mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.022845082 eta mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.008186726 eta' mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002058115 K0 mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.000762265 K*0 mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.005800000 mu- anti-nu_mu FSR SLN; #[Reconstructed PDG2011]
0.031100000 tau- anti-nu_tau SLN; #[Reconstructed PDG2011]
0.045000000 phi pi- SVS; #[Reconstructed PDG2011]
0.015600000 eta pi- PHSP; #[Reconstructed PDG2011]
0.038000000 eta' pi- PHSP; #[Reconstructed PDG2011]
0.002300000 omega pi- SVS; #[Reconstructed PDG2011]
0.000304906 rho- pi0 SVS; #[Reconstructed PDG2011]
0.000076226 pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000196200 rho0 pi- SVS; # PDG 2014
0.007852048 f_0 pi- PHSP; # PDG 2014
0.001753646 f_2 pi- PHSP; # PDG 2014
0.004754077 f'_0 pi- PHSP; # PDG 2014
0.005768112 f_0(1500) pi- PHSP; # PDG 2014
#0.000735750 rho(2S)0 pi- PHSP; # PDG 2014
0.000000000 pi- pi+ pi- PHSP; # PDG 2014 (filled by exclusives)
0.084000000 phi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.089000000 rho- eta SVS; #[Reconstructed PDG2011]
0.124213286 rho- eta' SVS; # Decrease compared to PDG 2014 to preserve unitarity after
0.006500000 pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.007622650 phi pi- pi0 PHSP; #[Reconstructed PDG2011]
0.011433975 eta pi- pi0 PHSP; #[Reconstructed PDG2011]
0.011433975 eta' pi- pi0 PHSP; #[Reconstructed PDG2011]
0.012100000 phi pi- pi- pi+ PHSP; #[Reconstructed PDG2011]
0.003811325 phi pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.003811325 eta pi- pi- pi+ PHSP; #[Reconstructed PDG2011]
0.003811325 eta pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.014900000 K_S0 K- PHSP; #[Reconstructed PDG2011]
0.011472088 K_L0 K- PHSP; #[Reconstructed PDG2011]
0.000000000 K0 K- PHSP; #[Reconstructed PDG2011]
#
0.030490600 K*0 K- SVS; #[Reconstructed PDG2011]
0.054000000 K*- K0 SVS; #[Reconstructed PDG2011]
0.072000000 K*0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.002286795 K0 K- pi0 PHSP; #[Reconstructed PDG2011]
0.000914718 K*0 K- pi0 PHSP; #[Reconstructed PDG2011]
0.000914718 K*- K0 pi0 PHSP; #[Reconstructed PDG2011]
0.003049060 K*0 K*- pi0 PHSP; #[Reconstructed PDG2011]
0.003811325 K+ K- pi- PHSP; #[Reconstructed PDG2011]
#
0.009600000 K_S0 K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.007470197 K_L0 K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 K0 K- pi+ pi- PHSP; #[Reconstructed PDG2011]
#
0.000762265 K0 K- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 K- K+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000152453 phi K- SVS; #[Reconstructed PDG2011]
0.001390000 eta K- PHSP; #[Reconstructed PDG2011]
0.001600000 eta' K- PHSP; #[Reconstructed PDG2011]
0.000152453 eta K- pi0 PHSP; #[Reconstructed PDG2011]
0.000152453 eta K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000152453 eta' K- pi0 PHSP; #[Reconstructed PDG2011]
0.000152453 eta' K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000490000 K- K- K+ PHSP; #[Reconstructed PDG2011]
#
0.001200000 K_S0 pi- PHSP; #[Reconstructed PDG2011]
0.000968077 K_L0 pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 pi- PHSP; #[Reconstructed PDG2011]
#
0.001143397 rho- anti-K0 SVS; #[Reconstructed PDG2011]
0.002700000 rho0 K- SVS; #[Reconstructed PDG2011]
0.010000000 anti-K0 pi- pi0 PHSP; #[Reconstructed PDG2011]
0.001905662 a_1- anti-K0 SVS; #[Reconstructed PDG2011]
0.006021893 anti-K*0 pi- SVS; #[Reconstructed PDG2011]
0.003811325 anti-K*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.003811325 anti-K*0 pi- pi0 PHSP; #[Reconstructed PDG2011]
#
# March 2009 New Modes
0.000820000 K- pi0 PHSP; #[Reconstructed PDG2011]
0.004200000 K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.008000000 pi+ pi+ pi- pi- pi- PHSP; #[Reconstructed PDG2011]
0.049000000 pi+ pi+ pi- pi- pi- pi0 PHSP; #[Reconstructed PDG2011]
0.001300000 anti-p- n0 PHSP; #[Reconstructed PDG2011]
#
0.000840000 K_S0 K_S0 pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.000686038 K_L0 K_L0 pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K0 pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
#
0.002900000 K_S0 pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.002424003 K_L0 pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.000000000 K0 pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
# Doubly Cabibbo suppressed
0.000129000 K- K- pi+ PHSP; #[Reconstructed PDG2011]
0.003700000 anti-K0 e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001800000 anti-K*0 e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 K- K+ pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.028000000 omega pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.016000000 omega pi- pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
# D**
#
Decay D_0*+
0.3333 D+ pi0 PHSP;
0.6667 D0 pi+ PHSP;
Enddecay
Decay D_0*-
0.3333 D- pi0 PHSP;
0.6667 anti-D0 pi- PHSP;
Enddecay
Decay D_0*0
0.3333 D0 pi0 PHSP;
0.6667 D+ pi- PHSP;
Enddecay
Decay anti-D_0*0
0.3333 anti-D0 pi0 PHSP;
0.6667 D- pi+ PHSP;
Enddecay
#
SetLineshapePW D_1+ D*+ pi0 2
SetLineshapePW D_1+ D*0 pi+ 2
SetLineshapePW D_1- D*- pi0 2
SetLineshapePW D_1- anti-D*0 pi- 2
SetLineshapePW D_10 D*0 pi0 2
SetLineshapePW D_10 D*+ pi- 2
SetLineshapePW anti-D_10 anti-D*0 pi0 2
SetLineshapePW anti-D_10 D*- pi+ 2
Decay D_1+
0.3333 D*+ pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.6667 D*0 pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay D_1-
0.3333 D*- pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.6667 anti-D*0 pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay D_10
0.3333 D*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.6667 D*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay anti-D_10
0.3333 anti-D*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.6667 D*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
#
Decay D'_1+
0.3333 D*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.6667 D*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay D'_1-
0.3333 D*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.6667 anti-D*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay D'_10
0.6667 D*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3333 D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay anti-D'_10
0.3333 anti-D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.6667 D*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
SetLineshapePW D_2*+ D*+ pi0 2
SetLineshapePW D_2*+ D*0 pi+ 2
SetLineshapePW D_2*- D*- pi0 2
SetLineshapePW D_2*- anti-D*0 pi- 2
SetLineshapePW D_2*0 D*0 pi0 2
SetLineshapePW D_2*0 D*+ pi- 2
SetLineshapePW anti-D_2*0 anti-D*0 pi0 2
SetLineshapePW anti-D_2*0 D*- pi+ 2
Decay D_2*+
0.1030 D*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2090 D*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2290 D+ pi0 TSS;
0.4590 D0 pi+ TSS;
Enddecay
Decay D_2*-
0.1030 D*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2090 anti-D*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2290 D- pi0 TSS;
0.4590 anti-D0 pi- TSS;
Enddecay
Decay D_2*0
0.2090 D*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1030 D*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2290 D0 pi0 TSS;
0.4590 D+ pi- TSS;
Enddecay
Decay anti-D_2*0
0.1030 anti-D*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2090 D*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2290 anti-D0 pi0 TSS;
0.4590 D- pi+ TSS;
Enddecay
#
# D_s **
#
Decay D_s0*+
# 0.5000 D+ K0 PHSP;
# 0.5000 D0 K+ PHSP;
1.000 D_s+ pi0 PHSP;
Enddecay
Decay D_s0*-
# 0.5000 D- anti-K0 PHSP;
# 0.5000 anti-D0 K- PHSP;
1.000 D_s- pi0 PHSP;
Enddecay
Decay D'_s1+
0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.0000 gamma D_s*+ PHSP;
0.0000 gamma D_s+ PHSP;
Enddecay
Decay D'_s1-
0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.0000 gamma D_s*- PHSP;
0.0000 gamma D_s- PHSP;
Enddecay
Decay D_s1+
0.80000 D_s*+ pi0 PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.20000 D_s+ gamma VSP_PWAVE;
Enddecay
Decay D_s1-
0.80000 D_s*- pi0 PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.20000 D_s- gamma VSP_PWAVE;
Enddecay
Decay D_s2*+
0.0500 D*+ K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0500 D*0 K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.4300 D+ K0 TSS;
0.4700 D0 K+ TSS;
Enddecay
Decay D_s2*-
0.0500 D*- anti-K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0500 anti-D*0 K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.4300 D- anti-K0 TSS;
0.4700 anti-D0 K- TSS;
Enddecay
#
#
# Charm Mesons: Radially Excited States
#
Decay D(2S)0
0.6667 D*+ pi- SVS;
0.3333 D*0 pi0 SVS;
Enddecay
Decay anti-D(2S)0
0.3333 anti-D*0 pi0 SVS;
0.6667 D*- pi+ SVS;
Enddecay
Decay D(2S)+
0.3333 D*+ pi0 SVS;
0.6667 D*0 pi+ SVS;
Enddecay
Decay D(2S)-
0.3333 D*- pi0 SVS;
0.6667 anti-D*0 pi- SVS;
Enddecay
Decay D*(2S)0
0.3333 D*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1667 D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1667 D0 pi0 VSS;
0.3333 D+ pi- VSS;
Enddecay
Decay anti-D*(2S)0
0.1667 anti-D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3333 D*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1667 anti-D0 pi0 VSS;
0.3333 D- pi+ VSS;
Enddecay
Decay D*(2S)+
0.1667 D*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3333 D*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1667 D+ pi0 VSS;
0.3333 D0 pi+ VSS;
Enddecay
Decay D*(2S)-
0.1667 D*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3333 anti-D*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1667 D- pi0 VSS;
0.3333 anti-D0 pi- VSS;
Enddecay
#
#
# Strange Mesons updated to PDG 2008
#
#
Decay K_S0
0.691086452 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.305986452 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000201 pi+ pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001722185 pi+ pi- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000042831 pi+ pi- e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000025 pi0 gamma gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002399 gamma gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000344328 pi+ e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000344328 pi- e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000235400 pi+ mu- anti-nu_mu PHSP; #[New mode added] #TP manually added 9/1/2011 according to pdg
0.000235400 pi- mu+ nu_mu PHSP; #[New mode added] #TP manually added 9/1/2011 according to pdg
Enddecay
#
# K_L0 is decayed in GEANT
#
Decay K0
0.500 K_L0 PHSP;
0.500 K_S0 PHSP;
Enddecay
Decay anti-K0
0.500 K_L0 PHSP;
0.500 K_S0 PHSP;
Enddecay
#
Decay K*0
0.6657 K+ pi- VSS;
0.3323 K0 pi0 VSS;
0.0020 K0 gamma VSP_PWAVE;
Enddecay
#
Decay anti-K*0
0.6657 K- pi+ VSS;
0.3323 anti-K0 pi0 VSS;
0.0020 anti-K0 gamma VSP_PWAVE;
Enddecay
#
Decay K*+
0.6657 K0 pi+ VSS;
0.3323 K+ pi0 VSS;
0.0020 K+ gamma VSP_PWAVE;
Enddecay
#
Decay K*-
0.6657 anti-K0 pi- VSS;
0.3323 K- pi0 VSS;
0.0020 K- gamma VSP_PWAVE;
Enddecay
#
# The decays below are for particle aliases and used when
# generating CP violating decays that depends on the decay
# of the neutral K*
#
Decay K*L
1.0000 pi0 K_L0 VSS;
Enddecay
Decay K*S
1.0000 pi0 K_S0 VSS;
Enddecay
Decay K*BL
1.0000 pi0 K_L0 VSS;
Enddecay
Decay K*BS
1.0000 pi0 K_S0 VSS;
Enddecay
Decay K*0T
1.0000 pi- K+ VSS;
Enddecay
Decay anti-K*0T
1.0000 pi+ K- VSS;
Enddecay
#
#
Decay K_0*+
0.6667 K0 pi+ PHSP;
0.3333 K+ pi0 PHSP;
Enddecay
#
Decay K_0*-
0.6667 anti-K0 pi- PHSP;
0.3333 K- pi0 PHSP;
Enddecay
#
Decay K_0*0
0.6667 K+ pi- PHSP;
0.3333 K0 pi0 PHSP;
Enddecay
#
Decay K_0*0N
1.0000 K0 pi0 PHSP;
Enddecay
#
Decay anti-K_0*0
0.6667 K- pi+ PHSP;
0.3333 anti-K0 pi0 PHSP;
Enddecay
#
Decay anti-K_0*0N
1.0000 anti-K0 pi0 PHSP;
Enddecay
#
Decay K_10
0.2800 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1400 rho0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1067 K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0533 K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
#To large masses can cause infinit loops
0.1100 omega K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1444 K0 pi+ pi- PHSP;
0.1244 K+ pi- pi0 PHSP;
0.0412 K0 pi0 pi0 PHSP;
Enddecay
#
Decay anti-K_10
0.2800 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1400 rho0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1067 K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0533 anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
#To large masses can cause infinit loops
0.1100 omega anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1444 anti-K0 pi+ pi- PHSP;
0.1244 K- pi+ pi0 PHSP;
0.0412 anti-K0 pi0 pi0 PHSP;
Enddecay
#
Decay K_1+
0.2800 rho+ K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1067 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0533 K*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
#To large masses can cause infinit loops
0.1100 omega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1444 K+ pi+ pi- PHSP;
0.1244 K0 pi+ pi0 PHSP;
0.0412 K+ pi0 pi0 PHSP;
Enddecay
#
Decay K_1-
0.2800 rho- anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1067 anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0533 K*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
#To large masses can cause infinit loops
0.1100 omega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1444 K- pi+ pi- PHSP;
0.1244 anti-K0 pi- pi0 PHSP;
0.0412 K- pi0 pi0 PHSP;
Enddecay
#
Decay K'_1+
0.6300 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3100 K*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0200 rho+ K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 omega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0133 K+ pi+ pi- PHSP;
0.0067 K+ pi0 pi0 PHSP;
Enddecay
#
Decay K'_1-
0.6300 anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3100 K*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0200 rho- anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 omega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0133 K- pi+ pi- PHSP;
0.0067 K- pi0 pi0 PHSP;
Enddecay
#
Decay K'_10
0.6300 K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3100 K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0200 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 rho0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 omega K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0133 K0 pi+ pi- PHSP;
0.0067 K0 pi0 pi0 PHSP;
Enddecay
#
Decay anti-K'_10
0.6300 K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3100 anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0200 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 rho0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 omega anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0133 anti-K0 pi+ pi- PHSP;
0.0067 anti-K0 pi0 pi0 PHSP;
Enddecay
#
Decay K_2*+
0.3340 K0 pi+ TSS;
0.1670 K+ pi0 TSS;
0.1645 K*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0835 K*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0450 K*0 pi+ pi0 PHSP;
0.0450 K*+ pi+ pi- PHSP;
0.0450 K*+ pi0 pi0 PHSP;
0.0580 rho+ K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 rho0 K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 omega K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
#
Decay K_2*-
0.3340 anti-K0 pi- TSS;
0.1670 K- pi0 TSS;
0.1645 anti-K*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0835 K*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0450 anti-K*0 pi- pi0 PHSP;
0.0450 K*- pi+ pi- PHSP;
0.0450 K*- pi0 pi0 PHSP;
0.0580 rho- K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 rho0 K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 omega K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
#
Decay K_2*0
0.3340 K+ pi- TSS;
0.1670 K0 pi0 TSS;
0.1645 K*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0835 K*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0450 K*0 pi+ pi- PHSP;
0.0450 K*0 pi0 pi0 PHSP;
0.0450 K*+ pi- pi0 PHSP;
0.0580 rho- K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 rho0 K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 omega K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
#
Decay anti-K_2*0
0.3340 K- pi+ TSS;
0.1670 anti-K0 pi0 TSS;
0.1645 K*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0835 anti-K*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0450 anti-K*0 pi+ pi- PHSP;
0.0450 anti-K*0 pi0 pi0 PHSP;
0.0450 K*- pi+ pi0 PHSP;
0.0580 rho+ K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 rho0 anti-K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 omega anti-K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
# Decay K*(1410)
Decay K'*0
0.0467 K+ pi- VSS;
0.0233 K0 pi0 VSS;
0.5760 K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2880 K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0440 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0220 rho0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay anti-K'*0
0.0467 K- pi+ VSS;
0.0233 anti-K0 pi0 VSS;
0.5760 K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2880 anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0440 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0220 rho0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay K'*+
0.0467 K0 pi+ VSS;
0.0233 K+ pi0 VSS;
0.5760 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2880 K*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0440 rho+ K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0220 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay K'*-
0.0467 anti-K0 pi- VSS;
0.0233 K- pi0 VSS;
0.5760 anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2880 K*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0440 rho- K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0220 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
# Decay K*(1680)
Decay K''*0
0.2580 K+ pi- VSS;
0.1290 K0 pi0 VSS;
0.2093 K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1047 K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1993 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0997 rho0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay anti-K''*0
0.2580 K- pi+ VSS;
0.1290 anti-K0 pi0 VSS;
0.2093 K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1047 anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1993 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0997 rho0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay K''*+
0.2580 K0 pi+ VSS;
0.1290 K+ pi0 VSS;
0.2093 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1047 K*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1993 rho+ K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0997 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay K''*-
0.2580 anti-K0 pi- VSS;
0.1290 K- pi0 VSS;
0.2093 anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1047 K*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1993 rho- K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0997 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay Xsd
1.00000 d anti-s PYTHIA 42;
Enddecay
Decay anti-Xsd
1.00000 anti-d s PYTHIA 42;
Enddecay
Decay Xsu
1.00000 u anti-s PYTHIA 42;
Enddecay
Decay anti-Xsu
1.00000 anti-u s PYTHIA 42;
Enddecay
# Xss decays can be uncommented when Jst74/lucomp.F recognizes Xss
Decay Xss
1.00000 s anti-s PYTHIA 42;
Enddecay
Decay anti-Xss
1.00000 anti-s s PYTHIA 42;
Enddecay
#
# Light Mesons Updated to PDG 2008
#
Decay pi0
0.988228297 gamma gamma PHSP; #[Reconstructed PDG2011]
0.011738247 e+ e- gamma PI0_DALITZ; #[Reconstructed PDG2011]
0.000033392 e+ e+ e- e- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000065 e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay eta
0.393100000 gamma gamma PHSP; #[Reconstructed PDG2011]
0.325700000 pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.227400000 pi- pi+ pi0 ETA_DALITZ; #[Reconstructed PDG2011]
0.046000000 gamma pi- pi+ PHSP; #[Reconstructed PDG2011]
0.007000000 gamma e+ e- PHSP; #[Reconstructed PDG2011]
0.000310000 gamma mu+ mu- PHSP; #[Reconstructed PDG2011]
0.000270000 gamma gamma pi0 PHSP; #[Reconstructed PDG2011]
0.000214200 pi+ pi- e+ e- PHSP; #[Reconstructed PDG2011]
0.000005800 mu+ mu- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay rho0
1.000 pi+ pi- VSS;
Enddecay
Decay rho+
1.000 pi+ pi0 VSS;
Enddecay
Decay rho-
1.000 pi- pi0 VSS;
Enddecay
#
Decay omega
0.892000000 pi- pi+ pi0 OMEGA_DALITZ; #[Reconstructed PDG2011]
0.082800000 pi0 gamma VSP_PWAVE; #[Reconstructed PDG2011]
0.015300000 pi- pi+ VSS; #[Reconstructed PDG2011]
0.000460000 eta gamma VSP_PWAVE; #[Reconstructed PDG2011]
-0.000770000 pi0 e+ e- PHOTOS PHSP; #[Reconstructed PDG2011]
-0.000130000 pi0 mu+ mu- PHOTOS PHSP; #[Reconstructed PDG2011]
+0.000770000 pi0 e+ e- FSR PHSP; #[Reconstructed PDG2011]
+0.000130000 pi0 mu+ mu- FSR PHSP; #[Reconstructed PDG2011]
0.00150 pi+ pi- gamma PHSP;
0.000066000 pi0 pi0 gamma PHSP; #[Reconstructed PDG2011]
0.00050 pi+ pi- pi+ pi- PHSP;
0.000072800 e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000090000 mu+ mu- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay eta'
0.432000000 pi+ pi- eta PHSP; #[Reconstructed PDG2011]
0.217000000 pi0 pi0 eta PHSP; #[Reconstructed PDG2011]
0.293511000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.027500000 omega gamma SVP_HELAMP 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.022200000 gamma gamma PHSP; #[Reconstructed PDG2011]
0.001680000 pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
-0.000109000 gamma mu- mu+ PHOTOS PHSP; #[Reconstructed PDG2011]
+0.000109000 gamma mu- mu+ FSR PHSP; #[Reconstructed PDG2011]
0.003600000 pi+ pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002400000 pi+ pi- e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay phi
0.489000000 K+ K- VSS; #[Reconstructed PDG2011]
0.342000000 K_L0 K_S0 VSS; #[Reconstructed PDG2011]
0.0425 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0425 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0425 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0250 pi+ pi- pi0 PHSP;
0.013090000 eta gamma VSP_PWAVE; #[Reconstructed PDG2011]
0.000687600 pi0 gamma VSP_PWAVE; #[Reconstructed PDG2011]
-0.000295400 e+ e- PHOTOS VLL; #[Reconstructed PDG2011]
-0.000287000 mu+ mu- PHOTOS VLL; #[Reconstructed PDG2011]
+0.000295400 e+ e- FSR VLL; #[Reconstructed PDG2011]
+0.000287000 mu+ mu- FSR VLL; #[Reconstructed PDG2011]
0.000113000 pi0 pi0 gamma PHSP; #[Reconstructed PDG2011]
0.000115000 eta e+ e- PHSP; #[Reconstructed PDG2011]
0.000322000 f_0 gamma PHSP; #[Reconstructed PDG2011]
0.000074000 pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000047000 omega pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000041000 pi+ pi- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004000 pi+ pi- pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011200 pi0 e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000072700 pi0 eta gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000062500 eta' gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000014000 mu+ mu- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay a_1+
0.4920 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5080 rho+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay a_10
0.5000 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5000 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay a_1-
0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay a_2+
0.3500 rho0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.3500 rho+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1430 eta pi+ TSS;
0.1000 omega pi+ pi0 PHSP;
0.0490 anti-K0 K+ TSS;
0.0027 pi+ gamma PHSP;
0.0053 eta' pi+ TSS;
Enddecay
#
Decay a_2-
0.3500 rho0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.3500 rho- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1430 eta pi- TSS;
0.1000 omega pi- pi0 PHSP;
0.0490 anti-K0 K- TSS;
0.0027 pi- gamma PHSP;
0.0053 eta' pi- TSS;
Enddecay
#
Decay a_20
0.3500 rho+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.3500 rho- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1430 eta pi0 TSS;
0.1000 omega pi+ pi- PHSP;
0.0245 K+ K- TSS;
0.01225 K_L0 K_L0 TSS;
0.01225 K_S0 K_S0 TSS;
0.0027 pi0 gamma PHSP;
0.0053 eta' pi0 TSS;
Enddecay
#
Decay b_1+
0.9984 omega pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0016 pi+ gamma VSP_PWAVE;
Enddecay
Decay b_1-
0.9984 omega pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0016 pi- gamma VSP_PWAVE;
Enddecay
Decay b_10
0.9984 omega pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0016 pi0 gamma VSP_PWAVE;
Enddecay
#
Decay a_00
0.9000 eta pi0 PHSP;
0.0500 K+ K- PHSP;
0.0250 K_S0 K_S0 PHSP;
0.0250 K_L0 K_L0 PHSP;
Enddecay
Decay a_0+
0.9000 eta pi+ PHSP;
0.1000 anti-K0 K+ PHSP;
Enddecay
Decay a_0-
0.9000 eta pi- PHSP;
0.1000 K0 K- PHSP;
Enddecay
#
Decay f_0
0.6667 pi+ pi- PHSP;
0.3333 pi0 pi0 PHSP;
#0.1100 K+ K- PHSP;
#0.0550 K_S0 K_S0 PHSP;
#0.0550 K_L0 K_L0 PHSP;
Enddecay
#
#
# MK: Based on PDG 2014 without any attempt to really include everything. One
# thing, which is missing is KK mode, but data are scattered quite lot and
# I would also need to find place where to make space for it. For needs I
# have at this moment, this should be sufficient
#Decay f_0(1370)
#0.17333 pi+ pi- PHSP;
#0.08667 pi0 pi0 PHSP;
#0.26000 pi+ pi+ pi- pi- PHSP;
#0.32000 pi+ pi- pi0 pi0 PHSP;
#0.10667 rho+ rho- PHSP;
#0.05333 rho0 rho0 PHSP;
#Enddecay
Decay f'_0
0.5200 pi+ pi- PHSP;
0.2600 pi0 pi0 PHSP;
0.0750 pi+ pi+ pi- pi- PHSP;
0.0750 pi+ pi- pi0 pi0 PHSP;
0.0350 K+ K- PHSP;
0.0175 K_S0 K_S0 PHSP;
0.0175 K_L0 K_L0 PHSP;
Enddecay
#
Decay f_1
0.110000000 rho0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.043364159 rho0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.043442860 rho+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.043442860 rho- pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.094440999 a_00 pi0 VSS; #[Reconstructed PDG2011]
0.094440999 a_0+ pi- VSS; #[Reconstructed PDG2011]
0.094440999 a_0- pi+ VSS; #[Reconstructed PDG2011]
0.086570916 eta pi+ pi- PHSP; #[Reconstructed PDG2011]
0.043285458 eta pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.020226114 K+ K- pi0 PHSP; #[Reconstructed PDG2011]
0.010152407 K0 anti-K0 pi0 PHSP; #[Reconstructed PDG2011]
0.020226114 anti-K0 K+ pi- PHSP; #[Reconstructed PDG2011]
0.020226114 K0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.055000000 gamma rho0 PHSP; #[Reconstructed PDG2011]
0.220000000 pi0 pi0 pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 pi+ pi+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000740000 phi gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay f'_1
0.2500 K+ K- pi0 PHSP;
0.2500 K0 anti-K0 pi0 PHSP;
0.2500 anti-K0 K+ pi- PHSP;
0.2500 K0 K- pi+ PHSP;
Enddecay
#
Decay f_2
0.5650 pi+ pi- TSS;
0.2820 pi0 pi0 TSS;
0.028000000 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.071000000 pi+ pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.003000000 pi0 pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.0230 K+ K- TSS;
0.0115 K_S0 K_S0 TSS;
0.0115 K_L0 K_L0 TSS;
0.004000000 eta eta TSS; #[Reconstructed PDG2011]
0.000016400 gamma gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay f_0(1500)
0.019000000 eta eta' PHSP; #[Reconstructed PDG2011]
0.051000000 eta eta PHSP; #[Reconstructed PDG2011]
0.1410 pi0 pi0 pi0 pi0 PHSP;
0.3540 pi+ pi- pi+ pi- PHSP;
0.2330 pi+ pi- PHSP;
0.1160 pi0 pi0 PHSP;
0.0430 K+ K- PHSP;
0.0215 K_S0 K_S0 PHSP;
0.0215 K_L0 K_L0 PHSP;
Enddecay
#
Decay f'_2
0.443904021 K+ K- TSS; #[Reconstructed PDG2011]
0.221952010 K_S0 K_S0 TSS; #[Reconstructed PDG2011]
0.221952010 K_L0 K_L0 TSS; #[Reconstructed PDG2011]
0.104000000 eta eta TSS; #[Reconstructed PDG2011]
0.005493862 pi+ pi- TSS; #[Reconstructed PDG2011]
0.002696987 pi0 pi0 TSS; #[Reconstructed PDG2011]
0.000001110 gamma gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay h_1
0.3333 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3333 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3334 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay h'_1
0.2500 K*+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2500 K*- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2500 anti-K*0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2500 K*0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay rho(2S)+
0.4000 pi+ pi0 PHSP;
0.4000 pi+ pi+ pi- pi0 PHSP;
0.2000 pi+ pi0 pi0 pi0 PHSP;
Enddecay
Decay rho(2S)-
0.4000 pi- pi0 PHSP;
0.4000 pi- pi+ pi- pi0 PHSP;
0.2000 pi- pi0 pi0 pi0 PHSP;
Enddecay
Decay rho(2S)0
0.4000 pi+ pi- PHSP;
0.3500 pi+ pi- pi+ pi- PHSP;
0.1500 pi+ pi- pi0 pi0 PHSP;
0.1000 pi0 pi0 pi0 pi0 PHSP;
Enddecay
Decay phi(1680)
0.08 pi+ pi- PHSP;
0.05 pi+ pi+ pi- pi- PHSP;
0.10 pi0 pi+ pi- PHSP;
0.10 pi0 pi+ pi+ pi- pi- PHSP;
0.12 pi0 pi0 pi+ pi- PHSP;
0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.05 pi0 pi0 pi0 pi+ pi- PHSP;
0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.04 K+ K- pi+ pi- PHSP;
0.02 K0 K- pi+ PHSP;
0.02 anti-K0 K+ pi- PHSP;
0.02 K0 K- pi+ pi+ pi- PHSP;
0.02 anti-K0 K+ pi- pi- pi+ PHSP;
0.02 K0 K- pi0 pi+ PHSP;
0.02 anti-K0 K+ pi0 pi- PHSP;
0.02 eta pi0 pi+ pi- PHSP;
0.01 eta rho- pi0 pi+ PHSP;
0.01 eta rho+ pi0 pi- PHSP;
Enddecay
Decay rho(3S)0
0.08 pi+ pi- PHSP;
0.05 pi+ pi+ pi- pi- PHSP;
0.10 pi0 pi+ pi- PHSP;
0.10 pi0 pi+ pi+ pi- pi- PHSP;
0.12 pi0 pi0 pi+ pi- PHSP;
0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.05 pi0 pi0 pi0 pi+ pi- PHSP;
0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.04 K+ K- pi+ pi- PHSP;
0.02 K0 K- pi+ PHSP;
0.02 anti-K0 K+ pi- PHSP;
0.02 K0 K- pi+ pi+ pi- PHSP;
0.02 anti-K0 K+ pi- pi- pi+ PHSP;
0.02 K0 K- pi0 pi+ PHSP;
0.02 anti-K0 K+ pi0 pi- PHSP;
0.02 eta pi0 pi+ pi- PHSP;
0.01 eta rho- pi0 pi+ PHSP;
0.01 eta rho+ pi0 pi- PHSP;
Enddecay
Decay omega(1650)
0.08 pi+ pi- PHSP;
0.05 pi+ pi+ pi- pi- PHSP;
0.10 pi0 pi+ pi- PHSP;
0.10 pi0 pi+ pi+ pi- pi- PHSP;
0.12 pi0 pi0 pi+ pi- PHSP;
0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.05 pi0 pi0 pi0 pi+ pi- PHSP;
0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.04 K+ K- pi+ pi- PHSP;
0.02 K0 K- pi+ PHSP;
0.02 anti-K0 K+ pi- PHSP;
0.02 K0 K- pi+ pi+ pi- PHSP;
0.02 anti-K0 K+ pi- pi- pi+ PHSP;
0.02 K0 K- pi0 pi+ PHSP;
0.02 anti-K0 K+ pi0 pi- PHSP;
0.02 eta pi0 pi+ pi- PHSP;
0.01 eta rho- pi0 pi+ PHSP;
0.01 eta rho+ pi0 pi- PHSP;
Enddecay
#Decay rho(1900)
#0.08 pi+ pi- PHSP;
#0.05 pi+ pi+ pi- pi- PHSP;
#0.10 pi0 pi+ pi- PHSP;
#0.10 pi0 pi+ pi+ pi- pi- PHSP;
#0.12 pi0 pi0 pi+ pi- PHSP;
#0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.05 pi0 pi0 pi0 pi+ pi- PHSP;
#0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.04 K+ K- pi+ pi- PHSP;
#0.02 K0 K- pi+ PHSP;
#0.02 anti-K0 K+ pi- PHSP;
#0.02 K0 K- pi+ pi+ pi- PHSP;
#0.02 anti-K0 K+ pi- pi- pi+ PHSP;
#0.02 K0 K- pi0 pi+ PHSP;
#0.02 anti-K0 K+ pi0 pi- PHSP;
#0.02 eta pi0 pi+ pi- PHSP;
#0.01 eta rho- pi0 pi+ PHSP;
#0.01 eta rho+ pi0 pi- PHSP;
#Enddecay
Decay omega(2S)
0.08 pi+ pi- PHSP;
0.05 pi+ pi+ pi- pi- PHSP;
0.10 pi0 pi+ pi- PHSP;
0.10 pi0 pi+ pi+ pi- pi- PHSP;
0.12 pi0 pi0 pi+ pi- PHSP;
0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.05 pi0 pi0 pi0 pi+ pi- PHSP;
0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.04 K+ K- pi+ pi- PHSP;
0.02 K0 K- pi+ PHSP;
0.02 anti-K0 K+ pi- PHSP;
0.02 K0 K- pi+ pi+ pi- PHSP;
0.02 anti-K0 K+ pi- pi- pi+ PHSP;
0.02 K0 K- pi0 pi+ PHSP;
0.02 anti-K0 K+ pi0 pi- PHSP;
0.02 eta pi0 pi+ pi- PHSP;
0.01 eta rho- pi0 pi+ PHSP;
0.01 eta rho+ pi0 pi- PHSP;
Enddecay
#Decay rho(2150)
#0.08 pi+ pi- PHSP;
#0.05 pi+ pi+ pi- pi- PHSP;
#0.10 pi0 pi+ pi- PHSP;
#0.10 pi0 pi+ pi+ pi- pi- PHSP;
#0.12 pi0 pi0 pi+ pi- PHSP;
#0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.05 pi0 pi0 pi0 pi+ pi- PHSP;
#0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.04 K+ K- pi+ pi- PHSP;
#0.02 K0 K- pi+ PHSP;
#0.02 anti-K0 K+ pi- PHSP;
#0.02 K0 K- pi+ pi+ pi- PHSP;
#0.02 anti-K0 K+ pi- pi- pi+ PHSP;
#0.02 K0 K- pi0 pi+ PHSP;
#0.02 anti-K0 K+ pi0 pi- PHSP;
#0.02 eta pi0 pi+ pi- PHSP;
#0.01 eta rho- pi0 pi+ PHSP;
#0.01 eta rho+ pi0 pi- PHSP;
#Enddecay
#Decay omega(1960)
#0.08 pi+ pi- PHSP;
#0.05 pi+ pi+ pi- pi- PHSP;
#0.10 pi0 pi+ pi- PHSP;
#0.10 pi0 pi+ pi+ pi- pi- PHSP;
#0.12 pi0 pi0 pi+ pi- PHSP;
#0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.05 pi0 pi0 pi0 pi+ pi- PHSP;
#0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.04 K+ K- pi+ pi- PHSP;
#0.02 K0 K- pi+ PHSP;
#0.02 anti-K0 K+ pi- PHSP;
#0.02 K0 K- pi+ pi+ pi- PHSP;
#0.02 anti-K0 K+ pi- pi- pi+ PHSP;
#0.02 K0 K- pi0 pi+ PHSP;
#0.02 anti-K0 K+ pi0 pi- PHSP;
#0.02 eta pi0 pi+ pi- PHSP;
#0.01 eta rho- pi0 pi+ PHSP;
#0.01 eta rho+ pi0 pi- PHSP;
#Enddecay
#Decay rho(1965)
#0.08 pi+ pi- PHSP;
#0.05 pi+ pi+ pi- pi- PHSP;
#0.10 pi0 pi+ pi- PHSP;
#0.10 pi0 pi+ pi+ pi- pi- PHSP;
#0.12 pi0 pi0 pi+ pi- PHSP;
#0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.05 pi0 pi0 pi0 pi+ pi- PHSP;
#0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.04 K+ K- pi+ pi- PHSP;
#0.02 K0 K- pi+ PHSP;
#0.02 anti-K0 K+ pi- PHSP;
#0.02 K0 K- pi+ pi+ pi- PHSP;
#0.02 anti-K0 K+ pi- pi- pi+ PHSP;
#0.02 K0 K- pi0 pi+ PHSP;
#0.02 anti-K0 K+ pi0 pi- PHSP;
#0.02 eta pi0 pi+ pi- PHSP;
#0.01 eta rho- pi0 pi+ PHSP;
#0.01 eta rho+ pi0 pi- PHSP;
#Enddecay
#
#
# cc= mesons Updated to PDG 2008
#
Decay eta_c
0.001300000 p+ anti-p- PHSP; #[Reconstructed PDG2011]
0.002700000 phi phi SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; #[Reconstructed PDG2011]
0.002900000 phi K+ K- PHSP; #[Reconstructed PDG2011]
0.0067 rho0 rho0 SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0;
0.0133 rho+ rho- SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0;
0.012000000 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001600000 K+ K- K+ K- PHSP; #[Reconstructed PDG2011]
0.015000000 K+ K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.0327 eta pi+ pi- PHSP;
0.0163 eta pi0 pi0 PHSP;
0.0273 eta' pi+ pi- PHSP;
0.0137 eta' pi0 pi0 PHSP;
0.0117 pi0 K+ K- PHSP;
0.0233 K+ anti-K0 pi- PHSP;
0.0233 K- K0 pi+ PHSP;
0.0117 K0 anti-K0 pi0 PHSP;
0.0046 K*+ K*- SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0;
0.0046 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0 ;
0.01 K*0 K- pi+ PHSP;
0.01 anti-K*0 K+ pi- PHSP;
#
#March 2009 New Modes
0.01500 K*0 anti-K*0 pi+ pi- PHSP;
0.007100000 K+ K- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.015000000 pi+ pi- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001040000 Lambda0 anti-Lambda0 PHSP; #[Reconstructed PDG2011]
0.007600000 f_2 f_2 PHSP; #[Reconstructed PDG2011]
0.027000000 f_2 f'_2 PHSP; #[Reconstructed PDG2011]
#
0.682497000 rndmflav anti-rndmflav PYTHIA 42;
0.000063000 gamma gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay eta_c(2S)
0.019 K+ anti-K0 pi- PHSP;
0.019 K- K0 pi+ PHSP;
0.0095 pi0 K+ K- PHSP;
0.0095 K0 anti-K0 pi0 PHSP;
0.943 rndmflav anti-rndmflav PYTHIA 42;
Enddecay
#
Decay J/psi
-0.059400000 e+ e- PHOTOS VLL; #[Reconstructed PDG2011]
-0.059300000 mu+ mu- PHOTOS VLL; #[Reconstructed PDG2011]
+0.059400000 e+ e- FSR VLL; #[Reconstructed PDG2011]
+0.059300000 mu+ mu- FSR VLL; #[Reconstructed PDG2011]
0.005600000 rho0 pi0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.00563 rho+ pi- PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.00563 rho- pi+ PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.004000000 omega pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.00364 a_20 rho0 PHSP;
0.00363 a_2+ rho- PHSP;
0.00363 a_2- rho+ PHSP;
0.008500000 omega pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.004300000 omega f_2 PHSP; #[Reconstructed PDG2011]
0.004300000 omega pi+ pi- PHSP; #[Reconstructed PDG2011]
0.00300 K*0 anti-K_2*0 PHSP;
0.00300 anti-K*0 K_2*0 PHSP;
0.00305 omega K*0 anti-K0 PHSP;
0.00305 omega anti-K*0 K0 PHSP;
0.00256 K*+ K- PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.00256 K*- K+ PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.002195 K*0 anti-K0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.002195 anti-K*0 K0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.00190 K_1+ K- PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.00190 K_1- K+ PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.003400000 omega pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.001500000 b_1+ pi- PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.001500000 b_1- pi+ PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
#
0.001700000 omega pi- K+ K_S0 PHSP; #[Reconstructed PDG2011]
0.0017 omega pi- K+ K_L0 PHSP;
0.001700000 omega pi+ K- K_S0 PHSP; #[Reconstructed PDG2011]
0.0017 omega pi+ K- K_L0 PHSP;
0.0000 omega pi- K+ K0 PHSP;
0.0000 omega pi- K+ anti-K0 PHSP;
0.0000 omega pi+ K- K0 PHSP;
0.0000 omega pi+ K- anti-K0 PHSP;
#
0.002300000 b_10 pi0 PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.002290000 eta pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000545 phi K*0 anti-K0 PHSP;
0.000545 phi anti-K*0 K0 PHSP;
0.000545 phi K*+ K- PHSP;
0.000545 phi K*- K+ PHSP;
0.0008 omega K0 anti-K0 PHSP;
0.0008 omega K+ K- PHSP;
0.001660000 phi pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001600000 Delta++ anti-p- pi- PHSP; #[Reconstructed PDG2011]
0.0016 anti-Delta-- p+ pi+ PHSP;
0.001740000 omega eta PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000915 phi K0 anti-K0 PHSP;
0.000915 phi K+ K- PHSP;
0.001100000 omega p+ anti-p- PHSP; #[Reconstructed PDG2011]
0.0011 Delta++ anti-Delta-- PHSP;
0.000515 Sigma- anti-Sigma+ PHSP;
0.001500000 Sigma+ anti-Sigma- PHSP; #[Reconstructed PDG2011]
0.000720000 eta pi+ pi- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000147000 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.017000000 gamma eta_c PHSP; #[Reconstructed PDG2011]
0.008300000 gamma pi+ pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.0061 gamma eta pi+ pi- PHSP;
0.00225 gamma rho+ rho- PHSP;
0.00225 gamma rho0 rho0 PHSP;
0.005280000 gamma eta' PHSP; #[Reconstructed PDG2011]
0.001850000 gamma pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002100000 gamma K+ K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001610000 gamma omega omega PHSP; #[Reconstructed PDG2011]
0.001430000 gamma f_2 PHSP; #[Reconstructed PDG2011]
0.0040 gamma K*0 anti-K*0 PHSP;
#
# March 2009 New Modes
0.001100000 eta pi- K+ K_S0 PHSP; #[Reconstructed PDG2011]
0.0011 eta pi- K+ K_L0 PHSP;
0.001100000 eta pi+ K- K_S0 PHSP; #[Reconstructed PDG2011]
0.0011 eta pi+ K- K_L0 PHSP;
0.0000 eta pi- K+ K0 PHSP;
0.0000 eta pi- K+ anti-K0 PHSP;
0.0000 eta pi+ K- K0 PHSP;
0.0000 eta pi+ K- anti-K0 PHSP;
#
0.055000000 pi+ pi- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.029000000 pi+ pi- pi+ pi- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.020700000 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.019400000 pi+ pi- pi0 K+ K- PHSP; #[Reconstructed PDG2011]
0.016100000 pi+ pi- pi+ pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.009000000 pi+ pi- pi+ pi- pi+ pi- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.006600000 pi+ pi- K+ K- PHSP; #[Reconstructed PDG2011]
0.001840000 pi+ pi- K+ K- eta PHSP; #[Reconstructed PDG2011]
0.002450000 pi0 pi0 K+ K- PHSP; #[Reconstructed PDG2011]
0.005000000 pi+ pi- pi+ pi- K+ K- PHSP; #[Reconstructed PDG2011]
0.00102 K+ K- pi0 PHSP;
0.00102 K0 anti-K0 pi0 PHSP;
0.00203 K+ anti-K0 pi- PHSP;
0.00203 K- K0 pi+ PHSP;
0.003550000 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
#### Already included above 0.00229 pi+ pi- pi+ pi- eta PHSP;
0.004300000 pi+ pi- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002170000 p+ anti-p- PHSP; #[Reconstructed PDG2011]
0.001190000 p+ anti-p- pi0 PHSP; #[Reconstructed PDG2011]
0.006000000 p+ anti-p- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002300000 p+ anti-p- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.002000000 p+ anti-p- eta PHSP; #[Reconstructed PDG2011]
0.002200000 n0 anti-n0 PHSP; #[Reconstructed PDG2011]
0.004000000 n0 anti-n0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001290000 Sigma0 anti-Sigma0 PHSP; #[Reconstructed PDG2011]
0.002120000 p+ anti-n0 pi- PHSP; #[Reconstructed PDG2011]
0.001200000 Xi0 anti-Xi0 PHSP; #[Reconstructed PDG2011]
0.000850000 Xi- anti-Xi+ PHSP; #[Reconstructed PDG2011]
0.001610000 Lambda0 anti-Lambda0 PHSP; #[Reconstructed PDG2011]
#
0.084693481 rndmflav anti-rndmflav PYTHIA 42;
0.365559757 g g g PYTHIA 92;
0.032103862 gamma g g PYTHIA 92;
0.0 K0 anti-K0 PHSP;
0.0 K_S0 K_S0 PHSP;
0.0 K_L0 K_L0 PHSP;
0.000146000 K_S0 K_L0 PHSP; #[Reconstructed PDG2011]
0.001900000 K'_1+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001900000 K'_1- K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000800000 phi f'_2 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000870000 phi pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000560000 phi pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000680000 omega f'_1 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000750000 phi eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000590000 Xi*- anti-Xi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000450000 omega pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000400000 phi eta' PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000320000 phi f_0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000320000 Xi*0 anti-Xi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000260000 phi f_1 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000400000 eta pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000182000 omega eta' PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000140000 omega f_0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000230000 K*0 anti-K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000720000 phi f_2 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000210000 p+ anti-p- eta' PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000045000 p+ anti-p- phi PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000890000 p+ K- anti-Lambda0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000760000 K+ K- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000290000 p+ K- anti-Sigma0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000237000 K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000260000 Lambda0 anti-Lambda0 eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000012000 gamma gamma gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000950000 gamma f_2 f_2 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001104000 gamma eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000610000 gamma f_1 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000450000 gamma f'_2 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000400000 gamma phi phi PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000380000 gamma p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000034900 gamma pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.008800000 gamma e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay psi(2S)
-0.007720000 e+ e- PHOTOS VLL; #[Reconstructed PDG2011]
-0.007700000 mu+ mu- PHOTOS VLL; #[Reconstructed PDG2011]
-0.003000000 tau+ tau- PHOTOS VLL; #[Reconstructed PDG2011]
+0.007720000 e+ e- FSR VLL; #[Reconstructed PDG2011]
+0.007700000 mu+ mu- FSR VLL; #[Reconstructed PDG2011]
+0.003000000 tau+ tau- FSR VLL; #[Reconstructed PDG2011]
0.336000000 J/psi pi+ pi- VVPIPI; #[Reconstructed PDG2011]
0.177300000 J/psi pi0 pi0 VVPIPI; #[Reconstructed PDG2011]
0.032800000 J/psi eta PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.001300000 J/psi pi0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.096200000 gamma chi_c0 PHSP; #[Reconstructed PDG2011]
0.092000000 gamma chi_c1 PHSP; #[Reconstructed PDG2011]
0.087400000 gamma chi_c2 PHSP; #[Reconstructed PDG2011]
0.003400000 gamma eta_c PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000121000 gamma eta' PHSP; #[Reconstructed PDG2011]
0.000210000 gamma f_2 PHSP; #[Reconstructed PDG2011]
0.003500000 pi+ pi- pi+ pi- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000350000 pi+ pi- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002900000 pi+ pi- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000200000 b_1+ pi- PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000200000 b_1- pi+ PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000240000 b_10 pi0 PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000168000 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.0000545 K*0 anti-K0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0000545 anti-K*0 K0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000022 rho0 eta PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000021000 omega pi0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000028000 phi eta PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000008 rho+ pi- PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000008 rho- pi+ PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000008 rho0 pi0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000001 phi pi0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000001 omega eta PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0000085 K*+ K- PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0000085 K*- K+ PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000185000 omega K+ K- PHSP; #[Reconstructed PDG2011]
0.000340000 K+ K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000600000 p+ anti-p- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000133000 p+ anti-p- pi0 PHSP; #[Reconstructed PDG2011]
0.000276000 p+ anti-p- PHSP; #[Reconstructed PDG2011]
0.000500000 K_1+ K- PHSP; #[Reconstructed PDG2011]
0.000500000 K_1- K+ PHSP; #[Reconstructed PDG2011]
0.000220000 rho0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000280000 Lambda0 anti-Lambda0 PHSP; #[Reconstructed PDG2011]
0.000128000 Delta++ anti-Delta-- PHSP; #[Reconstructed PDG2011]
0.000220000 Sigma0 anti-Sigma0 PHSP; #[Reconstructed PDG2011]
0.00026 Sigma*+ anti-Sigma*- PHSP;
0.000180000 Xi- anti-Xi+ PHSP; #[Reconstructed PDG2011]
0.000080000 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000063000 K+ K- PHSP; #[Reconstructed PDG2011]
0.000070000 phi K- K+ PHSP; #[Reconstructed PDG2011]
0.000117000 phi pi- pi+ PHSP; #[Reconstructed PDG2011]
0.000170000 pi+ pi- K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.0008 h_c pi0 PHSP;
0.0 K0 anti-K0 PHSP;
0.0 K_S0 K_S0 PHSP;
0.0 K_L0 K_L0 PHSP;
0.000054000 K_S0 K_L0 PHSP; #[Reconstructed PDG2011]
#
# March 2009 New Modes
0.004800000 pi+ pi- pi+ pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.001200000 pi+ pi- pi+ pi- eta PHSP; #[Reconstructed PDG2011]
0.001300000 K+ K- pi+ pi- eta PHSP; #[Reconstructed PDG2011]
0.001000000 K+ K- pi+ pi- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.001900000 K+ K- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001260000 K+ K- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
#
0.013568632 rndmflav anti-rndmflav PYTHIA 42;
0.103318590 g g g PYTHIA 92;
0.007344778 gamma g g PYTHIA 92;
0.000100000 Lambda0 anti-p- K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000180000 Lambda0 anti-p- K+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000280000 Lambda0 anti-Lambda0 pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000260000 Sigma+ anti-Sigma- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000280000 Xi0 anti-Xi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000060000 eta p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000069000 omega p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000320000 p+ anti-n0 pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000950000 eta pi+ pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000450000 eta' pi+ pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 omega pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000220000 omega f_2 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000220000 rho0 K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000190000 K*0 anti-K_2*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000050000 rho0 p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000020000 pi+ pi- pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000730000 p+ anti-p- pi+ pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000060000 K+ K- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000110000 K+ K- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000031000 phi eta' PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000032000 omega eta' PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000027000 p+ anti-p- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000044000 phi f'_2 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000870000 gamma eta pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000400000 gamma pi+ pi- pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000190000 gamma K+ K- pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000029000 gamma p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000028000 gamma pi+ pi- p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay psi(4040)
-0.000010700 e+ e- PHOTOS VLL; #[Reconstructed PDG2011]
-0.000014000 mu+ mu- PHOTOS VLL; #[Reconstructed PDG2011]
+0.000010700 e+ e- FSR VLL; #[Reconstructed PDG2011]
+0.000014000 mu+ mu- FSR VLL; #[Reconstructed PDG2011]
0.000005000 tau+ tau- VLL; #[Reconstructed PDG2011]
0.002099938 D0 anti-D0 VSS; #[Reconstructed PDG2011]
0.000899973 D+ D- VSS; #[Reconstructed PDG2011]
0.167895013 D*0 anti-D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.167895013 anti-D*0 D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.181494610 D*+ D- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.181494610 D*- D+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.159695257 D*0 anti-D*0 PHSP; #[Reconstructed PDG2011]
0.098197084 D*+ D*- PHSP; #[Reconstructed PDG2011]
0.000000000 D0 anti-D0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D+ D- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D0 D- pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-D0 D+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 D*+ D- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D*- D+ pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D*+ anti-D0 pi- PHSP; #[Reconstructed PDG2011]
0.000000000 D*- D0 pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 D+ anti-D*0 pi- PHSP; #[Reconstructed PDG2011]
0.000000000 D- D*0 pi+ PHSP; #[Reconstructed PDG2011]
0.040298803 D_s+ D_s- VSS; #[Reconstructed PDG2011]
Enddecay
#
Decay psi(4160)
-0.000008100 e+ e- PHOTOS VLL; #[Reconstructed PDG2011]
-0.000009999 mu+ mu- PHOTOS VLL; #[Reconstructed PDG2011]
+0.000008100 e+ e- FSR VLL; #[Reconstructed PDG2011]
+0.000009999 mu+ mu- FSR VLL; #[Reconstructed PDG2011]
0.000006000 tau+ tau- VLL; #[Reconstructed PDG2011]
0.039697852 D0 anti-D0 VSS; #[Reconstructed PDG2011]
0.038697906 D+ D- VSS; #[Reconstructed PDG2011]
0.051997187 D*0 anti-D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.051997187 anti-D*0 D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.051497214 D*+ D- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.051497214 D*- D+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.298613845 D*0 anti-D*0 PHSP; #[Reconstructed PDG2011]
0.308183327 D*+ D*- PHSP; #[Reconstructed PDG2011]
0.000000000 D0 anti-D0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D+ D- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D0 D- pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-D0 D+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 D*+ D- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D*- D+ pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D*+ anti-D0 pi- PHSP; #[Reconstructed PDG2011]
0.000000000 D*- D0 pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 D+ anti-D*0 pi- PHSP; #[Reconstructed PDG2011]
0.000000000 D- D*0 pi+ PHSP; #[Reconstructed PDG2011]
0.009999459 D_s+ D_s- VSS; #[Reconstructed PDG2011]
0.048897355 D_s*+ D_s- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.048897355 D_s*- D_s+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000000000 D_s+ D_s- pi0 PHSP; #[Reconstructed PDG2011]
Enddecay
#
Decay psi(4415)
-0.000009400 e+ e- PHOTOS VLL; #[Reconstructed PDG2011]
-0.000011000 mu+ mu- PHOTOS VLL; #[Reconstructed PDG2011]
+0.000009400 e+ e- FSR VLL; #[Reconstructed PDG2011]
+0.000011000 mu+ mu- FSR VLL; #[Reconstructed PDG2011]
0.000007000 tau+ tau- VLL; #[Reconstructed PDG2011]
0.024399331 D0 anti-D0 VSS; #[Reconstructed PDG2011]
0.021899400 D+ D- VSS; #[Reconstructed PDG2011]
0.031999123 D*0 anti-D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.031999123 anti-D*0 D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.034299060 D*+ D- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.034299060 D*- D+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.345090544 D*0 anti-D*0 PHSP; #[Reconstructed PDG2011]
0.353890303 D*+ D*- PHSP; #[Reconstructed PDG2011]
0.000000000 D0 anti-D0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D+ D- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D0 D- pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-D0 D+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 D*+ D- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D*- D+ pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D*+ anti-D0 pi- PHSP; #[Reconstructed PDG2011]
0.000000000 D*- D0 pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 D+ anti-D*0 pi- PHSP; #[Reconstructed PDG2011]
0.000000000 D- D*0 pi+ PHSP; #[Reconstructed PDG2011]
0.011799677 D_s+ D_s- VSS; #[Reconstructed PDG2011]
0.041998849 D_s*+ D_s- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.041998849 D_s*- D_s+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.026299279 D_s*+ D_s*- PHSP; #[Reconstructed PDG2011]
0.000000000 D_s+ D_s- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D_s*+ D_s- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D_s+ D_s*- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D_s+ D- anti-K0 PHSP; #[Reconstructed PDG2011]
0.000000000 D_s- D+ anti-K0 PHSP; #[Reconstructed PDG2011]
0.000000000 D0 D_s- K+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-D0 D_s+ K- PHSP; #[Reconstructed PDG2011]
Enddecay
#
Decay chi_c0
0.011600000 gamma J/psi PHSP; #[Reconstructed PDG2011]
0.000228000 p+ anti-p- PHSP; #[Reconstructed PDG2011]
0.000222000 gamma gamma PHSP; #[Reconstructed PDG2011]
0.00243 pi0 pi0 PHSP;
0.00487 pi+ pi- PHSP;
0.013800000 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002810000 K+ K- K+ K- PHSP; #[Reconstructed PDG2011]
0.012000000 pi+ pi- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.008900000 rho0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.0100 rho+ pi- pi0 PHSP;
0.0100 rho- pi+ pi0 PHSP;
0.00057 K+ K- PHSP;
0.000920000 phi phi PHSP; #[Reconstructed PDG2011]
0.001700000 anti-K*0 K*0 PHSP; #[Reconstructed PDG2011]
0.0036 anti-K*0 K+ pi- PHSP;
0.0036 K*0 K- pi+ PHSP;
0.0043 K*+ anti-K0 pi- PHSP;
0.0043 K*- K0 pi+ PHSP;
0.018000000 pi+ pi- K+ K- PHSP; #[Reconstructed PDG2011]
0.002100000 pi+ pi- p+ anti-p- PHSP; #[Reconstructed PDG2011]
0.002680000 eta eta PHSP; #[Reconstructed PDG2011]
0.000330000 Lambda0 anti-Lambda0 PHSP; #[Reconstructed PDG2011]
0.00086 f_0 f_0 PHSP;
0.0 K0 anti-K0 PHSP;
0.003160000 K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.00282 K_L0 K_L0 PHSP;
0.0 K_S0 K_L0 PHSP;
#
# March 2009 New Modes
0.002030000 eta' eta' PHSP; #[Reconstructed PDG2011]
0.002200000 omega omega PHSP; #[Reconstructed PDG2011]
0.00325 K_1+ K- PHSP;
0.00325 K_1- K+ PHSP;
0.000990000 K+ K- phi PHSP; #[Reconstructed PDG2011]
0.001140000 p+ anti-n0 pi- PHSP; #[Reconstructed PDG2011]
0.000525 K+ anti-p- Lambda0 PHSP;
0.000525 K- p+ Lambda0 PHSP;
0.005800000 K_S0 K_S0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.00590 K_L0 K_L0 pi+ pi- PHSP;
0.00000 K0 anti-K0 pi+ pi- PHSP;
0.001400000 K+ K- K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.00150 K+ K- K_L0 K_L0 PHSP;
0.00000 K+ K- K0 anti-K0 PHSP;
#
0.799360000 rndmflav anti-rndmflav PYTHIA 42;
0.034000000 pi+ pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.005700000 K+ K- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.003100000 K+ K- eta pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000570000 p+ anti-p- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000370000 p+ anti-p- eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001050000 pi0 pi0 p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000420000 Sigma0 anti-Sigma0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000310000 Sigma+ anti-Sigma- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000320000 Xi0 anti-Xi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000490000 Xi- anti-Xi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay chi_c1
0.344000000 J/psi gamma VVP 1.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.007600000 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000073000 p+ anti-p- PHSP; #[Reconstructed PDG2011]
0.005800000 pi+ pi- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.004500000 pi+ pi- K+ K- PHSP; #[Reconstructed PDG2011]
0.003900000 rho0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.0020 rho+ pi- pi0 PHSP;
0.0020 rho- pi+ pi0 PHSP;
0.0016 anti-K*0 K+ pi- PHSP;
0.0016 K*0 K- pi+ PHSP;
0.001500000 anti-K*0 K*0 PHSP; #[Reconstructed PDG2011]
0.0009 K*+ anti-K0 pi- PHSP;
0.0009 K*- K0 pi+ PHSP;
0.000500000 pi+ pi- p+ anti-p- PHSP; #[Reconstructed PDG2011]
0.000720000 pi+ pi- K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.0003 K+ K- K_S0 K_S0 PHSP;
0.000118000 Lambda0 anti-Lambda0 PHSP; #[Reconstructed PDG2011]
0.00385 K+ anti-K0 pi- PHSP;
0.00385 K- K0 pi+ PHSP;
0.000560000 K+ K- K+ K- PHSP; #[Reconstructed PDG2011]
0.00000 K0 anti-K0 PHSP;
0.00001 K_S0 K_S0 PHSP;
0.00001 K_L0 K_L0 PHSP;
0.00000 K_S0 K_L0 PHSP;
#
# March 2009 New Modes
0.002200000 pi+ pi- eta PHSP; #[Reconstructed PDG2011]
0.002400000 pi+ pi- eta' PHSP; #[Reconstructed PDG2011]
0.001910000 K+ K- pi0 PHSP; #[Reconstructed PDG2011]
#
0.587724 rndmflav anti-rndmflav PYTHIA 42;
0.008700000 pi+ pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001180000 K+ K- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001200000 K+ K- eta pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000330000 K+ K- eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002800000 f_2 eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000430000 K+ K- phi PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000120000 p+ anti-p- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000320000 K+ anti-p- Lambda0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000084000 Xi- anti-Xi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000229000 gamma rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000078000 gamma omega PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay chi_c2
0.195000000 gamma J/psi PHSP; #[Reconstructed PDG2011]
0.000256000 gamma gamma PHSP; #[Reconstructed PDG2011]
0.000072000 p+ anti-p- PHSP; #[Reconstructed PDG2011]
0.00072 pi0 pi0 TSS;
0.00145 pi+ pi- TSS;
0.011100000 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001780000 K+ K- K+ K- PHSP; #[Reconstructed PDG2011]
0.008600000 pi+ pi- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.009200000 pi+ pi- K+ K- PHSP; #[Reconstructed PDG2011]
0.004000000 rho0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.0046 rho+ pi- pi0 PHSP;
0.0046 rho- pi+ pi0 PHSP;
0.001090000 K+ K- TSS; #[Reconstructed PDG2011]
0.002400000 pi+ pi- K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.0003 K+ K- K_S0 K_S0 PHSP;
0.001480000 phi phi PHSP; #[Reconstructed PDG2011]
0.00115 anti-K*0 K+ pi- PHSP;
0.00115 K*0 K- pi+ PHSP;
0.002500000 anti-K*0 K*0 PHSP; #[Reconstructed PDG2011]
0.0016 K*+ anti-K0 pi- PHSP;
0.0016 K*- K0 pi+ PHSP;
0.001320000 pi+ pi- p+ anti-p- PHSP; #[Reconstructed PDG2011]
0.000186000 Lambda0 anti-Lambda0 PHSP; #[Reconstructed PDG2011]
0.00000 K0 anti-K0 PHSP;
0.000580000 K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.00065 K_L0 K_L0 PHSP;
0.00000 K_S0 K_L0 PHSP;
#
# March 2009 New Modes
0.001900000 omega omega PHSP; #[Reconstructed PDG2011]
0.0007 anti-K0 K+ pi- PHSP;
0.0007 K0 K- pi+ PHSP;
0.001550000 K+ K- phi PHSP; #[Reconstructed PDG2011]
0.001100000 p+ anti-n0 pi- PHSP; #[Reconstructed PDG2011]
#
0.709461000 rndmflav anti-rndmflav PYTHIA 42;
0.020000000 pi+ pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002200000 K+ K- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001400000 K+ K- eta pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000520000 pi+ pi- eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000540000 pi+ pi- eta' PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000540000 eta eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000330000 K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000470000 p+ anti-p- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000200000 p+ anti-p- eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000850000 pi0 pi0 p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000155000 Xi- anti-Xi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay psi(3770)
0.410000000 D+ D- VSS; #[Reconstructed PDG2011]
0.520000000 D0 anti-D0 VSS; #[Reconstructed PDG2011]
0.001930000 J/psi pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000800000 J/psi pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.0073 gamma chi_c0 PHSP;
0.0029 gamma chi_c1 PHSP;
0.055850300 rndmflav anti-rndmflav PYTHIA 42;
0.000900000 J/psi eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000009700 e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000310000 phi eta PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay X_1(3872)
1.000 rndmflav anti-rndmflav PYTHIA 42;
Enddecay
#
#
# bb= Mesons Updated to PDG 2008
#
Decay eta_b
1.000 rndmflav anti-rndmflav PYTHIA 42;
Enddecay
#
Decay Upsilon
-0.024800000 e+ e- PHOTOS VLL; #[Reconstructed PDG2011]
-0.024800000 mu+ mu- PHOTOS VLL; #[Reconstructed PDG2011]
+0.024800000 e+ e- FSR VLL; #[Reconstructed PDG2011]
+0.024800000 mu+ mu- FSR VLL; #[Reconstructed PDG2011]
0.026000000 tau+ tau- VLL; #[Reconstructed PDG2011]
0.014959973 d anti-d PYTHIA 91;
0.044879919 u anti-u PYTHIA 91;
0.014959973 s anti-s PYTHIA 91;
0.044879919 c anti-c PYTHIA 91;
0.774328202 g g g PYTHIA 92;
0.028922614 gamma g g PYTHIA 92;
0.000063000 gamma pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000017000 gamma pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011400 gamma K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000290000 gamma pi+ pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000250000 gamma pi+ pi+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000250000 gamma pi+ pi+ pi+ pi- pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000240000 gamma pi+ pi+ pi- pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000150000 gamma pi+ pi- p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000040000 gamma pi+ pi+ pi- pi- p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000020000 gamma K+ K+ K- K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000037000 gamma f'_2 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000101000 gamma f_2 PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay Upsilon(2S)
-0.019100000 e+ e- PHOTOS VLL; #[Reconstructed PDG2011]
-0.019300000 mu+ mu- PHOTOS VLL; #[Reconstructed PDG2011]
+0.019100000 e+ e- FSR VLL; #[Reconstructed PDG2011]
+0.019300000 mu+ mu- FSR VLL; #[Reconstructed PDG2011]
0.020000000 tau+ tau- VLL; #[Reconstructed PDG2011]
0.181000000 Upsilon pi+ pi- PHSP; #[Reconstructed PDG2011]
0.086000000 Upsilon pi0 pi0 PHSP; #[Reconstructed PDG2011]
# V-> gamma S Partial wave (L,S)=(0,1)
0.038000000 gamma chi_b0 HELAMP 1. 0. +1. 0.; #[Reconstructed PDG2011]
# V-> gamma V Partial wave (L,S)=(0,1)
0.069000000 gamma chi_b1 HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; #[Reconstructed PDG2011]
# V-> gamma T Partial wave (L,S)=(0,1)
0.071500000 gamma chi_b2 HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.; #[Reconstructed PDG2011]
0.00500 d anti-d PYTHIA 91;
0.02000 u anti-u PYTHIA 91;
0.00500 s anti-s PYTHIA 91;
0.02000 c anti-c PYTHIA 91;
0.42160 g g g PYTHIA 92;
0.01600 gamma g g PYTHIA 92;
0.000210000 Upsilon eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000390000 gamma eta_b PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay Upsilon(3S)
-0.0181 e+ e- PHOTOS VLL;
-0.021800000 mu+ mu- PHOTOS VLL; #[Reconstructed PDG2011]
+0.0181 e+ e- FSR VLL;
+0.021800000 mu+ mu- FSR VLL; #[Reconstructed PDG2011]
0.022900000 tau+ tau- VLL; #[Reconstructed PDG2011]
0.044000000 Upsilon pi+ pi- PHSP; #[Reconstructed PDG2011]
0.022000000 Upsilon pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.024500000 Upsilon(2S) pi+ pi- PHSP; #[Reconstructed PDG2011]
0.018500000 Upsilon(2S) pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.050000000 Upsilon(2S) gamma gamma PHSP; #[Reconstructed PDG2011]
# V-> gamma S Partial wave (L,S)=(0,1)
0.059000000 gamma chi_b0(2P) HELAMP 1. 0. 1. 0.; #[Reconstructed PDG2011]
# V-> gamma V Partial wave (L,S)=(0,1)
0.126000000 gamma chi_b1(2P) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; #[Reconstructed PDG2011]
# V-> gamma T Partial wave (L,S)=(0,1)
0.131000000 gamma chi_b2(2P) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.; #[Reconstructed PDG2011]
0.00700 d anti-d PYTHIA 91;
0.02800 u anti-u PYTHIA 91;
0.00700 s anti-s PYTHIA 91;
0.02800 c anti-c PYTHIA 91;
0.37780 g g g PYTHIA 92;
0.01000 gamma g g PYTHIA 92;
0.003000000 gamma chi_b0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000510000 gamma eta_b PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay Upsilon(5S)
0.5 B+ B- PHSP;
0.481487200 g g g PYTHIA 92;
0.000002800 e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.005300000 Upsilon pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.007800000 Upsilon(2S) pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.004800000 Upsilon(3S) pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000610000 Upsilon K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay chi_b0
# S-> gamma V Partial wave (L,S)=(0,0)
0.0500 gamma Upsilon HELAMP 1. 0. 1. 0.;
0.949650000 rndmflav anti-rndmflav PYTHIA 42;
0.000110000 pi+ pi+ pi- pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000240000 pi+ pi+ pi+ pi- pi- pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay chi_b1
# V-> gamma V Partial wave (L,S)=(0,1)
0.350000000 gamma Upsilon HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; #[Reconstructed PDG2011]
0.643080000 g g PYTHIA 91;
0.000200000 pi+ pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000800000 pi+ pi+ pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000150000 pi+ pi+ pi- pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000350000 pi+ pi+ pi- pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000860000 pi+ pi+ pi- pi- K+ K- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000190000 pi+ pi+ pi+ pi- pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001700000 pi+ pi+ pi+ pi- pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000260000 pi+ pi+ pi+ pi- pi- pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000750000 pi+ pi+ pi+ pi- pi- pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000260000 pi+ pi+ pi+ pi+ pi- pi- pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001400000 pi+ pi+ pi+ pi+ pi- pi- pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay chi_b2
# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP.
0.220000000 gamma Upsilon PHSP; #[Reconstructed PDG2011]
#0.2200 gamma Upsilon HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
0.775550000 g g PYTHIA 91;
0.000080000 pi+ pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000350000 pi+ pi+ pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000110000 pi+ pi+ pi- pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000210000 pi+ pi+ pi- pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000390000 pi+ pi+ pi- pi- K+ K- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000070000 pi+ pi+ pi+ pi- pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001000000 pi+ pi+ pi+ pi- pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000360000 pi+ pi+ pi+ pi- pi- pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000080000 pi+ pi+ pi+ pi+ pi- pi- pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001800000 pi+ pi+ pi+ pi+ pi- pi- pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay chi_b0(2P)
# S-> gamma V Partial wave (L,S)=(0,0)
0.009000000 gamma Upsilon HELAMP 1. 0. 1. 0.; #[Reconstructed PDG2011]
0.046000000 gamma Upsilon(2S) HELAMP 1. 0. 1. 0.; #[Reconstructed PDG2011]
# S-> gamma V Partial wave (L,S)=(0,0)
0.00150 gamma Upsilon_1(1D) HELAMP 1. 0. 1. 0.;
0.94350 g g PYTHIA 91;
Enddecay
#
Decay chi_b1(2P)
# V-> gamma V Partial wave (L,S)=(0,1)
0.085000000 gamma Upsilon HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; #[Reconstructed PDG2011]
0.210000000 gamma Upsilon(2S) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; #[Reconstructed PDG2011]
# V-> gamma V Partial wave (L,S)=(0,1)
0.0097 gamma Upsilon_1(1D) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
# V-> gamma T Partial wave (L,S)=(0,1)
0.0236 gamma Upsilon_2(1D) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.;
0.648650000 g g PYTHIA 91;
0.016300000 omega Upsilon PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000310000 pi+ pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000590000 pi+ pi+ pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000100000 pi+ pi+ pi- pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000550000 pi+ pi+ pi- pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001000000 pi+ pi+ pi- pi- K+ K- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000120000 pi+ pi+ pi+ pi- pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001200000 pi+ pi+ pi+ pi- pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000200000 pi+ pi+ pi+ pi- pi- pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000610000 pi+ pi+ pi+ pi- pi- pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000170000 pi+ pi+ pi+ pi+ pi- pi- pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001900000 pi+ pi+ pi+ pi+ pi- pi- pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay chi_b2(2P)
# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP.
0.071000000 gamma Upsilon PHSP; #[Reconstructed PDG2011]
#0.0710 gamma Upsilon HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
0.162000000 gamma Upsilon(2S) PHSP; #[Reconstructed PDG2011]
#0.1620 gamma Upsilon(2S) HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP.
0.00023 gamma Upsilon_1(1D) PHSP;
#0.00023 gamma Upsilon_1(1D) HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
# T -> gamma T Partial wave (L,S)=(0,2)
0.00290 gamma Upsilon_2(1D) PHSP;
#0.00290 gamma Upsilon_2(1D) HELAMP -1. 0. -1.2247449 0.
# -1.2247449 0. -1. 0.
# 1. 0. 1.2247449 0.
# 1.2247449 0. 1. 0.;
# spin 3 not yet in HELAMP.
0.01420 gamma Upsilon_3(1D) PYTHIA 0;
# T-> gamma 3 Partial wave (L,S)=(0,2)
#0.01420 gamma Upsilon_3(1D) HELAMP 3.8729833 0. 3.1622777 0.
# 2.4494897 0. 1.7320508. 0. 1. 0.
# 1. 0. 1.7320508 0. 2.4494897 0.
# 3.1622777 0. 3.8729833 0.;
0.734240000 g g PYTHIA 91;
0.011000000 omega Upsilon PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000390000 pi+ pi+ pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000090000 pi+ pi+ pi- pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000240000 pi+ pi+ pi- pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000470000 pi+ pi+ pi- pi- K+ K- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000090000 pi+ pi+ pi+ pi- pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001200000 pi+ pi+ pi+ pi- pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000140000 pi+ pi+ pi+ pi- pi- pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000420000 pi+ pi+ pi+ pi- pi- pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000090000 pi+ pi+ pi+ pi+ pi- pi- pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001300000 pi+ pi+ pi+ pi+ pi- pi- pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay h_b
1.00000 g g PYTHIA 91;
Enddecay
Decay chi_b0(3P)
#see Kwong and Rosner, PRD 38,279 (1988)
# S-> gamma V Partial wave (L,S)=(0,0)
0.01700 gamma Upsilon(3S) HELAMP 1. 0. 1. 0.;
# S-> gamma V Partial wave (L,S)=(0,0)
0.00400 gamma Upsilon_1(2D) HELAMP 1. 0. 1. 0.;
0.97900 g g PYTHIA 91;
Enddecay
Decay chi_b1(3P)
#see Kwong and Rosner, PRD 38,279 (1988)
# V-> gamma V Partial wave (L,S)=(0,1)
0.15000 gamma Upsilon(3S) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
# V-> gamma T Partial wave (L,S)=(0,1)
0.03100 gamma Upsilon_2(2D) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.;
# V-> gamma V Partial wave (L,S)=(0,1)
0.01300 gamma Upsilon_1(2D) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
0.80600 g g PYTHIA 91;
Enddecay
Decay chi_b2(3P)
#see Kwong and Rosner, PRD 38,279 (1988)
# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP.
0.08700 gamma Upsilon(3S) PHSP;
0.00000 gamma Upsilon(2S) PHSP;
0.00000 gamma Upsilon PHSP;
#0.08700 gamma Upsilon(3S) HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
#0.00000 gamma Upsilon(2S) HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
#0.00000 gamma Upsilon HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
# spin 3 not yet in HELAMP
0.02200 Upsilon_3(2D) gamma PHSP;
# T -> gamma 3 Partial wave (L,S)=(0,2)
#0.02200 gamma Upsilon_3(2D) HELAMP 3.8729833 0. 3.1622777 0.
# 2.4494897 0. 1.7320508. 0. 1. 0.
# 1. 0. 1.7320508 0. 2.4494897 0.
# 3.1622777 0. 3.8729833 0.;
# T -> gamma T Partial wave (L,S)=(0,2)
0.00400 gamma Upsilon_2(2D) PHSP;
#0.00400 gamma Upsilon_2(2D) HELAMP -1. 0. -1.2247449 0.
# -1.2247449 0. -1. 0.
# 1. 0. 1.2247449 0.
# 1.2247449 0. 1. 0.;
# T-> gamma V Partial wave (L,S)=(0,2)
0.00040 gamma Upsilon_1(2D) PHSP;
#0.00040 gamma Upsilon_1(2D) HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
0.88660 g g PYTHIA 91;
Enddecay
Decay Upsilon_1(1D)
#see Kwong and Rosner, PRD 38,279 (1988)
0.00140 Upsilon pi+ pi- PHSP;
0.00070 Upsilon pi0 pi0 PHSP;
# V-> gamma S Partial wave (L,S)=(0,1)
0.60200 gamma chi_b0 HELAMP 1. 0. +1. 0.;
# V-> gamma V Partial wave (L,S)=(0,1)
0.31800 gamma chi_b1 HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
# V-> gamma T Partial wave (L,S)=(0,1)
0.02600 gamma chi_b2 HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.;
0.05190 g g g PYTHIA 92;
Enddecay
Decay Upsilon_2(1D)
#see Kwong and Rosner, PRD 38,279 (1988)
0.00140 Upsilon pi+ pi- PHSP;
0.00070 Upsilon pi0 pi0 PHSP;
# T-> gamma T Partial wave (L,S)=(0,2)
0.20300 gamma chi_b2 PHSP;
#0.20300 gamma chi_b2 HELAMP -1. 0. -1.2247449 0.
# -1.2247449 0. -1. 0.
# 1. 0. 1.2247449 0.
# 1.2247449 0. 1. 0.;
# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP.
0.78500 gamma chi_b1 PHSP;
#0.78500 gamma chi_b1 HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
0.00990 g g g PYTHIA 92;
Enddecay
Decay Upsilon_3(1D)
#see Kwong and Rosner, PRD 38,279 (1988)
0.00200 Upsilon pi+ pi- PHSP;
0.00100 Upsilon pi0 pi0 PHSP;
0.95400 chi_b2 gamma PHSP;
0.04300 g g g PYTHIA 92;
Enddecay
Decay Upsilon_1(2D)
#see Kwong and Rosner, PRD 38,279 (1988)
0.00000 Upsilon pi+ pi- PHSP;
0.00000 Upsilon pi0 pi0 PHSP;
0.00000 Upsilon(2S) pi+ pi- PHSP;
0.00000 Upsilon(2S) pi0 pi0 PHSP;
# V-> gamma S Partial wave (L,S)=(0,1)
0.51000 gamma chi_b0(2P) HELAMP 1. 0. +1. 0.;
# V-> gamma V Partial wave (L,S)=(0,1)
0.26000 gamma chi_b1(2P) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
# V-> gamma T Partial wave (L,S)=(0,1)
0.01400 gamma chi_b2(2P) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.;
0.21600 g g g PYTHIA 92;
Enddecay
Decay Upsilon_2(2D)
#see Kwong and Rosner, PRD 38,279 (1988)
0.00000 Upsilon pi+ pi- PHSP;
0.00000 Upsilon pi0 pi0 PHSP;
0.00000 Upsilon(2S) pi+ pi- PHSP;
0.00000 Upsilon(2S) pi0 pi0 PHSP;
# T-> gamma T Partial wave (L,S)=(0,2)
0.04000 gamma chi_b2(2P) PHSP;
#0.04000 gamma chi_b2(2P) HELAMP -1. 0. -1.2247449 0.
# -1.2247449 0. -1. 0.
# 1. 0. 1.2247449 0.
# 1.2247449 0. 1. 0.;
# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP.
0.13000 gamma chi_b1(2P) PHSP;
#0.13000 gamma chi_b1(2P) HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
0.83000 g g g PYTHIA 92;
Enddecay
Decay Upsilon_3(2D)
#see Kwong and Rosner, PRD 38,279 (1988)
0.00000 Upsilon pi+ pi- PHSP;
0.00000 Upsilon pi0 pi0 PHSP;
0.00000 Upsilon(2S) pi+ pi- PHSP;
0.00000 Upsilon(2S) pi0 pi0 PHSP;
0.72000 chi_b2(2P) gamma PHSP;
0.28000 g g g PYTHIA 92;
Enddecay
Decay h_b(2P)
1.00000 g g PYTHIA 91;
Enddecay
Decay h_b(3P)
1.00000 g g PYTHIA 91;
Enddecay
Decay eta_b2(1D)
1.00000 g g PYTHIA 91;
Enddecay
Decay eta_b2(2D)
1.00000 g g PYTHIA 91;
Enddecay
#
# Charm Baryons
#
Decay Lambda_c+
0.021000000 e+ nu_e Lambda0 PYTHIA 22;
0.00500 e+ nu_e Sigma0 PYTHIA 22;
0.00500 e+ nu_e Sigma*0 PYTHIA 22;
0.00300 e+ nu_e n0 PYTHIA 22;
0.00200 e+ nu_e Delta0 PYTHIA 22;
0.00600 e+ nu_e p+ pi- PYTHIA 22;
0.00600 e+ nu_e n0 pi0 PYTHIA 22;
0.020000000 mu+ nu_mu Lambda0 PYTHIA 22;
0.00500 mu+ nu_mu Sigma0 PYTHIA 22;
0.00500 mu+ nu_mu Sigma*0 PYTHIA 22;
0.00300 mu+ nu_mu n0 PYTHIA 22;
0.00200 mu+ nu_mu Delta0 PYTHIA 22;
0.00600 mu+ nu_mu p+ pi- PYTHIA 22;
0.00600 mu+ nu_mu n0 pi0 PYTHIA 22;
0.008600000 Delta++ K- PYTHIA 0;
0.02500 Delta++ K*- PYTHIA 0;
0.023000000 p+ anti-K0 PYTHIA 0;
0.016000000 p+ anti-K*0 PYTHIA 0;
0.00500 Delta+ anti-K0 PYTHIA 0;
0.00500 Delta+ anti-K*0 PYTHIA 0;
0.010700000 Lambda0 pi+ PYTHIA 0;
0.00500 Lambda0 rho+ PYTHIA 0;
0.010500000 Sigma0 pi+ PYTHIA 0;
0.00400 Sigma0 rho+ PYTHIA 0;
0.00400 Sigma*0 pi+ PYTHIA 0;
0.00400 Sigma*0 rho+ PYTHIA 0;
0.010000000 Sigma+ pi0 PYTHIA 0;
0.005500000 Sigma+ eta PYTHIA 0;
0.00200 Sigma+ eta' PYTHIA 0;
0.00400 Sigma+ rho0 PYTHIA 0;
0.027000000 Sigma+ omega PYTHIA 0;
0.00300 Sigma*+ pi0 PYTHIA 0;
0.008500000 Sigma*+ eta PYTHIA 0;
0.00300 Sigma*+ rho0 PYTHIA 0;
0.00300 Sigma*+ omega PYTHIA 0;
0.003900000 Xi0 K+ PYTHIA 0;
0.00200 Xi0 K*+ PYTHIA 0;
0.002600000 Xi*0 K+ PYTHIA 0;
0.00100 Delta++ pi- PYTHIA 0;
0.00100 Delta++ rho- PYTHIA 0;
0.00200 p+ pi0 PYTHIA 0;
0.00100 p+ eta PYTHIA 0;
0.00100 p+ eta' PYTHIA 0;
0.00200 p+ rho0 PYTHIA 0;
0.00200 p+ omega PYTHIA 0;
0.000820000 p+ phi PYTHIA 0;
0.002800000 p+ f_0 PYTHIA 0;
0.00100 Delta+ pi0 PYTHIA 0;
0.00100 Delta+ eta PYTHIA 0;
0.00100 Delta+ eta' PYTHIA 0;
0.00100 Delta+ rho0 PYTHIA 0;
0.00100 Delta+ omega PYTHIA 0;
0.00300 n0 pi+ PYTHIA 0;
0.00300 n0 rho+ PYTHIA 0;
0.00300 Delta0 pi+ PYTHIA 0;
0.00300 Delta0 rho+ PYTHIA 0;
0.00500 Lambda0 K+ PYTHIA 0;
0.00500 Lambda0 K*+ PYTHIA 0;
0.00200 Sigma0 K+ PYTHIA 0;
0.00200 Sigma0 K*+ PYTHIA 0;
0.00100 Sigma*0 K+ PYTHIA 0;
0.00100 Sigma*0 K*+ PYTHIA 0;
0.00200 Sigma+ K0 PYTHIA 0;
0.002800000 Sigma+ K*0 PYTHIA 0;
0.00100 Sigma*+ K0 PYTHIA 0;
0.00100 Sigma*+ K*0 PYTHIA 0;
0.064094509 u anti-d d su_0 PYTHIA 43;
0.028102977 u anti-d d su_1 PYTHIA 43;
0.017256214 u anti-s d su_0 PYTHIA 43;
0.017256214 u anti-d d ud_0 PYTHIA 43;
0.046838295 s uu_1 PYTHIA 43;
0.069024855 u su_0 PYTHIA 43;
0.069024855 u su_1 PYTHIA 43;
0.014791040 d uu_1 PYTHIA 43;
0.007395520 u ud_0 PYTHIA 43;
0.007395520 u ud_1 PYTHIA 43;
0.025400000 p+ K- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.033000000 p+ anti-K0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.012000000 p+ anti-K0 eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.026000000 p+ anti-K0 pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.023000000 p+ K- pi+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.011000000 p+ K*- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001100000 p+ K- pi+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.008000000 p+ K- pi+ pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000700000 p+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001800000 p+ pi+ pi+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 p+ K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.036000000 Lambda0 pi+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.015000000 Lambda0 pi+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.011000000 Lambda0 pi+ rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 Lambda0 pi+ pi+ pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.009500000 Lambda0 pi+ eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.012000000 Lambda0 pi+ omega PHSP; #[New mode added] #[Reconstructed PDG2011]
0.004700000 Lambda0 K+ anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.036000000 Sigma+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.017000000 Sigma- pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.018000000 Sigma0 pi+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.008300000 Sigma0 pi+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 Sigma+ K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.003100000 Sigma+ phi PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002500000 Xi- K+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 Sigma+ K+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
CDecay anti-Lambda_c-
#
Decay Xi_c0
1.000 PYTHIA 42;
Enddecay
Decay anti-Xi_c0
1.000 PYTHIA 42;
Enddecay
#
Decay c-hadron
0.08000 e+ nu_e s specflav PYTHIA 22;
0.08000 mu+ nu_mu s specflav PYTHIA 22;
0.76000 u anti-d s specflav PYTHIA 42;
0.08000 u anti-s s specflav PYTHIA 42;
Enddecay
CDecay anti-c-hadron
#
Decay Sigma_c0
1.0000 Lambda_c+ pi- PHSP;
Enddecay
Decay anti-Sigma_c0
1.0000 anti-Lambda_c- pi+ PHSP;
Enddecay
#
Decay Sigma_c+
1.0000 Lambda_c+ pi0 PHSP;
Enddecay
Decay anti-Sigma_c-
1.0000 anti-Lambda_c- pi0 PHSP;
Enddecay
#
Decay Xi_c+
0.079535513 PYTHIA 42;
0.079535513 Sigma*+ anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.025689971 Lambda0 K- pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.010339617 Sigma+ K- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.064423765 Sigma+ anti-K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.023065299 Sigma0 K- pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.043744532 Xi0 pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.079535513 Xi- pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.186113099 Xi0 pi+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.138391792 Xi0 pi- pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.182931679 Xi0 e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.005567486 Omega- K+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.007158196 p+ K- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.009544262 p+ anti-K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.038177046 Sigma+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.014316392 Sigma- pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.011930327 Sigma+ K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay anti-Xi_c-
0.079535513 PYTHIA 42;
0.079535513 anti-Sigma*- K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.025689971 anti-Lambda0 K+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.010339617 anti-Sigma- K+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.064423765 anti-Sigma- K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.023065299 anti-Sigma0 K+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.043744532 anti-Xi0 pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.079535513 anti-Xi+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.186113099 anti-Xi0 pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.138391792 anti-Xi0 pi+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.182931679 anti-Xi0 e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.005567486 anti-Omega+ K- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.007158196 anti-p- K+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.009544262 anti-p- K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.038177046 anti-Sigma- pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.014316392 anti-Sigma+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.011930327 anti-Sigma- K- K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay Sigma_c++
1.0000 Lambda_c+ pi+ PHSP;
Enddecay
Decay anti-Sigma_c--
1.0000 anti-Lambda_c- pi- PHSP;
Enddecay
#
Decay Xi'_c+
0.1000 Lambda0 K- pi+ pi+ PHSP;
0.0800 Sigma0 K- pi+ pi+ PHSP;
0.8200 gamma Xi_c+ PHSP;
Enddecay
Decay anti-Xi'_c-
0.1000 anti-Lambda0 K+ pi- pi- PHSP;
0.0800 anti-Sigma0 K+ pi- pi- PHSP;
0.8200 gamma anti-Xi_c- PHSP;
Enddecay
#
Decay Xi'_c0
1.0000 gamma Xi_c0 PHSP;
Enddecay
Decay anti-Xi'_c0
1.0000 gamma anti-Xi_c0 PHSP;
Enddecay
#
# Light Baryons
# Lambda0 updated Feb 2009
Decay Lambda0
0.638719992 p+ pi- PHSP; #[Reconstructed PDG2011]
0.357719992 n0 pi0 PHSP; #[Reconstructed PDG2011]
0.001741600 n0 gamma PHSP; #[Reconstructed PDG2011]
0.000832160 p+ pi- gamma PHSP; #[Reconstructed PDG2011]
-0.000831216 p+ e- anti-nu_e PHOTOS PHSP; #[Reconstructed PDG2011]
-0.000155040 p+ mu- anti-nu_mu PHOTOS PHSP; #[Reconstructed PDG2011]
+0.000831216 p+ e- anti-nu_e FSR PHSP; #[Reconstructed PDG2011]
+0.000155040 p+ mu- anti-nu_mu FSR PHSP; #[Reconstructed PDG2011]
Enddecay
#
Decay anti-Lambda0
0.638719992 anti-p- pi+ PHSP; #[Reconstructed PDG2011]
0.357719992 anti-n0 pi0 PHSP; #[Reconstructed PDG2011]
0.001741600 anti-n0 gamma PHSP; #[Reconstructed PDG2011]
0.000832160 anti-p- pi+ gamma PHSP; #[Reconstructed PDG2011]
-0.000831216 anti-p- e+ nu_e PHOTOS PHSP; #[Reconstructed PDG2011]
-0.000155040 anti-p- mu+ nu_mu PHOTOS PHSP; #[Reconstructed PDG2011]
+0.000831216 anti-p- e+ nu_e FSR PHSP; #[Reconstructed PDG2011]
+0.000155040 anti-p- mu+ nu_mu FSR PHSP; #[Reconstructed PDG2011]
Enddecay
#
Decay Lambda(1405)0
0.3333 Sigma+ pi- PHSP;
0.3333 Sigma- pi+ PHSP;
0.3333 Sigma0 pi0 PHSP;
Enddecay
#
Decay anti-Lambda(1405)0
0.3333 anti-Sigma+ pi- PHSP;
0.3333 anti-Sigma- pi+ PHSP;
0.3333 anti-Sigma0 pi0 PHSP;
Enddecay
#
Decay Lambda(1520)0
0.23 p+ K- PHSP;
0.23 n0 anti-K0 PHSP;
0.14 Sigma+ pi- PHSP;
0.14 Sigma- pi+ PHSP;
0.14 Sigma0 pi0 PHSP;
0.0333 Lambda0 pi0 pi0 PHSP;
0.0667 Lambda0 pi+ pi- PHSP;
0.003 Sigma+ pi- pi0 PHSP;
0.003 Sigma- pi+ pi0 PHSP;
0.001 Sigma0 pi0 pi0 PHSP;
0.002 Sigma0 pi+ pi- PHSP;
0.011 Lambda0 gamma PHSP;
Enddecay
#
Decay anti-Lambda(1520)0
0.23 anti-p- K+ PHSP;
0.23 anti-n0 K0 PHSP;
0.14 anti-Sigma- pi+ PHSP;
0.14 anti-Sigma+ pi- PHSP;
0.14 anti-Sigma0 pi0 PHSP;
0.0333 anti-Lambda0 pi0 pi0 PHSP;
0.0667 anti-Lambda0 pi+ pi- PHSP;
0.003 anti-Sigma+ pi- pi0 PHSP;
0.003 anti-Sigma- pi+ pi0 PHSP;
0.001 anti-Sigma0 pi0 pi0 PHSP;
0.002 anti-Sigma0 pi+ pi- PHSP;
0.011 anti-Lambda0 gamma PHSP;
Enddecay
#
Decay Lambda(1600)0
0.176 p+ K- PHSP;
0.176 n0 anti-K0 PHSP;
0.216 Sigma+ pi- PHSP;
0.216 Sigma- pi+ PHSP;
0.216 Sigma0 pi0 PHSP;
Enddecay
#
Decay anti-Lambda(1600)0
0.176 anti-p- K+ PHSP;
0.176 anti-n0 K0 PHSP;
0.216 anti-Sigma+ pi- PHSP;
0.216 anti-Sigma- pi+ PHSP;
0.216 anti-Sigma0 pi0 PHSP;
Enddecay
#
Decay Lambda(1670)0
0.10 p+ K- PHSP;
0.10 n0 anti-K0 PHSP;
0.16 Sigma+ pi- PHSP;
0.16 Sigma- pi+ PHSP;
0.16 Sigma0 pi0 PHSP;
0.32 Lambda0 eta PHSP;
Enddecay
#
Decay anti-Lambda(1670)0
0.10 anti-p- K+ PHSP;
0.10 anti-n0 K0 PHSP;
0.16 anti-Sigma+ pi- PHSP;
0.16 anti-Sigma- pi+ PHSP;
0.16 anti-Sigma0 pi0 PHSP;
0.32 anti-Lambda0 eta PHSP;
Enddecay
#
Decay Lambda(1690)0
0.125 p+ K- PHSP;
0.125 n0 anti-K0 PHSP;
0.10 Sigma+ pi- PHSP;
0.10 Sigma- pi+ PHSP;
0.10 Sigma0 pi0 PHSP;
0.0833 Lambda0 pi0 pi0 PHSP;
0.1667 Lambda0 pi+ pi- PHSP;
0.067 Sigma+ pi- pi0 PHSP;
0.067 Sigma- pi+ pi0 PHSP;
0.022 Sigma0 pi0 pi0 PHSP;
0.044 Sigma0 pi+ pi- PHSP;
Enddecay
#
Decay anti-Lambda(1690)0
0.125 anti-p- K+ PHSP;
0.125 anti-n0 K0 PHSP;
0.10 anti-Sigma+ pi- PHSP;
0.10 anti-Sigma- pi+ PHSP;
0.10 anti-Sigma0 pi0 PHSP;
0.0833 anti-Lambda0 pi0 pi0 PHSP;
0.1667 anti-Lambda0 pi+ pi- PHSP;
0.067 anti-Sigma+ pi- pi0 PHSP;
0.067 anti-Sigma- pi+ pi0 PHSP;
0.022 anti-Sigma0 pi0 pi0 PHSP;
0.044 anti-Sigma0 pi+ pi- PHSP;
Enddecay
#
Decay Lambda(1800)0
0.165 p+ K- PHSP;
0.165 n0 anti-K0 PHSP;
0.08 Sigma+ pi- PHSP;
0.08 Sigma- pi+ PHSP;
0.08 Sigma0 pi0 PHSP;
0.003 Sigma*+ pi- PHSP;
0.003 Sigma*- pi+ PHSP;
0.004 Sigma*0 pi0 PHSP;
0.21 p+ K*- PHSP;
0.21 n0 anti-K*0 PHSP;
Enddecay
#
Decay anti-Lambda(1800)0
0.165 anti-p- K+ PHSP;
0.165 anti-n0 K0 PHSP;
0.08 anti-Sigma+ pi- PHSP;
0.08 anti-Sigma- pi+ PHSP;
0.08 anti-Sigma0 pi0 PHSP;
0.003 anti-Sigma*+ pi- PHSP;
0.003 anti-Sigma*- pi+ PHSP;
0.004 anti-Sigma*0 pi0 PHSP;
0.21 anti-p- K*+ PHSP;
0.21 anti-n0 K*0 PHSP;
Enddecay
#
Decay Lambda(1810)0
0.165 p+ K- PHSP;
0.165 n0 anti-K0 PHSP;
0.08 Sigma+ pi- PHSP;
0.08 Sigma- pi+ PHSP;
0.08 Sigma0 pi0 PHSP;
0.003 Sigma*+ pi- PHSP;
0.003 Sigma*- pi+ PHSP;
0.004 Sigma*0 pi0 PHSP;
0.21 p+ K*- PHSP;
0.21 n0 anti-K*0 PHSP;
Enddecay
#
Decay anti-Lambda(1810)0
0.165 anti-p- K+ PHSP;
0.165 anti-n0 K0 PHSP;
0.08 anti-Sigma+ pi- PHSP;
0.08 anti-Sigma- pi+ PHSP;
0.08 anti-Sigma0 pi0 PHSP;
0.003 anti-Sigma*+ pi- PHSP;
0.003 anti-Sigma*- pi+ PHSP;
0.004 anti-Sigma*0 pi0 PHSP;
0.21 anti-p- K*+ PHSP;
0.21 anti-n0 K*0 PHSP;
Enddecay
#
Decay Lambda(1820)0
0.34 p+ K- PHSP;
0.34 n0 anti-K0 PHSP;
0.06 Sigma+ pi- PHSP;
0.06 Sigma- pi+ PHSP;
0.06 Sigma0 pi0 PHSP;
0.04 Sigma*+ pi- PHSP;
0.04 Sigma*- pi+ PHSP;
0.04 Sigma*0 pi0 PHSP;
0.01 Lambda0 eta PHSP;
0.003 Sigma+ pi- pi0 PHSP;
0.004 Sigma- pi+ pi0 PHSP;
0.001 Sigma0 pi0 pi0 PHSP;
0.002 Sigma0 pi+ pi- PHSP;
Enddecay
#
Decay anti-Lambda(1820)0
0.34 anti-p- K+ PHSP;
0.34 anti-n0 K0 PHSP;
0.06 anti-Sigma+ pi- PHSP;
0.06 anti-Sigma- pi+ PHSP;
0.06 anti-Sigma0 pi0 PHSP;
0.04 anti-Sigma*+ pi- PHSP;
0.04 anti-Sigma*- pi+ PHSP;
0.04 anti-Sigma*0 pi0 PHSP;
0.01 anti-Lambda0 eta PHSP;
0.003 anti-Sigma+ pi- pi0 PHSP;
0.004 anti-Sigma- pi+ pi0 PHSP;
0.001 anti-Sigma0 pi0 pi0 PHSP;
0.002 anti-Sigma0 pi+ pi- PHSP;
Enddecay
#
Decay Lambda(1830)0
0.05 p+ K- PHSP;
0.05 n0 anti-K0 PHSP;
0.24 Sigma+ pi- PHSP;
0.24 Sigma- pi+ PHSP;
0.24 Sigma0 pi0 PHSP;
0.06 Sigma*+ pi- PHSP;
0.06 Sigma*- pi+ PHSP;
0.06 Sigma*0 pi0 PHSP;
Enddecay
#
Decay anti-Lambda(1830)0
0.05 anti-p- K+ PHSP;
0.05 anti-n0 K0 PHSP;
0.24 anti-Sigma+ pi- PHSP;
0.24 anti-Sigma- pi+ PHSP;
0.24 anti-Sigma0 pi0 PHSP;
0.06 anti-Sigma*+ pi- PHSP;
0.06 anti-Sigma*- pi+ PHSP;
0.06 anti-Sigma*0 pi0 PHSP;
Enddecay
#
#
Decay Sigma(1660)0
0.07 p+ K- PHSP;
0.07 n0 anti-K0 PHSP;
0.16 Lambda0 pi0 PHSP;
0.35 Sigma+ pi- PHSP;
0.35 Sigma- pi+ PHSP;
Enddecay
#
Decay anti-Sigma(1660)0
0.07 anti-p- K+ PHSP;
0.07 anti-n0 K0 PHSP;
0.16 anti-Lambda0 pi0 PHSP;
0.35 anti-Sigma+ pi- PHSP;
0.35 anti-Sigma- pi+ PHSP;
Enddecay
#
Decay Sigma(1670)0
0.07 p+ K- PHSP;
0.07 n0 anti-K0 PHSP;
0.16 Lambda0 pi0 PHSP;
0.35 Sigma+ pi- PHSP;
0.35 Sigma- pi+ PHSP;
Enddecay
#
Decay anti-Sigma(1670)0
0.07 anti-p- K+ PHSP;
0.07 anti-n0 K0 PHSP;
0.16 anti-Lambda0 pi0 PHSP;
0.35 anti-Sigma+ pi- PHSP;
0.35 anti-Sigma- pi+ PHSP;
Enddecay
#
Decay Sigma(1775)0
0.215 p+ K- PHSP;
0.215 n0 anti-K0 PHSP;
0.20 Lambda0 pi0 PHSP;
0.02 Sigma+ pi- PHSP;
0.02 Sigma- pi+ PHSP;
0.055 Sigma*+ pi- PHSP;
0.055 Sigma*- pi+ PHSP;
0.22 Lambda(1520)0 pi0 PHSP;
Enddecay
#
Decay anti-Sigma(1775)0
0.215 anti-p- K+ PHSP;
0.215 anti-n0 K0 PHSP;
0.20 anti-Lambda0 pi0 PHSP;
0.02 anti-Sigma+ pi- PHSP;
0.02 anti-Sigma- pi+ PHSP;
0.055 anti-Sigma*+ pi- PHSP;
0.055 anti-Sigma*- pi+ PHSP;
0.22 anti-Lambda(1520)0 pi0 PHSP;
Enddecay
Decay Sigma+
0.515454300 p+ pi0 PHSP; #[Reconstructed PDG2011]
0.482854300 n0 pi+ PHSP; #[Reconstructed PDG2011]
0.001225905 p+ gamma PHSP; #[Reconstructed PDG2011]
0.000445905 n0 pi+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000019590 Lambda0 e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay anti-Sigma-
0.515454300 anti-p- pi0 PHSP; #[Reconstructed PDG2011]
0.482854300 anti-n0 pi- PHSP; #[Reconstructed PDG2011]
0.001225905 anti-p- gamma PHSP; #[Reconstructed PDG2011]
0.000445905 anti-n0 pi- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000019590 anti-Lambda0 e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay Delta+
0.6630 p+ pi0 PHSP;
0.3310 n0 pi+ PHSP;
0.0060 p+ gamma PHSP;
Enddecay
Decay anti-Delta-
0.6630 anti-p- pi0 PHSP;
0.3310 anti-n0 pi- PHSP;
0.0060 anti-p- gamma PHSP;
Enddecay
#
Decay Delta++
1.0000 p+ pi+ PHSP;
Enddecay
Decay anti-Delta--
1.0000 anti-p- pi- PHSP;
Enddecay
#
Decay Xi*0
0.3330 Xi0 pi0 PHSP;
0.6670 Xi- pi+ PHSP;
Enddecay
Decay anti-Xi*0
0.3330 anti-Xi0 pi0 PHSP;
0.6670 anti-Xi+ pi- PHSP;
Enddecay
#
Decay Delta0
0.3310 p+ pi- PHSP;
0.6630 n0 pi0 PHSP;
0.0060 n0 gamma PHSP;
Enddecay
Decay anti-Delta0
0.3310 anti-p- pi+ PHSP;
0.6630 anti-n0 pi0 PHSP;
0.0060 anti-n0 gamma PHSP;
Enddecay
#
Decay Delta-
1.0000 n0 pi- PHSP;
Enddecay
Decay anti-Delta+
1.0000 anti-n0 pi+ PHSP;
Enddecay
#
Decay Sigma-
0.998015700 n0 pi- PHSP; #[Reconstructed PDG2011]
0.000460000 n0 pi- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001017000 n0 e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000450000 n0 mu- anti-nu_mu PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000057300 Lambda0 e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay anti-Sigma+
0.998015700 anti-n0 pi+ PHSP; #[Reconstructed PDG2011]
0.000460000 anti-n0 pi+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001017000 anti-n0 e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000450000 anti-n0 mu+ nu_mu PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000057300 anti-Lambda0 e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay Sigma0
0.995024876 gamma Lambda0 PHSP; #[Reconstructed PDG2011]
0.004975124 Lambda0 e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay anti-Sigma0
0.995024876 gamma anti-Lambda0 PHSP; #[Reconstructed PDG2011]
0.004975124 anti-Lambda0 e- e+ PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay Sigma*-
0.8800 Lambda0 pi- PHSP;
0.0600 Sigma0 pi- PHSP;
0.0600 Sigma- pi0 PHSP;
Enddecay
Decay anti-Sigma*+
0.8800 anti-Lambda0 pi+ PHSP;
0.0600 anti-Sigma0 pi+ PHSP;
0.0600 anti-Sigma+ pi0 PHSP;
Enddecay
#
Decay Sigma*+
0.8800 Lambda0 pi+ PHSP;
0.0600 Sigma+ pi0 PHSP;
0.0600 Sigma0 pi+ PHSP;
Enddecay
Decay anti-Sigma*-
0.8800 anti-Lambda0 pi- PHSP;
0.0600 anti-Sigma- pi0 PHSP;
0.0600 anti-Sigma0 pi- PHSP;
Enddecay
#
Decay Sigma*0
0.8800 Lambda0 pi0 PHSP;
0.0600 Sigma+ pi- PHSP;
0.0600 Sigma- pi+ PHSP;
Enddecay
Decay anti-Sigma*0
0.8800 anti-Lambda0 pi0 PHSP;
0.0600 anti-Sigma- pi+ PHSP;
0.0600 anti-Sigma+ pi- PHSP;
Enddecay
#
Decay Xi0
0.995242400 Lambda0 pi0 PHSP; #[Reconstructed PDG2011]
0.001162400 Lambda0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000007600 Lambda0 e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.003330000 Sigma0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000253000 Sigma+ e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004600 Sigma+ mu- anti-nu_mu PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay anti-Xi0
0.995242400 anti-Lambda0 pi0 PHSP; #[Reconstructed PDG2011]
0.001162400 anti-Lambda0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000007600 anti-Lambda0 e- e+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.003330000 anti-Sigma0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000253000 anti-Sigma- e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004600 anti-Sigma- mu+ nu_mu PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay Xi-
0.998870000 Lambda0 pi- PHSP; #[Reconstructed PDG2011]
0.000127000 Sigma- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000563000 Lambda0 e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000350000 Lambda0 mu- anti-nu_mu PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000087000 Sigma0 e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay anti-Xi+
0.998870000 anti-Lambda0 pi+ PHSP; #[Reconstructed PDG2011]
0.000127000 anti-Sigma+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000563000 anti-Lambda0 e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000350000 anti-Lambda0 mu+ nu_mu PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000087000 anti-Sigma0 e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay Xi*-
0.6670 Xi0 pi- PHSP;
0.3330 Xi- pi0 PHSP;
Enddecay
Decay anti-Xi*+
0.6670 anti-Xi0 pi+ PHSP;
0.3330 anti-Xi+ pi0 PHSP;
Enddecay
#
Decay Omega-
0.675949296 Lambda0 K- PHSP; #[Reconstructed PDG2011]
0.233949296 Xi0 pi- PHSP; #[Reconstructed PDG2011]
0.084828169 Xi- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 Xi- pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000493521 Xi*0 pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.004779718 Xi0 e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay anti-Omega+
0.675949296 anti-Lambda0 K+ PHSP; #[Reconstructed PDG2011]
0.233949296 anti-Xi0 pi+ PHSP; #[Reconstructed PDG2011]
0.084828169 anti-Xi+ pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 anti-Xi+ pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000493521 anti-Xi*0 pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.004779718 anti-Xi0 e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
#
Decay Sigma_c*0
1.0000 Lambda_c+ pi- PHSP;
Enddecay
CDecay anti-Sigma_c*0
#
Decay Sigma_c*+
1.0000 Lambda_c+ pi0 PHSP;
Enddecay
CDecay anti-Sigma_c*-
#
Decay Sigma_c*++
1.0000 Lambda_c+ pi+ PHSP;
Enddecay
CDecay anti-Sigma_c*--
#
Decay Xi_c*0
0.5000 Xi_c0 pi0 PHSP;
0.5000 Xi_c0 gamma PHSP;
Enddecay
CDecay anti-Xi_c*0
#
Decay Xi_c*+
0.5000 Xi_c+ pi0 PHSP;
0.5000 Xi_c+ gamma PHSP;
Enddecay
CDecay anti-Xi_c*-
#
Decay Omega_c0
1.00000 PYTHIA 42;
Enddecay
#
CDecay anti-Omega_c0
#
Decay Omega_c*0
1.0000 Omega_c0 gamma PHSP;
Enddecay
#
CDecay anti-Omega_c*0
#
Decay Xu0
# X_u^0 -> u anti-u
#
1.0 u anti-u PYTHIA 42;
Enddecay
Decay Xu+
# X_u^+ -> u anti-d
#
1.0 u anti-d PYTHIA 42;
Enddecay
CDecay Xu-
#lange - PYTHIA is making h_c mesons - better add a decay
# channel for them.
Decay h_c
0.01 J/psi pi0 PHSP;
0.5 eta_c gamma PHSP;
0.49 rndmflav anti-rndmflav PYTHIA 42;
Enddecay
# 12/08/03 RJT Update b-baryon decays...
Decay Lambda_b0
# SemiLeptonic Decays (inclusive BR = 7.7 +/- 1.8%)
0.050000000 Lambda_c+ e- anti-nu_e PHSP; #[Reconstructed PDG2011]
0.006300000 Lambda_c(2593)+ e- anti-nu_e PHSP; #[Reconstructed PDG2011]
0.011000000 Lambda_c(2625)+ e- anti-nu_e PHSP; #[Reconstructed PDG2011]
0.00000 Sigma_c0 pi+ e- anti-nu_e PHSP;
0.00000 Sigma_c+ pi0 e- anti-nu_e PHSP;
0.00000 Sigma_c++ pi- e- anti-nu_e PHSP;
0.00000 Sigma_c*0 pi+ e- anti-nu_e PHSP;
0.00000 Sigma_c*+ pi0 e- anti-nu_e PHSP;
0.00000 Sigma_c*++ pi- e- anti-nu_e PHSP;
#
0.050000000 Lambda_c+ mu- anti-nu_mu PHSP; #[Reconstructed PDG2011]
0.006300000 Lambda_c(2593)+ mu- anti-nu_mu PHSP; #[Reconstructed PDG2011]
0.011000000 Lambda_c(2625)+ mu- anti-nu_mu PHSP; #[Reconstructed PDG2011]
0.00000 Sigma_c0 pi+ mu- anti-nu_mu PHSP;
0.00000 Sigma_c+ pi0 mu- anti-nu_mu PHSP;
0.00000 Sigma_c++ pi- mu- anti-nu_mu PHSP;
0.00000 Sigma_c*0 pi+ mu- anti-nu_mu PHSP;
0.00000 Sigma_c*+ pi0 mu- anti-nu_mu PHSP;
0.00000 Sigma_c*++ pi- mu- anti-nu_mu PHSP;
#
0.01720 Lambda_c+ tau- anti-nu_tau PHSP;
0.00430 Lambda_c(2593)+ tau- anti-nu_tau PHSP;
0.00320 Lambda_c(2625)+ tau- anti-nu_tau PHSP;
0.00000 Sigma_c0 pi+ tau- anti-nu_tau PHSP;
0.00000 Sigma_c+ pi0 tau- anti-nu_tau PHSP;
0.00000 Sigma_c++ pi- tau- anti-nu_tau PHSP;
0.00000 Sigma_c*0 pi+ tau- anti-nu_tau PHSP;
0.00000 Sigma_c*+ pi0 tau- anti-nu_tau PHSP;
0.00000 Sigma_c*++ pi- tau- anti-nu_tau PHSP;
# Hadronic Decays with Lambda_c+
0.008800000 Lambda_c+ pi- PHSP; #[Reconstructed PDG2011]
0.02200 Lambda_c+ pi- pi+ pi- PHSP;
0.00055 Lambda_c+ K- PHSP;
0.02200 Lambda_c+ D_s- PHSP;
0.04400 Lambda_c+ D_s*- PHSP;
0.01000 Lambda_c+ rho- PHSP;
0.02000 Lambda_c+ a_1- PHSP;
0.02000 Lambda0 K0 pi+ pi+ pi- pi- PHSP;
# Addition PR LHCb 09 Apr 2004, Lambda_b -> Lambda D0b
0.00080 Lambda0 anti-D0 PHSP;
# Addition PR LHCb 04/07/04
0.000006000 p+ K- PHSP; #[Reconstructed PDG2011]
0.000003800 p+ pi- PHSP; #[Reconstructed PDG2011]
# Addition PR LHCb 09 Apr 2004, Lambda_b -> Lambda rho0 and -> Lambda phi
0.0000050 Lambda0 rho0 PHSP;
0.0000200 Lambda0 phi PHSP;
#
0.00047 Lambda0 J/psi PHSP;
0.00038 Lambda0 psi(2S) PHSP;
0.00100 Lambda0 eta_c PHSP;
0.00080 n0 D0 PHSP;
#
# Additional decays from hep-ph/9709372 scaled to the Lambda_c0 pi rate
0.00060 Sigma_c+ pi- PHSP;
0.00060 Sigma_c0 pi0 PHSP;
0.00040 Sigma_c0 eta PHSP;
0.00050 Sigma_c0 eta' PHSP;
0.00030 Xi_c0 K0 PHSP;
0.00050 Xi'_c0 K0 PHSP;
# PR LHCb 27 Apr 2004, addition of Pythia decays
0.398544837 anti-u d c ud_0 PYTHIA 23;
0.082218903 anti-u c d ud_0 PYTHIA 43;
0.072280354 anti-c s c ud_0 PYTHIA 43;
0.010842053 anti-u d u ud_0 PYTHIA 22;
0.010842053 anti-c s u ud_0 PYTHIA 22;
# PR LHCb 2 Dec 2004, add Lambda gamma decay mode
0.000065 Lambda0 gamma HELAMP 1. 0. 0. 0. ;
0.000059 Lambda(1520)0 gamma PHSP ;
0.000056 Lambda(1670)0 gamma HELAMP 1. 0. 0. 0. ;
0.000057 Lambda(1600)0 gamma HELAMP 1. 0. 0. 0. ;
0.056000000 Lambda_c+ pi+ pi- mu- anti-nu_mu PHSP; #[New mode added] #[Reconstructed PDG2011]
0.056000000 Lambda_c+ pi+ pi- e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay anti-Lambda_b0
# SemiLeptonic Decays (inclusive BR = 7.7 +/- 1.8%)
0.050000000 anti-Lambda_c- e+ nu_e PHSP; #[Reconstructed PDG2011]
0.006300000 anti-Lambda_c(2593)- e+ nu_e PHSP; #[Reconstructed PDG2011]
0.011000000 anti-Lambda_c(2625)- e+ nu_e PHSP; #[Reconstructed PDG2011]
0.00000 anti-Sigma_c0 pi- e+ nu_e PHSP;
0.00000 anti-Sigma_c- pi0 e+ nu_e PHSP;
0.00000 anti-Sigma_c-- pi+ e+ nu_e PHSP;
0.00000 anti-Sigma_c*0 pi- e+ nu_e PHSP;
0.00000 anti-Sigma_c*- pi0 e+ nu_e PHSP;
0.00000 anti-Sigma_c*-- pi+ e+ nu_e PHSP;
#
0.050000000 anti-Lambda_c- mu+ nu_mu PHSP; #[Reconstructed PDG2011]
0.006300000 anti-Lambda_c(2593)- mu+ nu_mu PHSP; #[Reconstructed PDG2011]
0.011000000 anti-Lambda_c(2625)- mu+ nu_mu PHSP; #[Reconstructed PDG2011]
0.00000 anti-Sigma_c0 pi- mu+ nu_mu PHSP;
0.00000 anti-Sigma_c- pi0 mu+ nu_mu PHSP;
0.00000 anti-Sigma_c-- pi+ mu+ nu_mu PHSP;
0.00000 anti-Sigma_c*0 pi- mu+ nu_mu PHSP;
0.00000 anti-Sigma_c*- pi0 mu+ nu_mu PHSP;
0.00000 anti-Sigma_c*-- pi+ mu+ nu_mu PHSP;
#
0.01720 anti-Lambda_c- tau+ nu_tau PHSP;
0.00430 anti-Lambda_c(2593)- tau+ nu_tau PHSP;
0.00320 anti-Lambda_c(2625)- tau+ nu_tau PHSP;
0.00000 anti-Sigma_c0 pi- tau+ nu_tau PHSP;
0.00000 anti-Sigma_c- pi0 tau+ nu_tau PHSP;
0.00000 anti-Sigma_c-- pi+ tau+ nu_tau PHSP;
0.00000 anti-Sigma_c*0 pi- tau+ nu_tau PHSP;
0.00000 anti-Sigma_c*- pi0 tau+ nu_tau PHSP;
0.00000 anti-Sigma_c*-- pi+ tau+ nu_tau PHSP;
# Hadronic Decays with anti-Lambda_c-
0.008800000 anti-Lambda_c- pi+ PHSP; #[Reconstructed PDG2011]
0.02200 anti-Lambda_c- pi+ pi+ pi- PHSP;
0.00055 anti-Lambda_c- K+ PHSP;
0.02200 anti-Lambda_c- D_s+ PHSP;
0.04400 anti-Lambda_c- D_s*+ PHSP;
0.01000 anti-Lambda_c- rho+ PHSP;
0.02000 anti-Lambda_c- a_1+ PHSP;
0.02000 Lambda0 anti-K0 pi- pi- pi+ pi+ PHSP;
# Addition LHCb PR 09 Apr 2004 Lambda_b -> Lambda D0b
0.00080 anti-Lambda0 D0 PHSP;
# PR LHCb 04/07/04 Addition
0.000006000 anti-p- K+ PHSP; #[Reconstructed PDG2011]
0.000003800 anti-p- pi+ PHSP; #[Reconstructed PDG2011]
# Addition PR LHCb 09 Apr 2004, Lambda_b -> Lambda rho0 and -> Lambda phi
0.0000050 anti-Lambda0 rho0 PHSP;
0.0000200 anti-Lambda0 phi PHSP;
#
0.00047 anti-Lambda0 J/psi PHSP;
0.00038 anti-Lambda0 psi(2S) PHSP;
0.001000 anti-Lambda0 eta_c PHSP;
0.00080 anti-n0 anti-D0 PHSP;
#
# Additional decays from hep-ph/9709372 scaled to the Lambda_c0 pi rate
0.00060 anti-Sigma_c- pi+ PHSP;
0.00060 anti-Sigma_c0 pi0 PHSP;
0.00040 anti-Sigma_c0 eta PHSP;
0.00050 anti-Sigma_c0 eta' PHSP;
0.00030 anti-Xi_c0 anti-K0 PHSP;
0.00050 anti-Xi'_c0 anti-K0 PHSP;
# PR LHCb 27 Apr 2004, addition of Pythia decays
0.398544837 u anti-d anti-c anti-ud_0 PYTHIA 23;
0.082218903 u anti-c anti-d anti-ud_0 PYTHIA 43;
0.072280354 c anti-s anti-c anti-ud_0 PYTHIA 43;
0.010842053 u anti-d anti-u anti-ud_0 PYTHIA 22;
0.010842053 c anti-s anti-u anti-ud_0 PYTHIA 22;
# PR LHCb 2 Dec 2004 add Lambda gamma
0.000065 anti-Lambda0 gamma HELAMP 0. 0. 1. 0. ;
0.000059 anti-Lambda(1520)0 gamma PHSP ;
0.000056 anti-Lambda(1670)0 gamma HELAMP 0. 0. 1. 0. ;
0.000057 anti-Lambda(1600)0 gamma HELAMP 0. 0. 1. 0. ;
0.056000000 anti-Lambda_c- pi- pi+ mu+ nu_mu PHSP; #[New mode added] #[Reconstructed PDG2011]
0.056000000 anti-Lambda_c- pi- pi+ e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay Xi_b-
# SemiLeptonic Decays
0.05460 Xi_c0 e- anti-nu_e PHSP;
0.05460 Xi_c0 mu- anti-nu_mu PHSP;
0.02000 Xi_c0 tau- anti-nu_tau PHSP;
# Hadronic Decays with Xi_c0
0.00600 Xi_c0 pi- PHSP;
0.02200 Xi_c0 pi- pi+ pi- PHSP;
0.00055 Xi_c0 K- PHSP;
0.02200 Xi_c0 D_s- PHSP;
0.00047 Xi- J/psi PHSP;
# added by D.Litvintsev 12/8/03:
0.00038 Xi- psi(2S) PHSP;
0.00018 D0 Lambda0 pi- PHSP;
0.00020 Sigma_c0 K- PHSP;
0.00020 Omega_c0 K- PHSP;
#
# aaa 10/19/05 Do not if this is correct but filling out with inclusives
0.38757 d anti-u d cs_0 PYTHIA 43;
0.16995 d anti-u d cs_1 PYTHIA 43;
0.06335 s anti-u d cs_0 PYTHIA 43;
0.00568 d anti-u s cs_1 PYTHIA 43;
0.00797 d anti-u s cs_0 PYTHIA 43;
0.06148 s anti-c d cs_0 PYTHIA 43;
0.06918 d anti-u d cd_0 PYTHIA 43;
0.03999 s anti-c d cd_0 PYTHIA 43;
0.00865 d anti-u d su_0 PYTHIA 43;
0.00500 s anti-c d su_0 PYTHIA 43;
Enddecay
Decay anti-Xi_b+
# SemiLeptonic Decays
0.05460 anti-Xi_c0 e+ nu_e PHSP;
0.05460 anti-Xi_c0 mu+ nu_mu PHSP;
0.02000 anti-Xi_c0 tau+ nu_tau PHSP;
# Hadronic Decays with anti-Xi_c0
0.00600 anti-Xi_c0 pi+ PHSP;
0.02200 anti-Xi_c0 pi+ pi+ pi- PHSP;
0.00055 anti-Xi_c0 K+ PHSP;
0.02200 anti-Xi_c0 D_s+ PHSP;
0.00047 anti-Xi+ J/psi PHSP;
# added by D.Litvintsev 12/8/03:
0.00038 anti-Xi+ psi(2S) PHSP;
0.00018 anti-D0 anti-Lambda0 pi+ PHSP;
0.00020 anti-Sigma_c0 K+ PHSP;
0.00020 anti-Omega_c0 K+ PHSP;
# aaa 10/19/05 Do not if this is correct but filling out with inclusives
0.38757 u anti-d anti-d anti-cs_0 PYTHIA 43;
0.16995 u anti-d anti-d anti-cs_1 PYTHIA 43;
0.06335 u anti-s anti-d anti-cs_0 PYTHIA 43;
0.00568 u anti-d anti-s anti-cs_1 PYTHIA 43;
0.00797 u anti-d anti-s anti-cs_0 PYTHIA 43;
0.06148 c anti-s anti-d anti-cs_0 PYTHIA 43;
0.06918 u anti-d anti-d anti-cd_0 PYTHIA 43;
0.03999 c anti-s anti-d anti-cd_0 PYTHIA 43;
0.00865 u anti-d anti-d anti-su_0 PYTHIA 43;
0.00500 c anti-s anti-d anti-su_0 PYTHIA 43;
Enddecay
Decay Xi_b0
# SemiLeptonic Decays
0.05460 Xi_c+ e- anti-nu_e PHSP;
0.05460 Xi_c+ mu- anti-nu_mu PHSP;
0.02000 Xi_c+ tau- anti-nu_tau PHSP;
# Hadronic Decays with Xi_c+
0.00600 Xi_c+ pi- PHSP;
0.02200 Xi_c+ pi- pi+ pi- PHSP;
0.00055 Xi_c+ K- PHSP;
0.02200 Xi_c+ D_s- PHSP;
0.00047 Xi0 J/psi PHSP;
# added by D.Litvintsev 12/8/03:
0.00020 D0 Lambda0 PHSP;
0.00010 Lambda_c+ K- PHSP;
0.00020 Sigma_c0 anti-K0 PHSP;
0.00020 Omega_c0 K0 PHSP;
#
# Additional decays from hep-ph/9709372 scaled to the Lambda_c0 pi rate
0.00020 Xi'_c+ pi- PHSP;
0.00003 Xi_c0 pi0 PHSP;
0.00015 Xi_c0 eta PHSP;
0.00004 Xi_c0 eta' PHSP;
0.00020 Xi'_c0 pi0 PHSP;
0.00020 Xi'_c0 eta PHSP;
0.00030 Xi'_c0 eta' PHSP;
0.00040 Sigma_c+ K- PHSP;
# aaa 10/19/05 Do not if this is correct but filling out with inclusives
0.58591 d anti-u s cu_0 PYTHIA 43;
0.01363 s anti-u s cu_1 PYTHIA 43;
0.09539 s anti-u s cc_1 PYTHIA 43;
0.10900 s anti-u d cu_1 PYTHIA 43;
0.01363 d anti-u d uu_1 PYTHIA 43;
Enddecay
Decay anti-Xi_b0
0.05460 anti-Xi_c- e+ nu_e PHSP;
0.05460 anti-Xi_c- mu+ nu_mu PHSP;
0.02000 anti-Xi_c- tau+ nu_tau PHSP;
# Hadronic Decays with anti-Xi_c-
0.00600 anti-Xi_c- pi+ PHSP;
0.02200 anti-Xi_c- pi+ pi+ pi- PHSP;
0.00055 anti-Xi_c- K+ PHSP;
0.02200 anti-Xi_c- D_s+ PHSP;
0.00047 anti-Xi0 J/psi PHSP;
# added by D.Litvintsev 12/8/03:
0.00020 anti-D0 anti-Lambda0 PHSP;
0.00010 anti-Lambda_c- K+ PHSP;
0.00020 anti-Sigma_c0 K0 PHSP;
0.00020 anti-Omega_c0 anti-K0 PHSP;
#
# Additional decays from hep-ph/9709372 scaled to the Lambda_c0 pi rate
0.00020 anti-Xi'_c- pi+ PHSP;
0.00003 anti-Xi_c0 pi0 PHSP;
0.00015 anti-Xi_c0 eta PHSP;
0.00004 anti-Xi_c0 eta' PHSP;
0.00020 anti-Xi'_c0 pi0 PHSP;
0.00020 anti-Xi'_c0 eta PHSP;
0.00030 anti-Xi'_c0 eta' PHSP;
0.00040 anti-Sigma_c- K+ PHSP;
# aaa 10/19/05 Do not if this is correct but filling out with inclusives
0.58591 u anti-d anti-s anti-cu_0 PYTHIA 43;
0.01363 u anti-s anti-s anti-cu_1 PYTHIA 43;
0.09539 u anti-s anti-s anti-cc_1 PYTHIA 43;
0.10900 u anti-s anti-d anti-cu_1 PYTHIA 43;
0.01363 u anti-d anti-d anti-uu_1 PYTHIA 43;
Enddecay
# added by D.Litvintsev 12/8/03:
Decay Omega_b-
# SemiLeptonic Decays
0.05460 Omega_c0 e- anti-nu_e PHSP;
0.05460 Omega_c0 mu- anti-nu_mu PHSP;
0.02000 Omega_c0 tau- anti-nu_tau PHSP;
# Hadronic Decays with Xi_c+
0.00600 Omega_c0 pi- PHSP;
0.02200 Omega_c0 pi- pi+ pi- PHSP;
0.00055 Omega_c0 K- PHSP;
0.02200 Omega_c0 D_s- PHSP;
0.0011 D0 Xi- PHSP;
#
0.00047 Omega- J/psi PHSP;
0.00038 Omega- psi(2S) PHSP;
# aaa 10/19/05 Do not if this is correct but filling out with inclusives
0.68192 d anti-u s cs_0 PYTHIA 43;
0.10910 d anti-u d cs_0 PYTHIA 43;
0.02728 d anti-u s su_0 PYTHIA 43;
Enddecay
Decay anti-Omega_b+
# SemiLeptonic Decays
0.05460 anti-Omega_c0 e+ nu_e PHSP;
0.05460 anti-Omega_c0 mu+ nu_mu PHSP;
0.02000 anti-Omega_c0 tau+ nu_tau PHSP;
# Hadronic Decays with Xi_c+
0.00600 anti-Omega_c0 pi+ PHSP;
0.02200 anti-Omega_c0 pi+ pi+ pi- PHSP;
0.00055 anti-Omega_c0 K+ PHSP;
0.02200 anti-Omega_c0 D_s+ PHSP;
0.0011 anti-D0 anti-Xi+ PHSP;
#
0.00047 anti-Omega+ J/psi PHSP;
0.00038 anti-Omega+ psi(2S) PHSP;
# aaa 10/19/05 Do not if this is correct but filling out with inclusives
0.68192 u anti-d anti-s anti-cs_0 PYTHIA 43;
0.10910 u anti-d anti-d anti-cs_0 PYTHIA 43;
0.02728 u anti-d anti-s anti-su_0 PYTHIA 43;
Enddecay
Decay Sigma_b+
1.00000 Lambda_b0 pi+ PHSP;
Enddecay
Decay anti-Sigma_b-
1.00000 anti-Lambda_b0 pi- PHSP;
Enddecay
Decay Sigma_b-
1.00000 Lambda_b0 pi- PHSP;
Enddecay
Decay anti-Sigma_b+
1.00000 anti-Lambda_b0 pi+ PHSP;
Enddecay
Decay Sigma_b0
- 1.00000 Lambda_b0 gamma PHOTOS PHSP;
+ 1.00000 Lambda_b0 gamma FSR PHSP;
Enddecay
Decay anti-Sigma_b0
- 1.00000 anti-Lambda_b0 gamma PHOTOS PHSP;
+ 1.00000 anti-Lambda_b0 gamma FSR PHSP;
Enddecay
#
# B_c Mesons
#
Decay B_c-
0.01600 tau- anti-nu_tau SLN;
#
# SemiLeptonic Decays
-0.01900 J/psi e- anti-nu_e PHOTOS PHSP;
-0.00094 psi(2S) e- anti-nu_e PHOTOS PHSP;
-0.00750 eta_c e- anti-nu_e PHOTOS PHSP;
-0.00020 eta_c(2S) e- anti-nu_e PHOTOS PHSP;
-0.00004 anti-D0 e- anti-nu_e PHOTOS PHSP;
-0.00018 anti-D*0 e- anti-nu_e PHOTOS PHSP;
-0.04030 anti-B_s0 e- anti-nu_e PHOTOS PHSP;
-0.05060 anti-B_s*0 e- anti-nu_e PHOTOS PHSP;
-0.00340 anti-B0 e- anti-nu_e PHOTOS PHSP;
-0.00580 anti-B*0 e- anti-nu_e PHOTOS PHSP;
-#
-0.01900 J/psi mu- anti-nu_mu PHOTOS PHSP;
-0.00094 psi(2S) mu- anti-nu_mu PHOTOS PHSP;
-0.00750 eta_c mu- anti-nu_mu PHOTOS PHSP;
-0.00020 eta_c(2S) mu- anti-nu_mu PHOTOS PHSP;
-0.00004 anti-D0 mu- anti-nu_mu PHOTOS PHSP;
-0.00018 anti-D*0 mu- anti-nu_mu PHOTOS PHSP;
-0.04030 anti-B_s0 mu- anti-nu_mu PHOTOS PHSP;
-0.05060 anti-B_s*0 mu- anti-nu_mu PHOTOS PHSP;
-0.00340 anti-B0 mu- anti-nu_mu PHOTOS PHSP;
-0.00580 anti-B*0 mu- anti-nu_mu PHOTOS PHSP;
+0.01900 J/psi e- anti-nu_e FSR PHSP;
+0.00094 psi(2S) e- anti-nu_e FSR PHSP;
+0.00750 eta_c e- anti-nu_e FSR PHSP;
+0.00020 eta_c(2S) e- anti-nu_e FSR PHSP;
+0.00004 anti-D0 e- anti-nu_e FSR PHSP;
+0.00018 anti-D*0 e- anti-nu_e FSR PHSP;
+0.04030 anti-B_s0 e- anti-nu_e FSR PHSP;
+0.05060 anti-B_s*0 e- anti-nu_e FSR PHSP;
+0.00340 anti-B0 e- anti-nu_e FSR PHSP;
+0.00580 anti-B*0 e- anti-nu_e FSR PHSP;
+#
+0.01900 J/psi mu- anti-nu_mu FSR PHSP;
+0.00094 psi(2S) mu- anti-nu_mu FSR PHSP;
+0.00750 eta_c mu- anti-nu_mu FSR PHSP;
+0.00020 eta_c(2S) mu- anti-nu_mu FSR PHSP;
+0.00004 anti-D0 mu- anti-nu_mu FSR PHSP;
+0.00018 anti-D*0 mu- anti-nu_mu FSR PHSP;
+0.04030 anti-B_s0 mu- anti-nu_mu FSR PHSP;
+0.05060 anti-B_s*0 mu- anti-nu_mu FSR PHSP;
+0.00340 anti-B0 mu- anti-nu_mu FSR PHSP;
+0.00580 anti-B*0 mu- anti-nu_mu FSR PHSP;
#
0.00480 J/psi tau- anti-nu_tau PHSP;
0.00008 psi(2S) tau- anti-nu_tau PHSP;
0.00230 eta_c tau- anti-nu_tau PHSP;
0.000016 eta_c(2S) tau- anti-nu_tau PHSP;
0.00002 anti-D0 tau- anti-nu_tau PHSP;
0.00008 anti-D*0 tau- anti-nu_tau PHSP;
#
#
# Hadronic Decays
0.00200 eta_c pi- PHSP;
0.00420 rho- eta_c SVS;
0.00013 eta_c K- PHSP;
0.00020 K*- eta_c SVS;
0.00130 J/psi pi- SVS;
0.00400 J/psi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00011 J/psi K- SVS;
0.00022 J/psi K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.000053 D- D0 PHSP;
0.000075 D*0 D- SVS;
0.000049 D*- D0 SVS;
0.00033 D*- D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0000048 D_s- D0 PHSP;
0.0000071 D*0 D_s- SVS;
0.0000045 D_s*- D0 SVS;
0.000026 D_s*- D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.0000003 D- anti-D0 PHSP;
0.0000003 anti-D*0 D- SVS;
0.0000004 D*- anti-D0 SVS;
0.0000016 anti-D*0 D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0000066 D_s- anti-D0 PHSP;
0.0000063 anti-D*0 D_s- SVS;
0.0000085 D_s*- anti-D0 SVS;
0.0000404 D_s*- anti-D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.00280 eta_c D_s- PHSP;
0.00270 D_s*- eta_c SVS;
0.00015 eta_c D- PHSP;
0.00010 D*- eta_c SVS;
0.00170 J/psi D_s- SVS;
0.00670 J/psi D_s*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00009 J/psi D- SVS;
0.00028 J/psi D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.16400 anti-B_s0 pi- PHSP;
0.07200 rho- anti-B_s0 SVS;
0.01060 anti-B_s0 K- PHSP;
0.00000 K*- anti-B_s0 SVS;
0.06500 anti-B_s*0 pi- SVS;
0.20200 anti-B_s*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00370 anti-B_s*0 K- SVS;
0.00000 anti-B_s*0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.01060 anti-B0 pi- PHSP;
0.00960 rho- anti-B0 SVS;
0.00070 anti-B0 K- PHSP;
0.00015 K*- anti-B0 SVS;
0.00950 anti-B*0 pi- SVS;
0.02570 anti-B*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00055 anti-B*0 K- SVS;
0.00058 anti-B*0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00037 B- pi0 PHSP;
0.00034 rho0 B- SVS;
0.01980 B- K0 PHSP;
0.00430 K*0 B- SVS;
0.00033 B*- pi0 SVS;
0.00090 B*- rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.01600 B*- K0 SVS;
0.01670 B*- K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
# PR LHCb 09 Apr 2004 Add B_c+ -> rho0 pi+
0.00002 rho0 pi- SVS;
0.06005 anti-c s PYTHIA 42;
# PR LHCb 27 Apr 2004 Add Pythia Modes
#
# ash 10/27/03 Do not if this is correct but filling out with unknown cs
#0.0200235 cs_0 anti-uu_0 PYTHIA 63;
#0.0400470 cs_1 anti-uu_1 PYTHIA 63;
#
Enddecay
# 09/15/03 A. Sanchez: Using BR's from hep-ph/0308214
#
# Total Br = 0.939865 + .06135 cs
Decay B_c+
0.01600 tau+ nu_tau SLN;
#
# SemiLeptonic Decays
-0.01900 J/psi e+ nu_e PHOTOS PHSP;
-0.00094 psi(2S) e+ nu_e PHOTOS PHSP;
-0.00750 eta_c e+ nu_e PHOTOS PHSP;
-0.00020 eta_c(2S) e+ nu_e PHOTOS PHSP;
-0.00004 D0 e+ nu_e PHOTOS PHSP;
-0.00018 D*0 e+ nu_e PHOTOS PHSP;
-0.04030 B_s0 e+ nu_e PHOTOS PHSP;
-0.05060 B_s*0 e+ nu_e PHOTOS PHSP;
-0.00340 B0 e+ nu_e PHOTOS PHSP;
-0.00580 B*0 e+ nu_e PHOTOS PHSP;
-#
-0.01900 J/psi mu+ nu_mu PHOTOS PHSP;
-0.00094 psi(2S) mu+ nu_mu PHOTOS PHSP;
-0.00750 eta_c mu+ nu_mu PHOTOS PHSP;
-0.00020 eta_c(2S) mu+ nu_mu PHOTOS PHSP;
-0.00004 D0 mu+ nu_mu PHOTOS PHSP;
-0.00018 D*0 mu+ nu_mu PHOTOS PHSP;
-0.04030 B_s0 mu+ nu_mu PHOTOS PHSP;
-0.05060 B_s*0 mu+ nu_mu PHOTOS PHSP;
-0.00340 B0 mu+ nu_mu PHOTOS PHSP;
-0.00580 B*0 mu+ nu_mu PHOTOS PHSP;
+0.01900 J/psi e+ nu_e FSR PHSP;
+0.00094 psi(2S) e+ nu_e FSR PHSP;
+0.00750 eta_c e+ nu_e FSR PHSP;
+0.00020 eta_c(2S) e+ nu_e FSR PHSP;
+0.00004 D0 e+ nu_e FSR PHSP;
+0.00018 D*0 e+ nu_e FSR PHSP;
+0.04030 B_s0 e+ nu_e FSR PHSP;
+0.05060 B_s*0 e+ nu_e FSR PHSP;
+0.00340 B0 e+ nu_e FSR PHSP;
+0.00580 B*0 e+ nu_e FSR PHSP;
+#
+0.01900 J/psi mu+ nu_mu FSR PHSP;
+0.00094 psi(2S) mu+ nu_mu FSR PHSP;
+0.00750 eta_c mu+ nu_mu FSR PHSP;
+0.00020 eta_c(2S) mu+ nu_mu FSR PHSP;
+0.00004 D0 mu+ nu_mu FSR PHSP;
+0.00018 D*0 mu+ nu_mu FSR PHSP;
+0.04030 B_s0 mu+ nu_mu FSR PHSP;
+0.05060 B_s*0 mu+ nu_mu FSR PHSP;
+0.00340 B0 mu+ nu_mu FSR PHSP;
+0.00580 B*0 mu+ nu_mu FSR PHSP;
#
0.00480 J/psi tau+ nu_tau PHSP;
0.00008 psi(2S) tau+ nu_tau PHSP;
0.00230 eta_c tau+ nu_tau PHSP;
0.000016 eta_c(2S) tau+ nu_tau PHSP;
0.00002 D0 tau+ nu_tau PHSP;
0.00008 D*0 tau+ nu_tau PHSP;
#
# Hadronic Decays
0.00200 eta_c pi+ PHSP;
0.00420 rho+ eta_c SVS;
0.00013 eta_c K+ PHSP;
0.00020 K*+ eta_c SVS;
0.00130 J/psi pi+ SVS;
0.00400 J/psi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00011 J/psi K+ SVS;
0.00022 J/psi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.000053 D+ anti-D0 PHSP;
0.000075 anti-D*0 D+ SVS;
0.000049 D*+ anti-D0 SVS;
0.00033 D*+ anti-D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0000048 D_s+ anti-D0 PHSP;
0.0000071 anti-D*0 D_s+ SVS;
0.0000045 D_s*+ anti-D0 SVS;
0.000026 D_s*+ anti-D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.0000003 D+ D0 PHSP;
0.0000003 D*0 D+ SVS;
0.0000004 D*+ D0 SVS;
0.0000016 D*0 D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0000066 D_s+ D0 PHSP;
0.0000063 D*0 D_s+ SVS;
0.0000085 D_s*+ D0 SVS;
0.0000404 D_s*+ D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.00280 eta_c D_s+ PHSP;
0.00270 D_s*+ eta_c SVS;
0.00015 eta_c D+ PHSP;
0.00010 D*+ eta_c SVS;
0.00170 J/psi D_s+ SVS;
0.00670 J/psi D_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00009 J/psi D+ SVS;
0.00028 J/psi D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.16400 B_s0 pi+ PHSP;
0.07200 rho+ B_s0 SVS;
0.01060 B_s0 K+ PHSP;
0.00000 K*+ B_s0 SVS;
0.06500 B_s*0 pi+ SVS;
0.20200 B_s*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00370 B_s*0 K+ SVS;
0.00000 B_s*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.01060 B0 pi+ PHSP;
0.00960 rho+ B0 SVS;
0.00070 B0 K+ PHSP;
0.00015 K*+ B0 SVS;
0.00950 B*0 pi+ SVS;
0.02570 B*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00055 B*0 K+ SVS;
0.00058 B*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00037 B+ pi0 PHSP;
0.00034 rho0 B+ SVS;
0.01980 B+ anti-K0 PHSP;
0.00430 K*0 B+ SVS;
0.00033 B*+ pi0 SVS;
0.00090 B*+ rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.01600 B*+ anti-K0 SVS;
0.01670 B*+ K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
# PR LHCb 09 Apr 2004 Add B_c+ -> rho0 pi+
0.00002 rho0 pi+ SVS;
0.06005 c anti-s PYTHIA 42;
# PR LHCb 27 Apr 2004 Add Pythia Modes
#
# ash 10/27/03 Do not if this is correct but filling out with unknown cs
#0.0200235 anti-cs_0 uu_0 PYTHIA 63;
#0.0400470 anti-cs_1 uu_1 PYTHIA 63;
#
Enddecay
# Add excited Lambda_c decays (R.J. Tesarek 12/9/03)
# Just a guess for the last two BR [Lambda_c(2593)+].
Decay Lambda_c(2593)+
0.096585366 Sigma_c++ pi- PHSP; #[Reconstructed PDG2011]
0.096585366 Sigma_c0 pi+ PHSP; #[Reconstructed PDG2011]
0.190000000 Lambda_c+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.096585366 Sigma_c+ pi0 PHSP; #[Reconstructed PDG2011]
0.036219512 Lambda_c+ pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.004024390 Lambda_c+ gamma PHSP; #[Reconstructed PDG2011]
0.240000000 Sigma_c*++ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.240000000 Sigma_c*0 pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay anti-Lambda_c(2593)-
0.096585366 anti-Sigma_c-- pi+ PHSP; #[Reconstructed PDG2011]
0.096585366 anti-Sigma_c0 pi- PHSP; #[Reconstructed PDG2011]
0.190000000 anti-Lambda_c- pi- pi+ PHSP; #[Reconstructed PDG2011]
0.096585366 anti-Sigma_c- pi0 PHSP; #[Reconstructed PDG2011]
0.036219512 anti-Lambda_c- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.004024390 anti-Lambda_c- gamma PHSP; #[Reconstructed PDG2011]
0.240000000 anti-Sigma_c*-- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.240000000 anti-Sigma_c*0 pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay Lambda_c(2625)+
0.670000000 Lambda_c+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.320294118 Lambda_c+ pi0 PHSP; #[Reconstructed PDG2011]
0.009705882 Lambda_c+ gamma PHSP; #[Reconstructed PDG2011]
Enddecay
Decay anti-Lambda_c(2625)-
0.670000000 anti-Lambda_c- pi- pi+ PHSP; #[Reconstructed PDG2011]
0.320294118 anti-Lambda_c- pi0 PHSP; #[Reconstructed PDG2011]
0.009705882 anti-Lambda_c- gamma PHSP; #[Reconstructed PDG2011]
Enddecay
# Add excited B hadrons (LHCb PR 10/03/04)
# Reference : Pythia 6.205 decay table
# PDG Id = 5312
Decay Xi'_b-
1.0000 Xi_b- gamma PHSP;
Enddecay
Decay anti-Xi'_b+
1.0000 anti-Xi_b+ gamma PHSP;
Enddecay
# PDG Id = 5322
Decay Xi'_b0
1.0000 Xi_b0 gamma PHSP;
Enddecay
Decay anti-Xi'_b0
1.0000 anti-Xi_b0 gamma PHSP;
Enddecay
# PDG Id = 10521
Decay B_0*+
0.6670 B0 pi+ PHSP;
0.3330 B+ pi0 PHSP;
Enddecay
Decay B_0*-
0.6670 anti-B0 pi- PHSP;
0.3330 B- pi0 PHSP;
Enddecay
# PDG Id = 20523 Broad : S wave
Decay B'_1+
0.6670 B*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3330 B*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay B'_1-
0.6670 anti-B*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3330 B*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
# PDG Id = 10523 Narrow : D wave
Decay B_1+
0.6670 B*0 pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.3330 B*+ pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay B_1-
0.6670 anti-B*0 pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.3330 B*- pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
# PDG Id = 525 Narrow : D wave
Decay B_2*+
0.3000 B0 pi+ TSS;
0.1500 B+ pi0 TSS;
0.1600 B*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0800 B*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1300 B*0 pi+ pi0 PHSP;
0.0600 B*+ pi+ pi- PHSP;
0.0800 B0 pi+ pi0 PHSP;
0.0400 B+ pi+ pi- PHSP;
Enddecay
Decay B_2*-
0.3000 anti-B0 pi- TSS;
0.1500 B- pi0 TSS;
0.1600 anti-B*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0800 B*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1300 anti-B*0 pi- pi0 PHSP;
0.0600 B*- pi- pi+ PHSP;
0.0800 anti-B0 pi- pi0 PHSP;
0.0400 B- pi- pi+ PHSP;
Enddecay
# PDG Id = 10511
Decay B_0*0
0.6670 B+ pi- PHSP;
0.3330 B0 pi0 PHSP;
Enddecay
Decay anti-B_0*0
0.6670 B- pi+ PHSP;
0.3330 anti-B0 pi0 PHSP;
Enddecay
# PDG Id = 20513 Broad : S wave
Decay B'_10
0.6670 B*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3330 B*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay anti-B'_10
0.6670 B*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3330 anti-B*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
# PDG Id = 10513 Narrow : D wave
Decay B_10
0.6670 B*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.3330 B*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay anti-B_10
0.6670 B*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.3330 anti-B*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
# PDG Id = 515
Decay B_2*0
0.3000 B+ pi- TSS;
0.1500 B0 pi0 TSS;
0.1600 B*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0800 B*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1300 B*+ pi- pi0 PHSP;
0.0600 B*0 pi+ pi- PHSP;
0.0800 B+ pi- pi0 PHSP;
0.0400 B0 pi+ pi- PHSP;
Enddecay
Decay anti-B_2*0
0.3000 B- pi+ TSS;
0.1500 anti-B0 pi0 TSS;
0.1600 B*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0800 anti-B*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1300 B*- pi+ pi0 PHSP;
0.0600 anti-B*0 pi- pi+ PHSP;
0.0800 B- pi+ pi0 PHSP;
0.0400 anti-B0 pi- pi+ PHSP;
Enddecay
# PDG Id = 10531
Decay B_s0*0
0.5000 B+ K- PHSP;
0.5000 B0 anti-K0 PHSP;
Enddecay
Decay anti-B_s0*0
0.5000 B- K+ PHSP;
0.5000 anti-B0 K0 PHSP;
Enddecay
# PDG Id = 20533 Broad : S wave
Decay B'_s10
0.5000 B*+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5000 B*0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay anti-B'_s10
0.5000 B*- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5000 anti-B*0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
# PDG Id = 10533 Narrow : D wave
Decay B_s10
0.5000 B*+ K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.5000 B*0 anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay anti-B_s10
0.5000 B*- K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.5000 anti-B*0 K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
# PDG Id = 535 Narrow : D wave
Decay B_s2*0
0.3000 B+ K- TSS;
0.3000 B0 anti-K0 TSS;
0.2000 B*+ K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2000 B*0 anti-K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
Decay anti-B_s2*0
0.3000 B- K+ TSS;
0.3000 anti-B0 K0 TSS;
0.2000 B*- K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2000 anti-B*0 K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
# PDG Id = 543
Decay B_c*+
1.0000 B_c+ gamma VSP_PWAVE;
Enddecay
Decay B_c*-
1.0000 B_c- gamma VSP_PWAVE;
Enddecay
# PDG Id = 545 Narrow : D wave
Decay B_c2*+
0.3000 B0 D+ TSS;
0.3000 B+ D0 TSS;
0.2000 B*0 D+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2000 B*+ D0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
Decay B_c2*-
0.3000 anti-B0 D- TSS;
0.3000 B- anti-D0 TSS;
0.2000 anti-B*0 D- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2000 B*- anti-D0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
# PDG Id = 5114
Decay Sigma_b*-
1.0000 Lambda_b0 pi- PHSP;
Enddecay
Decay anti-Sigma_b*+
1.0000 anti-Lambda_b0 pi+ PHSP;
Enddecay
# PDG Id = 5224
Decay Sigma_b*+
1.0000 Lambda_b0 pi+ PHSP;
Enddecay
Decay anti-Sigma_b*-
1.0000 anti-Lambda_b0 pi- PHSP;
Enddecay
# PDG Id = 5214
Decay Sigma_b*0
1.0000 Lambda_b0 pi0 PHSP;
Enddecay
Decay anti-Sigma_b*0
1.0000 anti-Lambda_b0 pi0 PHSP;
Enddecay
# PDG Id = 5314
Decay Xi_b*-
1.0000 Xi_b- gamma PHSP;
Enddecay
Decay anti-Xi_b*+
1.0000 anti-Xi_b+ gamma PHSP;
Enddecay
# PDG Id = 5324
Decay Xi_b*0
1.0000 Xi_b0 gamma PHSP;
Enddecay
Decay anti-Xi_b*0
1.0000 anti-Xi_b0 gamma PHSP;
Enddecay
# PDG Id = 5334
Decay Omega_b*-
1.0000 Omega_b- gamma PHSP;
Enddecay
Decay anti-Omega_b*+
1.0000 anti-Omega_b+ gamma PHSP;
Enddecay
# PDG Id = 10541
Decay B_c0*+
0.5000 B0 D+ PHSP;
0.5000 B+ D0 PHSP;
Enddecay
Decay B_c0*-
0.5000 anti-B0 D- PHSP;
0.5000 B- anti-D0 PHSP;
Enddecay
# PDG Id = 10543 Narrow : D wave
Decay B_c1+
0.5000 B*0 D+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.5000 B*+ D0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay B_c1-
0.5000 anti-B*0 D- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.5000 B*- anti-D0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
# PDG Id = 20543 Broad : S wave
Decay B'_c1+
0.5000 B*0 D+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5000 B*+ D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay B'_c1-
0.5000 anti-B*0 D- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5000 B*- anti-D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
# Excited charmed Baryons LHCb PR 3-05-2006
Decay Xi_cc*++
0.08 e+ nu_e Xi_c+ PHSP ;
0.08 mu+ nu_mu Xi_c+ PHSP ;
0.51 u anti-d s cu_0 PYTHIA 42;
0.25 u anti-d s cu_1 PYTHIA 42;
0.05 u anti-s s cu_0 PYTHIA 42;
0.03 u anti-s s cu_1 PYTHIA 42;
Enddecay
Decay anti-Xi_cc*--
0.08 e- anti-nu_e anti-Xi_c- PHSP;
0.08 mu- anti-nu_mu anti-Xi_c- PHSP;
0.51 anti-u d anti-s anti-cu_0 PYTHIA 42;
0.25 anti-u d anti-s anti-cu_0 PYTHIA 42;
0.05 anti-u s anti-s anti-cu_1 PYTHIA 42;
0.03 anti-u s anti-s anti-cu_1 PYTHIA 42;
Enddecay
Decay Xi_cc++
0.08 e+ nu_e Xi_c+ PHSP ;
0.08 mu+ nu_mu Xi_c+ PHSP ;
0.51 u anti-d s cu_0 PYTHIA 42;
0.25 u anti-d s cu_1 PYTHIA 42;
0.05 u anti-s s cu_0 PYTHIA 42;
0.03 u anti-s s cu_1 PYTHIA 42;
Enddecay
Decay anti-Xi_cc--
0.08 e- anti-nu_e anti-Xi_c- PHSP;
0.08 mu- anti-nu_mu anti-Xi_c- PHSP;
0.51 anti-u d anti-s anti-cu_0 PYTHIA 42;
0.25 anti-u d anti-s anti-cu_0 PYTHIA 42;
0.05 anti-u s anti-s anti-cu_1 PYTHIA 42;
0.03 anti-u s anti-s anti-cu_1 PYTHIA 42;
Enddecay
Decay Xi_cc*+
0.08 e+ nu_e Xi_c0 PHSP;
0.08 mu+ nu_mu Xi_c0 PHSP;
0.51 u anti-d s cd_0 PYTHIA 42;
0.25 u anti-d s cd_1 PYTHIA 42;
0.05 u anti-s s cd_0 PYTHIA 42;
0.03 u anti-s s cd_1 PYTHIA 42;
Enddecay
Decay anti-Xi_cc*-
0.08 e- anti-nu_e anti-Xi_c0 PHSP;
0.08 mu- anti-nu_mu anti-Xi_c0 PHSP;
0.51 anti-u d anti-s anti-cd_0 PYTHIA 42;
0.25 anti-u d anti-s anti-cd_1 PYTHIA 42;
0.05 anti-u s anti-s anti-cd_0 PYTHIA 42;
0.03 anti-u s anti-s anti-cd_1 PYTHIA 42;
Enddecay
Decay Xi_cc+
0.08 e+ nu_e Xi_c0 PHSP;
0.08 mu+ nu_mu Xi_c0 PHSP;
0.51 u anti-d s cd_0 PYTHIA 42;
0.25 u anti-d s cd_1 PYTHIA 42;
0.05 u anti-s s cd_0 PYTHIA 42;
0.03 u anti-s s cd_1 PYTHIA 42;
Enddecay
Decay anti-Xi_cc-
0.08 e- anti-nu_e anti-Xi_c0 PHSP;
0.08 mu- anti-nu_mu anti-Xi_c0 PHSP;
0.51 anti-u d anti-s anti-cd_0 PYTHIA 42;
0.25 anti-u d anti-s anti-cd_1 PYTHIA 42;
0.05 anti-u s anti-s anti-cd_0 PYTHIA 42;
0.03 anti-u s anti-s anti-cd_1 PYTHIA 42;
Enddecay
Decay Omega_cc+
0.08 e+ nu_e Omega_c0 PHSP;
0.08 mu+ nu_mu Omega_c0 PHSP;
0.51 u anti-d s cs_0 PYTHIA 42;
0.25 u anti-d s cs_1 PYTHIA 42;
0.05 u anti-s s cs_0 PYTHIA 42;
0.03 u anti-s s cs_1 PYTHIA 42;
Enddecay
Decay anti-Omega_cc-
0.08 e- anti-nu_e anti-Omega_c0 PHSP;
0.08 mu- anti-nu_mu anti-Omega_c0 PHSP;
0.51 anti-u d anti-s anti-cs_0 PYTHIA 42;
0.25 anti-u d anti-s anti-cs_1 PYTHIA 42;
0.05 anti-u s anti-s anti-cs_0 PYTHIA 42;
0.03 anti-u s anti-s anti-cs_1 PYTHIA 42;
Enddecay
Decay Omega_cc*+
0.08 e+ nu_e Omega_c0 PHSP;
0.08 mu+ nu_mu Omega_c0 PHSP;
0.51 u anti-d s cs_0 PYTHIA 42;
0.25 u anti-d s cs_1 PYTHIA 42;
0.05 u anti-s s cs_0 PYTHIA 42;
0.03 u anti-s s cs_1 PYTHIA 42;
Enddecay
Decay anti-Omega_cc*-
0.08 e- anti-nu_e anti-Omega_c0 PHSP;
0.08 mu- anti-nu_mu anti-Omega_c0 PHSP;
0.51 anti-u d anti-s anti-cs_0 PYTHIA 42;
0.25 anti-u d anti-s anti-cs_1 PYTHIA 42;
0.05 anti-u s anti-s anti-cs_0 PYTHIA 42;
0.03 anti-u s anti-s anti-cs_1 PYTHIA 42;
Enddecay
Decay K_L0
#0.202464226 pi+ e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.202464226 pi- e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.135033299 pi+ mu- anti-nu_mu PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.135033299 pi- mu+ nu_mu PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000025738 pi0 pi+ e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000025738 pi0 pi- e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000006205 pi+ e- anti-nu_e e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000006205 pi- e+ nu_e e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.194795855 pi0 pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.125231606 pi+ pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.001880711 pi+ e- anti-nu_e gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.001880711 pi- e+ nu_e gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000277023 pi+ mu- anti-nu_mu gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000277023 pi- mu+ nu_mu gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000040995 pi+ pi- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000001262 pi0 gamma gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000000016 pi0 gamma e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000545653 gamma gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000009265 e+ e- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000000355 mu+ mu- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000000584 e+ e- gamma gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000000007 mu+ mu- gamma gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
End
diff --git a/DECAY.XML b/DECAY.XML
index 0257195..a99f552 100644
--- a/DECAY.XML
+++ b/DECAY.XML
@@ -1,11219 +1,11219 @@
DECAY.XML
XML Decay File for EvtGen - automatically generated by convertDecayFile.py
convertDecayFile.py
1.0
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diff --git a/DECAY_2009.DEC b/DECAY_2009.DEC
index 88cc903..18e84bb 100644
--- a/DECAY_2009.DEC
+++ b/DECAY_2009.DEC
@@ -1,9679 +1,9679 @@
########################################################################
# Copyright 1998-2020 CERN for the benefit of the EvtGen authors #
# #
# This file is part of EvtGen. #
# #
# EvtGen is free software: you can redistribute it and/or modify #
# it under the terms of the GNU General Public License as published by #
# the Free Software Foundation, either version 3 of the License, or #
# (at your option) any later version. #
# #
# EvtGen is distributed in the hope that it will be useful, #
# but WITHOUT ANY WARRANTY; without even the implied warranty of #
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the #
# GNU General Public License for more details. #
# #
# You should have received a copy of the GNU General Public License #
# along with EvtGen. If not, see . #
########################################################################
# Updated to PDG 2008 (By Mark Whitehead - m.p.whitehead@warwick.ac.uk)
# Updated Mixing Parameters Mark Whitehead May 2009
#
Define qoverp_incohMix_B_s0 1.0
Define dm_incohMix_B_s0 17.8e12
Define qoverp_incohMix_B0 1.0
Define dm_incohMix_B0 0.507e12
# Old definition of dm still in some decay models
Define dm 0.507e12
#Define dgamma 0
#Define qoverp 1
#Define phaseqoverp 0
#Define values for B0s mixing
#Define dms 20.e12
# DeltaGammas corresponds to DG/G = 10%
#Define dgammas 6.852e10
# Activate incoherent Mixing
### TODO: find a way to give mixing parameters through decay file to EvtGen
#####yesIncoherentB0Mixing dm dgamma
#####yesIncoherentBsMixing dms dgammas
# define the values of the CKM angles (alpha=70, beta=40)
Define alpha 1.365
Define beta 0.39
Define gamma 1.387
Define twoBetaPlusGamma 2.167
Define betaPlusHalfGamma 1.0835
Define minusGamma -1.387
Define minusTwoBeta -0.78
# New definitions for psiKstar modes (Lange, July 26, 2000)
Define PKHplus 0.159
Define PKHzero 0.775
Define PKHminus 0.612
Define PKphHplus 1.563
Define PKphHzero 0.0
Define PKphHminus 2.712
Define Aplus 0.490
Define Azero 1.10
Define Aminus 0.4
#
Define phAplus 2.5
Define phAzero 0.0
Define phAminus -0.17
#
# These particle aliases are used in for CP violating decays
# in which the decay distributions depends on how the K* decayed.
#
#
Alias K*L K*0
Alias K*S K*0
Alias K*BL anti-K*0
Alias K*BS anti-K*0
Alias K*0T K*0
Alias anti-K*0T anti-K*0
Alias K*BR anti-K*0
Alias K*0R K*0
Alias anti-K_0*0N anti-K_0*0
Alias K_0*0N K_0*0
#
ChargeConj K*L K*BL
ChargeConj K*S K*BS
ChargeConj K*0T anti-K*0T
ChargeConj K_0*0N anti-K_0*0N
ChargeConj K*0R K*BR
#
# PR LHCb: Alias for signal productions in LHCb
#
Alias B0sig B0
Alias anti-B0sig anti-B0
ChargeConj B0sig anti-B0sig
Alias B+sig B+
Alias B-sig B-
ChargeConj B+sig B-sig
Alias B_s0sig B_s0
Alias anti-B_s0sig anti-B_s0
ChargeConj B_s0sig anti-B_s0sig
Alias B_c+sig B_c+
Alias B_c-sig B_c-
ChargeConj B_c+sig B_c-sig
Alias eta_bsig eta_b
ChargeConj eta_bsig eta_bsig
Alias h_bsig h_b
ChargeConj h_bsig h_bsig
Alias Sigma_b-sig Sigma_b-
Alias anti-Sigma_b+sig anti-Sigma_b+
ChargeConj Sigma_b-sig anti-Sigma_b+sig
Alias Lambda_b0sig Lambda_b0
Alias anti-Lambda_b0sig anti-Lambda_b0
ChargeConj Lambda_b0sig anti-Lambda_b0sig
Alias Omega_b-sig Omega_b-
Alias anti-Omega_b+sig anti-Omega_b+
ChargeConj Omega_b-sig anti-Omega_b+sig
Alias Xi_b-sig Xi_b-
Alias anti-Xi_b+sig anti-Xi_b+
ChargeConj Xi_b-sig anti-Xi_b+sig
Alias Xi_b0sig Xi_b0
Alias anti-Xi_b0sig anti-Xi_b0
ChargeConj Xi_b0sig anti-Xi_b0sig
Alias J/psisig J/psi
ChargeConj J/psisig J/psisig
Alias chi_c0sig chi_c0
ChargeConj chi_c0sig chi_c0sig
Alias chi_c1sig chi_c1
ChargeConj chi_c1sig chi_c1sig
Alias chi_c2sig chi_c2
ChargeConj chi_c2sig chi_c2sig
Alias psi(2S)sig psi(2S)
ChargeConj psi(2S)sig psi(2S)sig
Alias psi(3770)sig psi(3770)
ChargeConj psi(3770)sig psi(3770)sig
Alias D*+sig D*+
Alias D*-sig D*-
ChargeConj D*+sig D*-sig
Alias D0sig D0
Alias anti-D0sig anti-D0
ChargeConj D0sig anti-D0sig
Alias D+sig D+
Alias D-sig D-
ChargeConj D+sig D-sig
Alias D_s+sig D_s+
Alias D_s-sig D_s-
ChargeConj D_s+sig D_s-sig
Alias Lambda_c+sig Lambda_c+
Alias anti-Lambda_c-sig anti-Lambda_c-
ChargeConj Lambda_c+sig anti-Lambda_c-sig
Alias tau+sig tau+
Alias tau-sig tau-
ChargeConj tau+sig tau-sig
Alias Upsilonsig Upsilon
ChargeConj Upsilonsig Upsilonsig
Alias Upsilon(2S)sig Upsilon(2S)
ChargeConj Upsilon(2S)sig Upsilon(2S)sig
Alias Upsilon(3S)sig Upsilon(3S)
ChargeConj Upsilon(3S)sig Upsilon(3S)sig
Alias Upsilon(4S)sig Upsilon(4S)
ChargeConj Upsilon(4S)sig Upsilon(4S)sig
Alias Upsilon(5S)sig Upsilon(5S)
ChargeConj Upsilon(5S)sig Upsilon(5S)sig
Alias X_1(3872)sig X_1(3872)
ChargeConj X_1(3872)sig X_1(3872)sig
Alias h_csig h_c
ChargeConj h_csig h_csig
Alias Sigma+sig Sigma+
Alias anti-Sigma-sig anti-Sigma-
ChargeConj Sigma+sig anti-Sigma-sig
Alias Lambda0sig Lambda0
Alias anti-Lambda0sig anti-Lambda0
ChargeConj Lambda0sig anti-Lambda0sig
#
#JetSet parameter modifications
#(Very important that there are no blank spaces in the parameter string!)
#Turn of B0-B0B mixing in JetSet:
## PR : done in PythiaProduction
## JetSetPar MSTJ(26)=0
# control of L=1 mesons (in order: J1S0 J0S1 J1S1 J2S1) - commented out by NB/WP
#JetSetPar PARJ(14)=0.05
#JetSetPar PARJ(15)=0.05
#JetSetPar PARJ(16)=0.05
#JetSetPar PARJ(17)=0.05
#cut-off parameter used to stop fragmentation process (should not be changed)
#####JetSetPar PARJ(33)=0.3 SET NOW IN GAUSS
# PR LHCb 10/01/2006
-# Turn on PHOTOS for all decays
-yesPhotos
+# Turn on FSR for all decays
+yesFSR
#
#
#Decay vpho
#1.000 PYCONT;
#Enddecay
#
# use new VSS_BMIX mixing decay model (DK,28-Oct-1999)
Decay Upsilon(4S)
0.508200 B+ B- VSS;
0.490000 B0 anti-B0 VSS_BMIX dm;
-0.000016 e+ e- PHOTOS VLL;
-0.000016 mu+ mu- PHOTOS VLL;
-0.000016 tau+ tau- PHOTOS VLL;
+0.000016 e+ e- FSR VLL;
+0.000016 mu+ mu- FSR VLL;
+0.000016 tau+ tau- FSR VLL;
0.000090 Upsilon(2S) pi+ pi- VVPIPI;
0.000045 Upsilon(2S) pi0 pi0 VVPIPI;
0.000090 Upsilon pi+ pi- VVPIPI;
0.000045 Upsilon pi0 pi0 VVPIPI;
0.000200 Upsilon eta PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
# BF ~ (2J+1)E^3_gamma; see PRL 94, 032001
# V-> gamma S Partial wave (L,S)=(0,0)
0.000094 gamma chi_b0(3P) HELAMP 1. 0. 1. 0.;
# V-> gamma V Partial wave (L,S)=(0,1)
0.000141 gamma chi_b1(3P) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
# V-> gamma T Partial wave (L,S)=(0,1)
0.000131 gamma chi_b2(3P) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.;
# V-> gamma S Partial wave (L,S)=(0,0)
0.000003 gamma chi_b0(2P) HELAMP 1. 0. 1. 0.;
# V-> gamma V Partial wave (L,S)=(0,1)
0.000008 gamma chi_b1(2P) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
# V-> gamma T Partial wave (L,S)=(0,1)
0.000012 gamma chi_b2(2P) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.;
0.000850 g g g PYTHIA 4;
0.00004 gamma g g PYTHIA 4;
Enddecay
#
#
#
Decay anti-B0
# Updated to PDG 2008
# b -> c semileptonic
#
-0.0516 D*+ e- anti-nu_e PHOTOS HQET 0.77 1.33 0.92;
-0.0217 D+ e- anti-nu_e PHOTOS ISGW2;
-0.0054 D_1+ e- anti-nu_e PHOTOS ISGW2;
-0.0020 D_0*+ e- anti-nu_e PHOTOS ISGW2;
-0.0050 D'_1+ e- anti-nu_e PHOTOS ISGW2;
-0.0022 D_2*+ e- anti-nu_e PHOTOS ISGW2;
-0.0003 D*+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS;
-0.0049 D*0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS;
-0.0010 D+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS;
-0.0000 D0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS;
+0.0516 D*+ e- anti-nu_e FSR HQET 0.77 1.33 0.92;
+0.0217 D+ e- anti-nu_e FSR ISGW2;
+0.0054 D_1+ e- anti-nu_e FSR ISGW2;
+0.0020 D_0*+ e- anti-nu_e FSR ISGW2;
+0.0050 D'_1+ e- anti-nu_e FSR ISGW2;
+0.0022 D_2*+ e- anti-nu_e FSR ISGW2;
+0.0003 D*+ pi0 e- anti-nu_e FSR GOITY_ROBERTS;
+0.0049 D*0 pi+ e- anti-nu_e FSR GOITY_ROBERTS;
+0.0010 D+ pi0 e- anti-nu_e FSR GOITY_ROBERTS;
+0.0000 D0 pi+ e- anti-nu_e FSR GOITY_ROBERTS;
-0.0516 D*+ mu- anti-nu_mu PHOTOS HQET 0.77 1.33 0.92;
-0.0217 D+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0054 D_1+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0020 D_0*+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0050 D'_1+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0022 D_2*+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0003 D*+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
-0.0049 D*0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
-0.0010 D+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
-0.0000 D0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
+0.0516 D*+ mu- anti-nu_mu FSR HQET 0.77 1.33 0.92;
+0.0217 D+ mu- anti-nu_mu FSR ISGW2;
+0.0054 D_1+ mu- anti-nu_mu FSR ISGW2;
+0.0020 D_0*+ mu- anti-nu_mu FSR ISGW2;
+0.0050 D'_1+ mu- anti-nu_mu FSR ISGW2;
+0.0022 D_2*+ mu- anti-nu_mu FSR ISGW2;
+0.0003 D*+ pi0 mu- anti-nu_mu FSR GOITY_ROBERTS;
+0.0049 D*0 pi+ mu- anti-nu_mu FSR GOITY_ROBERTS;
+0.0010 D+ pi0 mu- anti-nu_mu FSR GOITY_ROBERTS;
+0.0000 D0 pi+ mu- anti-nu_mu FSR GOITY_ROBERTS;
#
# b -> c tau nu
#
0.0160 D*+ tau- anti-nu_tau ISGW2;
0.0100 D+ tau- anti-nu_tau ISGW2;
0.0013 D_1+ tau- anti-nu_tau ISGW2;
0.0013 D_0*+ tau- anti-nu_tau ISGW2;
0.0020 D'_1+ tau- anti-nu_tau ISGW2;
0.0020 D_2*+ tau- anti-nu_tau ISGW2;
#
# b -> u l nu
#
# 03/28/01 S.Menke included inclusive B -> X_u l nu decays for m(X_u) > 1.26 GeV.
# with some thresholds to gradually switch from excl. to incl.
# modeling without big jumps keeping the better known excl.
# Brs at their actual values and constrain the incl. Br and
# weights in a way that ~40% of the total BR belongs to
# the mass region > 1.5 GeV
# October 20, 2004 - Lange - update using sl awg input
# March 30, 2005 J. Dingfelder: Updated B -> X_u l nu hybrid model
# (supersedes older version by S. Menke). Inclusive
# decays are reweighted in three kinematic
# variables mX, q2, and El (=> 512 weights total).
# The list of weights is included as ModelAlias
# once per B charge state.
# NOTE: - The specified parameters for model VUBHYBRID are:
# mb, a, alpha_s, nbins_mX, nbins_q2, nbins_El,
# list of threshold values for mX, q2, El in ascending order.
#
# *** DO NOT CHANGE ANY OF THESE PARAMETERS! ***
# Otherwise a new set of weights would be needed, since they were
# generated for a certain set of values for mb, a, excl. BFs, non-res BF.
#
# - If no binning (nbins or thresholds) are specified after the first
# three parameters (mb,a,alpha_s) no hybrid weighting is performed.
# --- Hybrid weights for neutral B -> Xu l nu decays
# NOTE: Do NOT CHANGE any BFs without using the corresponding set of
# hybrid weights (and vice versa).
-0.000136 pi+ e- anti-nu_e PHOTOS ISGW2;
-0.000247 rho+ e- anti-nu_e PHOTOS ISGW2;
-0.000000 D(2S)+ e- anti-nu_e PHOTOS ISGW2;
-0.000000 D*(2S)+ e- anti-nu_e PHOTOS ISGW2;
-0.001892 Xu+ e- anti-nu_e PHOTOS VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00;
-#
-0.000136 pi+ mu- anti-nu_mu PHOTOS ISGW2;
-0.000247 rho+ mu- anti-nu_mu PHOTOS ISGW2;
-0.000000 D(2S)+ mu- anti-nu_mu PHOTOS ISGW2;
-0.000000 D*(2S)+ mu- anti-nu_mu PHOTOS ISGW2;
-0.001892 Xu+ mu- anti-nu_mu PHOTOS VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00;
+0.000136 pi+ e- anti-nu_e FSR ISGW2;
+0.000247 rho+ e- anti-nu_e FSR ISGW2;
+0.000000 D(2S)+ e- anti-nu_e FSR ISGW2;
+0.000000 D*(2S)+ e- anti-nu_e FSR ISGW2;
+0.001892 Xu+ e- anti-nu_e FSR VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00;
+#
+0.000136 pi+ mu- anti-nu_mu FSR ISGW2;
+0.000247 rho+ mu- anti-nu_mu FSR ISGW2;
+0.000000 D(2S)+ mu- anti-nu_mu FSR ISGW2;
+0.000000 D*(2S)+ mu- anti-nu_mu FSR ISGW2;
+0.001892 Xu+ mu- anti-nu_mu FSR VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00;
#
0.000060 pi+ tau- anti-nu_tau ISGW2;
0.000083 rho+ tau- anti-nu_tau ISGW2;
0.000090 a_1+ tau- anti-nu_tau ISGW2;
0.000008 b_1+ tau- anti-nu_tau ISGW2;
0.000008 a_0+ tau- anti-nu_tau ISGW2;
0.000008 a_2+ tau- anti-nu_tau ISGW2;
0.000000 rho(2S)+ tau- anti-nu_tau ISGW2;
0.000000 D(2S)+ tau- anti-nu_tau ISGW2;
0.000000 D*(2S)+ tau- anti-nu_tau ISGW2;
#
#
# b->u hadronic
# Ref. [B1]:
# Lange Nov 14, 2004 (flip D_s K -- is opposite of D_s pi)
0.0000153 D_s- pi+ PHSP;
0.000029 D_s+ K- PHSP;
0.000030 D_s*- pi+ SVS;
0.000022 D_s*+ K- SVS;
#
0.000016 rho+ D_s- SVS;
0.000016 K*- D_s+ SVS;
0.000016 D_s*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.000016 D_s*+ K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# b -> s gamma
#
0.0000401 anti-K*0 gamma HELAMP 1.0 0.0 1.0 0.0;
# PR LHCb add omega gamma
0.0000005 omega gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000135 anti-K_10 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000065 anti-K'_10 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000128 anti-K'*0 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000166 anti-K_2*0 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000017 anti-K''*0 gamma HELAMP 1.0 0.0 1.0 0.0;
0.0003118 anti-Xsd gamma BTOXSGAMMA 2 ;
#
-0.0000006 anti-K0 e+ e- PHOTOS BTOSLLBALL;
-0.0000018 anti-K*0 e+ e- PHOTOS BTOSLLBALL;
-0.0000050 anti-Xsd e+ e- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.0000006 anti-K0 mu+ mu- PHOTOS BTOSLLBALL;
-0.0000014 anti-K*0 mu+ mu- PHOTOS BTOSLLBALL;
-0.0000025 anti-Xsd mu+ mu- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.0000001 anti-K0 tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 anti-K*0 tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 anti-Xsd tau+ tau- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
+0.0000006 anti-K0 e+ e- FSR BTOSLLBALL;
+0.0000018 anti-K*0 e+ e- FSR BTOSLLBALL;
+0.0000050 anti-Xsd e+ e- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.0000006 anti-K0 mu+ mu- FSR BTOSLLBALL;
+0.0000014 anti-K*0 mu+ mu- FSR BTOSLLBALL;
+0.0000025 anti-Xsd mu+ mu- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.0000001 anti-K0 tau+ tau- FSR BTOSLLBALL;
+0.0000002 anti-K*0 tau+ tau- FSR BTOSLLBALL;
+0.0000002 anti-Xsd tau+ tau- FSR BTOXSLL 4.8 0.2 0.0 0.41;
#
#------------------------------------------------------------------------------
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv
# B0 -> CP eigenstates (some exclusive b -> u) sum=0.00036
#
0.0000051 pi+ pi- PHSP;
0.0000016 pi0 pi0 PHSP;
0.0000010 pi0 eta PHSP;
0.0000015 pi0 eta' PHSP;
0.000001 pi0 a_00 PHSP;
0.000001 pi0 f_0 PHSP;
# pi0 rho0 is with the 3-body modes
0.000001 omega pi0 SVS;
0.000001 a_10 pi0 SVS;
0.000001 b_10 pi0 SVS;
0.000001 eta eta PHSP;
0.000001 eta eta' PHSP;
0.000001 eta a_00 PHSP;
0.000001 eta f_0 PHSP;
0.000001 rho0 eta SVS;
0.000001 omega eta SVS;
0.000001 a_10 eta SVS;
0.000001 b_10 eta SVS;
0.000001 eta' eta' PHSP;
0.000001 eta' a_00 PHSP;
0.000001 eta' f_0 PHSP;
0.000001 rho0 eta' SVS;
0.000001 omega eta' SVS;
0.000001 a_10 eta' SVS;
0.000001 b_10 eta' SVS;
0.000001 a_00 a_00 PHSP;
0.000001 a_00 f_0 PHSP;
0.000001 rho0 a_00 SVS;
0.000001 omega a_00 SVS;
0.000001 a_10 a_00 SVS;
0.000001 b_10 a_00 SVS;
0.000001 f_0 f_0 PHSP;
0.000001 rho0 f_0 SVS;
0.000001 omega f_0 SVS;
0.000001 a_10 f_0 SVS;
0.000001 b_10 f_0 SVS;
# Penguin dominated modes are sin2beta, not sin2alpha
0.0000043 phi K_S0 SVS;
0.0000043 phi K_L0 SVS;
0.000001 eta K_S0 PHSP;
0.000001 eta K_L0 PHSP;
0.0000325 eta' K_S0 PHSP;
0.0000325 eta' K_L0 PHSP;
0.0000025 omega K_S0 SVS;
0.0000025 omega K_L0 SVS;
#don't allow jetset to simulate the same decay but to a K0 or anti-K0
#Lange 1/30/2003
0.0 phi K0 PHSP;
0.0 phi anti-K0 PHSP;
0.0 eta K0 PHSP;
0.0 eta anti-K0 PHSP;
0.0 eta' K0 PHSP;
0.0 eta' anti-K0 PHSP;
0.0 omega K0 PHSP;
0.0 omega anti-K0 PHSP;
# phipi0 has no simple Pengiun or tree so who knows - ditto phieta/eta'?
0.000001 phi pi0 SVS;
0.000001 phi eta SVS;
0.000001 phi eta' SVS;
#
0.0000159 anti-K*0 eta SVS;
0.0000038 anti-K*0 eta' SVS;
0.000001 anti-K*0 omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 phi omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 omega omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 omega rho0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
#
#
#2-body modes from Jim Olsen
0.0000194 K- pi+ PHSP;
0.0000004 K+ K- PHSP;
# K_S0 K_L0 is 0
# see http://babar-hn.slac.stanford.edu:5090/HyperNews/get/pubboard14/156.html
0.0000005 K_S0 K_S0 PHSP;
0.0000000 K_S0 K_L0 PHSP;
0.0000005 K_L0 K_L0 PHSP;
# declare K0 pi0 not to have it through Pythia
0.000000 anti-K0 pi0 PHSP;
# Split into K_S0 K_L0 (LHCb - P. Robbe)
0.0000049 K_S0 pi0 PHSP;
0.0000049 K_L0 pi0 PHSP;
# 0 to keep PYTHIA from generating it
0.000000 K0 anti-K0 PHSP;
#
# 3-body decays
# this model generates interferences and higher mass rho
#
# 3-body by John Back (jback@slac.stanford.edu) - Oct 15, 2002
# JGS intersperses modes with pi0->eta,eta'
# anti-B0 modes
# Model generates rho(770), rho(1450) and rho(1700) resonances
# with interference (uses CKM angle alpha)
0.000024 pi- pi+ pi0 BTO3PI_CP dm alpha;
# Put in with 0 BR to keep PYTHIA from generating these (see BTO3PI_CP above)
0.000000 rho0 pi0 SVS;
0.000000 rho- pi+ SVS;
0.000000 rho+ pi- SVS;
0.000000 rho(2S)- pi+ SVS;
0.000000 rho(2S)+ pi- SVS;
0.000000 rho(3S)- pi+ SVS;
0.000000 rho(3S)+ pi- SVS;
#
# rho0 3-body modes
0.0000027 rho0 K_S0 SVS;
0.0000027 rho0 K_L0 SVS;
#
# rho+ 3-body modes
0.0000085 rho+ K- SVS;
#
# rho(1450) 3-body modes
0.0000005 rho(2S)0 K_S0 SVS;
0.0000005 rho(2S)0 K_L0 SVS;
#
#
# f0,a0(980) 3-body modes
0.0000055 f_0 anti-K0 PHSP;
0.000001 a_00 anti-K0 PHSP;
0.000001 a_0+ K- PHSP;
0.000003 a_0+ pi- PHSP;
0.000001 a_0- pi+ PHSP;
#
# K*0(892) 3-body modes
0.0000017 anti-K*0 pi0 SVS;
0.000003 anti-K*0 K0 SVS;
#
# K*0(1430) 3-body modes
0.000001 anti-K_0*0 pi0 PHSP;
0.000003 anti-K_0*0 K0 PHSP;
#
# K*0(1680) 3-body modes
0.000001 anti-K''*0 pi0 SVS;
0.000001 anti-K''*0 K0 SVS;
#
# K*-(892) 3-body modes
0.0000098 K*- pi+ SVS;
0.000002 K*- K+ SVS;
#
# K*-(1430) 3-body modes
0.00005 K_0*- pi+ PHSP;
0.000002 K_0*- K+ PHSP;
#
# K*0(1680) 3-body modes
0.000001 K''*- pi+ SVS;
0.000001 K''*- K+ SVS;
#
#
# Non-resonant 3-body left-overs
# Most modes are set at 1e-6
#
# pi-pi+pi0: high mass + f0(400-1200) = (1+1)e-6
####0402270.000002 pi- pi+ pi0 PHSP;
0.000017 pi- pi+ eta PHSP;
0.000001 pi- pi+ eta' PHSP;
#
# pi- pi+ anti-K0: total-rhoK0-f0K0-piK*(892)-piK*(1430)=45-5-6-13./3-11./3
0.0000199 pi- pi+ anti-K0 PHSP;
#
# K- pi+ pi0
0.000002 K- pi+ pi0 PHSP;
0.000020 K- pi+ eta PHSP;
0.000001 K- pi+ eta' PHSP;
#
# pi- K+ K0.
# Both B0 and B0bar can decay to these => 0.5e-6 each
0.0000005 pi- K+ anti-K0 PHSP;
0.0000005 pi+ K- K0 PHSP;
#
# K- K+ anti-K0
# PR LHCb 09 Apr 2004 split into KL/KS
0.000000 K- K+ anti-K0 PHSP;
0.0000081 K- K+ K_S0 PHSP;
0.0000081 K- K+ K_L0 PHSP;
#
# K- K+ pi0
0.000001 K- K+ pi0 PHSP;
0.000001 K- K+ eta PHSP;
0.000001 K- K+ eta' PHSP;
#
# pi0 anti-K0 K0
0.000002 anti-K0 K0 pi0 PHSP;
0.000001 anti-K0 K0 eta PHSP;
0.000001 anti-K0 K0 eta' PHSP;
#
# pi0 pi0 anti-K0
0.000002 anti-K0 pi0 pi0 PHSP;
0.000001 anti-K0 pi0 eta PHSP;
0.000001 anti-K0 pi0 eta' PHSP;
0.000001 anti-K0 eta eta PHSP;
0.000001 anti-K0 eta eta' PHSP;
0.000001 anti-K0 eta' eta' PHSP;
#
# anti-K0 K0 anti-K0: 8*BF(KsKsKs)~=48 (8 is a guess)
0.000048 anti-K0 K0 anti-K0 PHSP;
#
# pi0 pi0 pi0
0.000001 pi0 pi0 pi0 PHSP;
0.000001 pi0 pi0 eta PHSP;
0.000001 pi0 pi0 eta' PHSP;
0.000001 pi0 eta eta PHSP;
0.000001 pi0 eta eta' PHSP;
#
#^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#---------------------------------------------------------------------------
#
#4-body modes from Andrei Gritsan
#--- 4-body rho-rho, rho-pi-pi, pi-pi-pi-pi --------------------------
# PR LHCb 21 Apr 2004 : set polarisation to longitudinal
0.0000011 rho0 rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0;
0.0000242 rho+ rho- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0;
0.000003 rho0 pi+ pi- PHSP;
0.000003 omega pi+ pi- PHSP;
0.000001 rho0 pi0 pi0 PHSP;
0.000001 omega pi0 pi0 PHSP;
0.0000005 rho0 pi0 eta PHSP;
0.0000002 rho0 eta eta PHSP;
0.0000002 rho0 pi0 eta' PHSP;
0.0000001 rho0 eta eta' PHSP;
0.0000005 omega pi0 eta PHSP;
0.0000002 omega eta eta PHSP;
0.0000002 omega pi0 eta' PHSP;
0.0000001 omega eta eta' PHSP;
0.000010 rho+ pi- pi0 PHSP;
0.000005 rho+ pi- eta PHSP;
0.000010 rho- pi+ pi0 PHSP;
0.000005 rho- pi+ eta PHSP;
0.000010 pi+ pi- pi+ pi- PHSP;
0.000010 pi+ pi- pi0 pi0 PHSP;
0.000005 pi+ pi- eta pi0 PHSP;
0.000002 pi+ pi- eta eta PHSP;
0.000002 pi+ pi- eta' pi0 PHSP;
0.000001 pi+ pi- eta' eta PHSP;
0.0000165 a_1+ pi- SVS;
0.0000165 a_1- pi+ SVS;
0.0000055 b_1+ pi- SVS;
0.0000055 b_1- pi+ SVS;
0.000002 rho- a_0+ SVS;
0.000010 rho+ a_0- SVS;
0.000001 f_0 pi+ pi- PHSP;
0.000001 f_0 pi0 pi0 PHSP;
0.000001 a_0- pi+ pi0 PHSP;
0.000001 a_00 pi0 pi0 PHSP;
0.000001 a_0+ pi- pi0 PHSP;
#--- 4-body rho-K*, rho-pi-K, K*-pi-pi, pi-pi-pi-K -------------------
0.0000056 rho0 anti-K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000010 rho+ K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000484 pi- pi+ anti-K*0 PHSP;
0.000010 pi+ pi0 K*- PHSP;
0.000005 pi+ eta K*- PHSP;
0.000002 pi+ eta' K*- PHSP;
0.000010 rho+ K- pi0 PHSP;
0.000005 rho+ K- eta PHSP;
0.000002 rho+ K- eta' PHSP;
0.000010 rho+ anti-K0 pi- PHSP;
0.000010 rho- anti-K0 pi+ PHSP;
0.000005 rho0 anti-K0 pi0 PHSP;
0.000002 rho0 anti-K0 eta PHSP;
0.000001 rho0 anti-K0 eta' PHSP;
0.000010 rho0 K- pi+ PHSP;
0.000005 omega anti-K0 pi0 PHSP;
0.000002 omega anti-K0 eta PHSP;
0.000001 omega anti-K0 eta' PHSP;
0.000005 omega K- pi+ PHSP;
0.000010 pi+ pi0 pi- anti-K0 PHSP;
0.000005 pi+ eta pi- anti-K0 PHSP;
0.000010 pi0 pi0 pi0 anti-K0 PHSP;
0.000005 pi0 pi0 eta anti-K0 PHSP;
0.000002 pi0 eta eta anti-K0 PHSP;
0.000002 pi0 pi0 eta' anti-K0 PHSP;
0.000001 pi0 eta eta' anti-K0 PHSP;
0.000010 pi+ pi- pi+ K- PHSP;
0.000010 pi0 pi0 pi+ K- PHSP;
0.000005 pi0 eta pi+ K- PHSP;
0.000002 eta eta pi+ K- PHSP;
0.000002 pi0 eta' pi+ K- PHSP;
0.000001 eta eta' pi+ K- PHSP;
0.000010 rho0 anti-K_0*0 PHSP;
0.000020 rho+ K_0*- PHSP;
0.000010 pi- pi+ anti-K_0*0 PHSP;
0.000010 pi0 pi0 anti-K_0*0 PHSP;
0.000010 pi+ pi0 K_0*- PHSP;
0.000005 anti-K*0 f_0 SVS;
0.000010 a_10 anti-K0 SVS;
0.000016 a_1+ K- SVS;
0.000010 b_10 anti-K0 SVS;
0.0000074 b_1+ K- SVS;
0.000005 anti-K*0 a_00 SVS;
0.000005 K*- a_0+ SVS;
#--- 4-body K*-K*, rho-K-K, K*-K-pi, phi-pi-pi, pi-pi-K-K ------------
0.0000013 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 K*+ K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000001 phi rho0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000001 phi pi- pi+ PHSP;
0.000001 K+ K- rho0 PHSP;
0.000001 K0 anti-K0 rho0 PHSP;
0.000001 K+ K- omega PHSP;
0.000001 K0 anti-K0 omega PHSP;
0.000001 K+ anti-K0 rho- PHSP;
0.000001 K- K0 rho+ PHSP;
0.000001 K+ K- pi- pi+ PHSP;
0.000001 K+ K- pi0 pi0 PHSP;
0.0000005 K+ K- pi0 eta PHSP;
0.0000002 K+ K- eta eta PHSP;
0.0000002 K+ K- pi0 eta' PHSP;
0.0000001 K+ K- eta eta' PHSP;
0.000001 K0 anti-K0 pi- pi+ PHSP;
0.000001 K0 anti-K0 pi0 pi0 PHSP;
0.0000005 K0 anti-K0 pi0 eta PHSP;
0.0000002 K0 anti-K0 eta eta PHSP;
0.0000002 K0 anti-K0 pi0 eta' PHSP;
0.0000001 K0 anti-K0 eta eta' PHSP;
0.000001 K*+ K- pi0 PHSP;
0.000001 K*- K+ pi0 PHSP;
0.000001 K*0 anti-K0 pi0 PHSP;
0.000001 K0 anti-K*0 pi0 PHSP;
0.000001 K+ anti-K*0 pi- PHSP;
0.000001 K*+ anti-K0 pi- PHSP;
0.0000033 K- K*0 pi+ PHSP;
0.000001 K*- K0 pi+ PHSP;
#--- 4-body phi-K*, phi-K-pi, K-K-K*, pi-K-K-K -----------------------
0.0000095 phi anti-K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000010 phi K- pi+ PHSP;
0.000010 phi anti-K0 pi0 PHSP;
0.000007 phi anti-K0 eta PHSP;
0.000018 K- K+ anti-K*0 PHSP;
0.000010 K- K*+ anti-K0 PHSP;
0.000010 K*- K+ anti-K0 PHSP;
0.000010 K+ K- K- pi+ PHSP;
0.000010 K+ K- anti-K0 pi0 PHSP;
0.000005 K+ K- anti-K0 eta PHSP;
0.000010 K0 anti-K0 anti-K0 pi0 PHSP;
0.000005 K0 anti-K0 anti-K0 eta PHSP;
0.000010 phi anti-K_0*0 PHSP;
0.000010 K- K+ anti-K_0*0 PHSP;
0.000010 K- K_0*+ anti-K0 PHSP;
0.000010 K_0*- K+ anti-K0 PHSP;
0.000002 phi anti-K'_10 PHSP;
0.000002 K- K+ anti-K'_10 PHSP;
#--- 4-body phi-phi, phi-K-K, K-K-K-K --------------------------------
0.0000001 phi phi SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000001 phi K+ K- PHSP;
0.0000001 phi K0 anti-K0 PHSP;
0.0000001 K+ K- K+ K- PHSP;
0.0000001 K0 anti-K0 K+ K- PHSP;
0.0000001 K0 anti-K0 K0 anti-K0 PHSP;
#5-body modes from Jim Smith - 1/30/05
#--- 5-body rho-rho-pi, rho-pi-pi-pi, pi-pi-pi-pi-pi -------------------
0.000010 rho0 rho0 pi0 PHSP;
0.000005 rho0 rho0 eta PHSP;
0.000002 rho0 rho0 eta' PHSP;
0.000010 omega rho0 pi0 PHSP;
0.000005 omega rho0 eta PHSP;
0.000002 omega rho0 eta' PHSP;
0.000010 rho+ rho- pi0 PHSP;
0.000005 rho+ rho- eta PHSP;
0.000002 rho+ rho- eta' PHSP;
0.000010 rho0 rho+ pi- PHSP;
0.000010 omega rho+ pi- PHSP;
0.000002 rho0 pi+ pi- pi0 PHSP;
0.000001 rho0 pi+ pi- eta PHSP;
0.000001 rho0 pi+ pi- eta' PHSP;
0.000002 rho0 pi0 pi0 pi0 PHSP;
0.000001 rho0 pi0 eta pi0 PHSP;
0.000001 rho0 pi0 eta' pi0 PHSP;
0.000002 omega pi+ pi- pi0 PHSP;
0.000001 omega pi+ pi- eta PHSP;
0.000001 omega pi+ pi- eta' PHSP;
0.000002 omega pi0 pi0 pi0 PHSP;
0.000001 omega pi0 eta pi0 PHSP;
0.000001 omega pi0 eta' pi0 PHSP;
0.000002 rho+ pi- pi+ pi- PHSP;
0.000002 rho+ pi- pi0 pi0 PHSP;
0.000001 rho+ pi- pi0 eta PHSP;
0.000001 rho+ pi- pi0 eta' PHSP;
0.000002 rho- pi+ pi+ pi- PHSP;
0.000002 rho- pi+ pi0 pi0 PHSP;
0.000001 rho- pi+ pi0 eta PHSP;
0.000001 rho- pi+ pi0 eta' PHSP;
0.000001 pi+ pi- pi+ pi- pi0 PHSP;
0.0000005 pi+ pi- pi+ pi- eta PHSP;
0.0000002 pi+ pi- pi+ pi- eta' PHSP;
0.000001 pi+ pi- pi0 pi0 pi0 PHSP;
0.0000005 pi+ pi- pi0 pi0 eta PHSP;
0.0000002 pi+ pi- pi0 pi0 eta' PHSP;
0.0000005 pi0 pi0 pi0 pi0 pi0 PHSP;
0.0000002 pi0 pi0 pi0 pi0 eta PHSP;
0.0000001 pi0 pi0 pi0 pi0 eta' PHSP;
0.000010 a_1+ rho- PHSP;
0.000010 a_1- rho+ PHSP;
0.000010 a_10 rho0 PHSP;
0.000010 a_10 omega PHSP;
0.000010 a_1+ pi- pi0 PHSP;
0.000005 a_1+ pi- eta PHSP;
0.000002 a_1+ pi- eta' PHSP;
0.000010 a_10 pi+ pi- PHSP;
0.000010 a_10 pi0 pi0 PHSP;
0.000005 a_10 pi0 eta PHSP;
0.000002 a_10 pi0 eta' PHSP;
0.000010 a_1- pi+ pi0 PHSP;
0.000005 a_1- pi+ eta PHSP;
0.000002 a_1- pi+ eta' PHSP;
0.000010 rho+ f_0 pi- PHSP;
0.000010 rho- f_0 pi+ PHSP;
0.000010 rho0 f_0 pi0 PHSP;
0.000005 rho0 f_0 eta PHSP;
0.000002 rho0 f_0 eta' PHSP;
0.000010 omega f_0 pi0 PHSP;
0.000010 rho+ a_00 pi- PHSP;
0.000010 rho+ a_0- pi0 PHSP;
0.000005 rho+ a_0- eta PHSP;
0.000002 rho+ a_0- eta' PHSP;
0.000010 rho0 a_0+ pi- PHSP;
0.000010 rho0 a_0- pi+ PHSP;
0.000010 rho0 a_00 pi0 PHSP;
0.000005 rho0 a_00 eta PHSP;
0.000002 rho0 a_00 eta' PHSP;
0.000010 rho- a_00 pi+ PHSP;
0.000010 rho- a_0+ pi0 PHSP;
0.000005 rho- a_0+ eta PHSP;
0.000002 rho- a_0+ eta' PHSP;
0.000002 f_0 pi+ pi- pi0 PHSP;
0.000001 f_0 pi+ pi- eta PHSP;
0.000001 f_0 pi+ pi- eta' PHSP;
0.000002 f_0 pi0 pi0 pi0 PHSP;
0.000001 f_0 pi0 pi0 eta PHSP;
0.000001 f_0 pi0 pi0 eta' PHSP;
0.000001 a_00 pi+ pi- pi0 PHSP;
0.000001 a_00 pi0 pi0 pi0 PHSP;
0.000001 a_0+ pi- pi+ pi- PHSP;
0.000001 a_0+ pi- pi0 pi0 PHSP;
0.000001 a_0- pi+ pi+ pi- PHSP;
0.000001 a_0- pi+ pi0 pi0 PHSP;
#--- 5-body rho-K*pi, rho-2pi-K, K*-3pi, 4pi-K -------------------
0.000010 rho0 K*- pi+ PHSP;
0.000010 rho+ K*- pi0 PHSP;
0.000005 rho+ K*- eta PHSP;
0.000002 rho+ K*- eta' PHSP;
0.000010 rho0 anti-K*0 pi0 PHSP;
0.000005 rho0 anti-K*0 eta PHSP;
0.000002 rho0 anti-K*0 eta' PHSP;
0.000010 rho- anti-K*0 pi+ PHSP;
0.000010 rho+ anti-K*0 pi- PHSP;
0.000010 omega K*- pi+ PHSP;
0.000010 omega anti-K*0 pi0 PHSP;
0.000005 omega anti-K*0 eta PHSP;
0.000002 omega anti-K*0 eta' PHSP;
0.000010 pi+ pi- K*- pi+ PHSP;
0.000010 pi+ pi0 K*- pi0 PHSP;
0.000005 pi+ pi0 K*- eta PHSP;
0.000002 pi+ pi0 K*- eta' PHSP;
0.000010 pi+ pi- anti-K*0 pi0 PHSP;
0.000005 pi+ pi- anti-K*0 eta PHSP;
0.000002 pi+ pi- anti-K*0 eta' PHSP;
0.000010 pi0 pi0 anti-K*0 pi0 PHSP;
0.000005 pi0 pi0 anti-K*0 eta PHSP;
0.000002 pi0 pi0 anti-K*0 eta' PHSP;
0.000010 rho- K- pi+ pi+ PHSP;
0.000010 rho0 K- pi+ pi0 PHSP;
0.000005 rho0 K- pi+ eta PHSP;
0.000002 rho0 K- pi+ eta' PHSP;
0.000010 rho+ K- pi+ pi- PHSP;
0.000010 rho+ K- pi0 pi0 PHSP;
0.000005 rho+ K- pi0 eta PHSP;
0.000002 rho+ K- pi0 eta' PHSP;
0.000010 rho0 anti-K0 pi+ pi- PHSP;
0.000010 rho0 anti-K0 pi0 pi0 PHSP;
0.000005 rho0 anti-K0 pi0 eta PHSP;
0.000002 rho0 anti-K0 pi0 eta' PHSP;
0.000010 rho- anti-K0 pi+ pi0 PHSP;
0.000005 rho- anti-K0 pi+ eta PHSP;
0.000002 rho- anti-K0 pi+ eta' PHSP;
0.000010 rho+ anti-K0 pi- pi0 PHSP;
0.000005 rho+ anti-K0 pi- eta PHSP;
0.000002 rho+ anti-K0 pi- eta' PHSP;
0.000010 omega K- pi+ pi0 PHSP;
0.000005 omega K- pi+ eta PHSP;
0.000002 omega K- pi+ eta' PHSP;
0.000010 omega anti-K0 pi+ pi- PHSP;
0.000010 omega anti-K0 pi0 pi0 PHSP;
0.000005 omega anti-K0 pi0 eta PHSP;
0.000002 omega anti-K0 pi0 eta' PHSP;
0.000002 pi+ pi- pi+ K- pi0 PHSP;
0.000001 pi+ pi- pi+ K- eta PHSP;
0.000001 pi+ pi- pi+ K- eta' PHSP;
0.000002 pi0 pi0 pi+ K- pi0 PHSP;
0.000001 pi0 pi0 pi+ K- eta PHSP;
0.000001 pi0 pi0 pi+ K- eta' PHSP;
0.000002 pi+ pi- pi+ anti-K0 pi- PHSP;
0.000002 pi+ pi- pi0 anti-K0 pi0 PHSP;
0.000001 pi+ pi- pi0 anti-K0 eta PHSP;
0.000001 pi+ pi- pi0 anti-K0 eta' PHSP;
0.000002 pi0 pi0 pi0 anti-K0 pi0 PHSP;
0.000001 pi0 pi0 pi0 anti-K0 eta PHSP;
0.000001 pi0 pi0 pi0 anti-K0 eta' PHSP;
0.000010 rho+ anti-K_0*0 pi- PHSP;
0.000010 rho0 anti-K_0*0 pi0 PHSP;
0.000005 rho0 anti-K_0*0 eta PHSP;
0.000002 rho0 anti-K_0*0 eta' PHSP;
0.000010 rho- anti-K_0*0 pi+ PHSP;
0.000010 rho+ K_0*- pi0 PHSP;
0.000005 rho+ K_0*- eta PHSP;
0.000002 rho+ K_0*- eta' PHSP;
0.000010 rho0 K_0*- pi+ PHSP;
0.000010 pi+ pi- K_0*- pi+ PHSP;
0.000010 pi+ pi0 K_0*- pi0 PHSP;
0.000005 pi+ pi0 K_0*- eta PHSP;
0.000002 pi+ pi0 K_0*- eta' PHSP;
0.000010 pi+ pi- anti-K_0*0 pi0 PHSP;
0.000005 pi+ pi- anti-K_0*0 eta PHSP;
0.000002 pi+ pi- anti-K_0*0 eta' PHSP;
0.000010 pi0 pi0 anti-K_0*0 pi0 PHSP;
0.000005 pi0 pi0 anti-K_0*0 eta PHSP;
0.000005 pi0 pi0 anti-K_0*0 eta' PHSP;
0.000010 K*- f_0 pi+ PHSP;
0.000010 anti-K*0 f_0 pi0 PHSP;
0.000005 anti-K*0 f_0 eta PHSP;
0.000002 anti-K*0 f_0 eta' PHSP;
0.000010 a_1+ anti-K0 pi- PHSP;
0.000020 a_10 anti-K*0 PHSP;
0.000010 a_10 K- pi+ PHSP;
0.000010 a_10 anti-K0 pi0 PHSP;
0.000020 a_1+ K*- PHSP;
0.000010 a_1+ K- pi0 PHSP;
0.000010 a_1- anti-K0 pi+ PHSP;
0.000005 K*- a_00 pi+ PHSP;
0.000005 K*- a_0+ pi0 PHSP;
0.000002 K*- a_0+ eta PHSP;
0.000001 K*- a_0+ eta' PHSP;
0.000005 anti-K*0 a_0+ pi- PHSP;
0.000005 anti-K*0 a_00 pi0 PHSP;
0.000002 anti-K*0 a_00 eta PHSP;
0.000001 anti-K*0 a_00 eta' PHSP;
#--- 5-body K*-K*pi,rho-K-Kpi, K*-K-2pi, phi-3pi, 3pi-K-K ------------
0.000001 K*- K*0 pi+ PHSP;
0.000001 K*+ anti-K*0 pi- PHSP;
0.000001 K*- K*+ pi0 PHSP;
0.0000005 K*- K*+ eta PHSP;
0.0000002 K*- K*+ eta' PHSP;
0.000001 K*0 anti-K*0 pi0 PHSP;
0.0000005 K*0 anti-K*0 eta PHSP;
0.0000002 K*0 anti-K*0 eta' PHSP;
0.000001 phi rho+ pi- PHSP;
0.000001 phi rho- pi+ PHSP;
0.000001 phi rho0 pi0 PHSP;
0.0000005 phi rho0 eta PHSP;
0.0000002 phi rho0 eta' PHSP;
0.000001 phi omega pi0 PHSP;
0.000001 phi f_0 pi0 PHSP;
0.000001 phi pi+ pi- pi0 PHSP;
0.0000005 phi pi+ pi- eta PHSP;
0.0000002 phi pi+ pi- eta' PHSP;
0.000001 phi pi0 pi0 pi0 PHSP;
0.0000005 phi pi0 pi0 eta PHSP;
0.0000002 phi pi0 pi0 eta' PHSP;
0.000001 K0 K- rho0 pi+ PHSP;
0.000001 K0 K- rho+ pi0 PHSP;
0.0000005 K0 K- rho+ eta PHSP;
0.0000002 K0 K- rho+ eta' PHSP;
0.000001 K0 K- omega pi+ PHSP;
0.000001 K0 K- f_0 pi+ PHSP;
0.000001 K+ K- rho+ pi- PHSP;
0.000001 K+ K- rho- pi+ PHSP;
0.000001 K+ K- rho0 pi0 PHSP;
0.0000005 K+ K- rho0 eta PHSP;
0.0000002 K+ K- rho0 eta' PHSP;
0.000001 K+ K- omega pi0 PHSP;
0.0000005 K+ K- omega eta PHSP;
0.0000002 K+ K- omega eta' PHSP;
0.000001 K+ K- f_0 pi0 PHSP;
0.000001 K0 anti-K0 rho+ pi- PHSP;
0.000001 K0 anti-K0 rho- pi+ PHSP;
0.000001 K0 anti-K0 rho0 pi0 PHSP;
0.0000005 K0 anti-K0 rho0 eta PHSP;
0.0000002 K0 anti-K0 rho0 eta' PHSP;
0.000001 K0 anti-K0 omega pi0 PHSP;
0.000001 K0 anti-K0 f_0 pi0 PHSP;
0.000001 anti-K0 K+ rho0 pi- PHSP;
0.000001 anti-K0 K+ rho- pi0 PHSP;
0.0000005 anti-K0 K+ rho- eta PHSP;
0.0000002 anti-K0 K+ rho- eta' PHSP;
0.000001 anti-K0 K+ omega pi- PHSP;
0.000001 anti-K0 K+ f_0 pi- PHSP;
0.0000002 K0 K- pi+ pi+ pi- PHSP;
0.0000002 K0 K- pi+ pi0 pi0 PHSP;
0.0000001 K0 K- pi+ pi0 eta PHSP;
0.0000001 K0 K- pi+ pi0 eta' PHSP;
0.0000002 K+ K- pi+ pi- pi0 PHSP;
0.0000001 K+ K- pi+ pi- eta PHSP;
0.0000001 K+ K- pi+ pi- eta' PHSP;
0.0000002 K+ K- pi0 pi0 pi0 PHSP;
0.0000001 K+ K- pi0 pi0 eta PHSP;
0.0000001 K+ K- pi0 pi0 eta' PHSP;
0.0000002 K0 anti-K0 pi+ pi- pi0 PHSP;
0.0000001 K0 anti-K0 pi+ pi- eta PHSP;
0.0000001 K0 anti-K0 pi+ pi- eta' PHSP;
0.0000002 K0 anti-K0 pi0 pi0 pi0 PHSP;
0.0000001 K0 anti-K0 pi0 pi0 eta PHSP;
0.0000001 K0 anti-K0 pi0 pi0 eta' PHSP;
0.0000002 anti-K0 K+ pi- pi+ pi- PHSP;
0.0000002 anti-K0 K+ pi- pi0 pi0 PHSP;
0.0000001 anti-K0 K+ pi- pi0 eta PHSP;
0.0000001 anti-K0 K+ pi- pi0 eta' PHSP;
0.000001 K*0 K- pi+ pi0 PHSP;
0.0000005 K*0 K- pi+ eta PHSP;
0.0000002 K*0 K- pi+ eta' PHSP;
0.000001 K*- K0 pi+ pi0 PHSP;
0.0000005 K*- K0 pi+ eta PHSP;
0.0000002 K*- K0 pi+ eta' PHSP;
0.000001 K*+ K- pi+ pi- PHSP;
0.000001 K*+ K- pi0 pi0 PHSP;
0.0000005 K*+ K- pi0 eta PHSP;
0.0000002 K*+ K- pi0 eta' PHSP;
0.000001 K*- K+ pi+ pi- PHSP;
0.000001 K*- K+ pi0 pi0 PHSP;
0.0000005 K*- K+ pi0 eta PHSP;
0.0000002 K*- K+ pi0 eta' PHSP;
0.000001 K*0 anti-K0 pi+ pi- PHSP;
0.000001 K*0 anti-K0 pi0 pi0 PHSP;
0.0000005 K*0 anti-K0 pi0 eta PHSP;
0.0000002 K*0 anti-K0 pi0 eta' PHSP;
0.000001 K0 anti-K*0 pi+ pi- PHSP;
0.000001 K0 anti-K*0 pi0 pi0 PHSP;
0.0000005 K0 anti-K*0 pi0 eta PHSP;
0.0000002 K0 anti-K*0 pi0 eta' PHSP;
0.000001 K+ anti-K*0 pi- pi0 PHSP;
0.0000005 K+ anti-K*0 pi- eta PHSP;
0.0000002 K+ anti-K*0 pi- eta' PHSP;
0.000001 K*+ anti-K0 pi- pi0 PHSP;
0.0000005 K*+ anti-K0 pi- eta PHSP;
0.0000002 K*+ anti-K0 pi- eta' PHSP;
#--- 5-body phi-K*-pi, phi-K-2pi, K-K-K*-pi, 2pi-K-K-K --------------------
0.000010 phi K*- pi+ PHSP;
0.000010 phi anti-K*0 pi0 PHSP;
0.000005 phi anti-K*0 eta PHSP;
0.000002 phi anti-K*0 eta' PHSP;
0.000010 phi K- rho+ PHSP;
0.000010 phi anti-K0 rho0 PHSP;
0.000010 phi anti-K0 omega PHSP;
0.000010 phi anti-K0 f_0 PHSP;
0.000010 phi anti-K0 pi+ pi- PHSP;
0.000010 phi anti-K0 pi0 pi0 PHSP;
0.000005 phi anti-K0 pi0 eta PHSP;
0.000002 phi anti-K0 pi0 eta' PHSP;
0.000010 phi K- pi+ pi0 PHSP;
0.000005 phi K- pi+ eta PHSP;
0.000002 phi K- pi+ eta' PHSP;
0.000010 K+ K- K*- pi+ PHSP;
0.000010 K- K*+ K- pi+ PHSP;
0.000010 K- K*0 anti-K0 pi+ PHSP;
0.000010 K- K0 anti-K*0 pi+ PHSP;
0.000010 K0 K*- anti-K0 pi+ PHSP;
0.000010 K- K+ K- rho+ PHSP;
0.000010 K- K+ anti-K0 rho0 PHSP;
0.000010 K- K+ anti-K0 omega PHSP;
0.000010 K- K+ anti-K0 f_0 PHSP;
0.000010 K+ K- K- pi+ pi0 PHSP;
0.000005 K+ K- K- pi+ eta PHSP;
0.000002 K+ K- K- pi+ eta' PHSP;
0.000010 K+ K- anti-K0 pi+ pi- PHSP;
0.000010 K+ K- anti-K0 pi0 pi0 PHSP;
0.000005 K+ K- anti-K0 pi0 eta PHSP;
0.000005 K+ K- anti-K0 pi0 eta' PHSP;
0.000010 K0 anti-K0 K- pi+ pi0 PHSP;
0.000005 K0 anti-K0 K- pi+ eta PHSP;
0.000002 K0 anti-K0 K- pi+ eta' PHSP;
0.000010 K0 anti-K0 anti-K0 pi+ pi- PHSP;
0.000010 K0 anti-K0 anti-K0 pi0 pi0 PHSP;
0.000005 K0 anti-K0 anti-K0 pi0 eta PHSP;
0.000002 K0 anti-K0 anti-K0 pi0 eta' PHSP;
0.000010 phi K_0*- pi+ PHSP;
0.000010 phi anti-K_0*0 pi0 PHSP;
0.000010 K+ K- K_0*- pi+ PHSP;
0.000010 K+ K- anti-K_0*0 pi0 PHSP;
0.000005 K+ K- anti-K_0*0 eta PHSP;
0.000002 K+ K- anti-K_0*0 eta' PHSP;
0.000010 K- K- K_0*+ pi+ PHSP;
0.000010 K- anti-K_0*0 K0 pi+ PHSP;
0.000010 K- K_0*0 anti-K0 pi+ PHSP;
0.000010 K0 anti-K0 K_0*- pi+ PHSP;
0.000010 K0 anti-K0 anti-K_0*0 pi0 PHSP;
0.000005 K0 anti-K0 anti-K_0*0 eta PHSP;
0.000002 K0 anti-K0 anti-K_0*0 eta' PHSP;
0.000010 anti-K0 anti-K0 K_0*0 pi0 PHSP;
0.000005 anti-K0 anti-K0 K_0*0 eta PHSP;
0.000002 anti-K0 anti-K0 K_0*0 eta' PHSP;
0.000002 phi K'_1- pi+ PHSP;
0.000002 phi anti-K'_10 pi0 PHSP;
0.000001 phi anti-K'_10 eta PHSP;
0.000001 phi anti-K'_10 eta' PHSP;
0.000002 K- K+ K'_1- pi+ PHSP;
0.000002 K- K+ anti-K'_10 pi0 PHSP;
0.000001 K- K+ anti-K'_10 eta PHSP;
0.000001 K- K+ anti-K'_10 eta' PHSP;
0.000002 K- K- K'_1+ pi+ PHSP;
0.000002 K0 anti-K0 anti-K'_10 pi0 PHSP;
0.000001 K0 anti-K0 anti-K'_10 eta PHSP;
0.000001 K0 anti-K0 anti-K'_10 eta' PHSP;
0.000002 anti-K0 anti-K0 K'_10 pi0 PHSP;
0.000001 anti-K0 anti-K0 K'_10 eta PHSP;
0.000001 anti-K0 anti-K0 K'_10 eta' PHSP;
#--- 5-body phi-phi-K, phi-phi-pi, phi-3K, phi-K-K-pi, 5K, 4K-pi ------------
0.000003 phi phi anti-K0 PHSP;
0.0000001 phi phi pi0 PHSP;
0.000001 phi K+ K- anti-K0 PHSP;
0.000001 phi K0 anti-K0 anti-K0 PHSP;
0.0000001 phi K+ K- pi0 PHSP;
0.0000001 phi K0 anti-K0 pi0 PHSP;
0.0000001 phi anti-K0 K+ pi- PHSP;
0.0000001 phi K0 K- pi+ PHSP;
0.0000001 K+ K- K+ K- anti-K0 PHSP;
0.0000001 K0 anti-K0 K+ K- anti-K0 PHSP;
0.0000001 K+ K- K+ K- pi0 PHSP;
0.0000001 K+ K- K0 anti-K0 pi0 PHSP;
0.0000001 K+ K- K+ anti-K0 pi- PHSP;
0.0000001 K+ K- K0 K- pi+ PHSP;
0.0000001 K0 anti-K0 K0 anti-K0 pi0 PHSP;
0.0000001 K0 anti-K0 anti-K0 K+ pi- PHSP;
0.0000001 K0 anti-K0 K0 K- pi+ PHSP;
#--- 6-body phi-phi-K*, phi-3Kpi, phi-K-K-2pi ------------
0.000003 phi phi anti-K*0 PHSP;
0.000001 phi K+ K- anti-K*0 PHSP;
0.000001 phi K0 anti-K0 anti-K*0 PHSP;
0.000001 phi anti-K0 K- K*+ PHSP;
0.000001 phi anti-K0 anti-K0 K*0 PHSP;
0.0000001 phi K+ K- K- pi+ PHSP;
0.0000001 phi K+ K- anti-K0 pi0 PHSP;
0.0000001 phi K0 anti-K0 K- pi+ PHSP;
0.0000001 phi K0 anti-K0 anti-K0 pi0 PHSP;
#--- 6-body a1a1 ------------
0.000050 a_10 a_10 PHSP;
0.000050 a_1+ a_1- PHSP;
#
# PR LHCb: 7 Nov 2005 Add K*0 pi0 pi0
0.0000067 K*0 pi0 pi0 PHSP;
#
# B -> cc= s
#
# Charmonium states - updated from Lange's recommendations (august 23,2000)
# Based on new BABAR results I'm making the following changes (Lange, March 13, 2001
# J/psi K0 was 10, now 9 x 10^-4
# J/psi pi0 was 2.5, now 2.0 x 10^-4
# J/psi Kstar was 15, now 13
# Fix chic1 KS CP eigenstate
# adding J/psi rho and omega - for lack of better thing will use the Kstar helicity amplitudes.
# Psi2sKs 30 ->31
# chic1 Kstar: 12 ->6
0.00044 J/psi K_S0 SVS;
0.00044 J/psi K_L0 SVS;
#
#
0.00133 J/psi anti-K*0 SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus;
0.0000205 J/psi pi0 SVS;
0.000027 J/psi rho0 SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus;
0.000030 J/psi omega SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus;
0.0002 J/psi K- pi+ PHSP;
0.0001 J/psi anti-K0 pi0 PHSP;
#rl0.0007 J/psi anti-K0 pi+ pi- PHSP;
#rl0.00035 J/psi anti-K0 pi0 pi0 PHSP;
#rl0.00035 J/psi K- pi+ pi0 PHSP;
0.0013 J/psi anti-K_10 SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0;
0.0001 J/psi anti-K'_10 SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0;
0.0005 J/psi anti-K_2*0 PHSP;
0.00009 J/psi phi anti-K0 PHSP;
#
0.00031 psi(2S) K_S0 SVS;
0.00031 psi(2S) K_L0 SVS;
#
#
0.00072 psi(2S) anti-K*0 SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus;
0.0004 psi(2S) K- pi+ PHSP;
0.0002 psi(2S) anti-K0 pi0 PHSP;
0.0002 psi(2S) anti-K0 pi+ pi- PHSP;
0.0001 psi(2S) anti-K0 pi0 pi0 PHSP;
0.0001 psi(2S) K- pi+ pi0 PHSP;
0.0004 psi(2S) anti-K_10 PHSP;
#
0.000445 eta_c K_S0 PHSP;
0.000445 eta_c K_L0 PHSP;
#
#
0.00096 anti-K*0 eta_c SVS;
0.0002 eta_c K- pi+ PHSP;
0.0001 eta_c anti-K0 pi0 PHSP;
0.0002 eta_c anti-K0 pi+ pi- PHSP;
0.0001 eta_c anti-K0 pi0 pi0 PHSP;
0.0001 eta_c K- pi+ pi0 PHSP;
#
0.00024 eta_c(2S) K_S0 PHSP;
0.00024 eta_c(2S) K_L0 PHSP;
#
#
0.00066 anti-K*0 eta_c(2S) SVS;
0.00008 eta_c(2S) K- pi+ PHSP;
0.00005 eta_c(2S) anti-K0 pi0 PHSP;
0.00008 eta_c(2S) anti-K0 pi+ pi- PHSP;
0.00005 eta_c(2S) anti-K0 pi0 pi0 PHSP;
0.00005 eta_c(2S) K- pi+ pi0 PHSP;
#
0.00015 chi_c0 K_S0 PHSP;
0.00015 chi_c0 K_L0 PHSP;
#
#
0.00030 anti-K*0 chi_c0 SVS;
0.0002 chi_c0 K- pi+ PHSP;
0.0001 chi_c0 anti-K0 pi0 PHSP;
0.0002 chi_c0 anti-K0 pi+ pi- PHSP;
0.0001 chi_c0 anti-K0 pi0 pi0 PHSP;
0.0001 chi_c0 K- pi+ pi0 PHSP;
#
0.000195 chi_c1 K_S0 SVS;
0.000195 chi_c1 K_L0 SVS;
#
#
0.00032 chi_c1 anti-K*0 SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus;
0.0004 chi_c1 K- pi+ PHSP;
0.0002 chi_c1 anti-K0 pi0 PHSP;
0.0004 chi_c1 anti-K0 pi+ pi- PHSP;
0.0002 chi_c1 anti-K0 pi0 pi0 PHSP;
0.0002 chi_c1 K- pi+ pi0 PHSP;
#
0.00005 chi_c2 K_S0 STS;
0.00005 chi_c2 K_L0 STS;
#
#
0.00003 chi_c2 anti-K*0 PHSP;
0.0002 chi_c2 K- pi+ PHSP;
0.0001 chi_c2 anti-K0 pi0 PHSP;
0.0002 chi_c2 anti-K0 pi+ pi- PHSP;
0.0001 chi_c2 anti-K0 pi0 pi0 PHSP;
0.0001 chi_c2 K- pi+ pi0 PHSP;
#
0.00024 psi(3770) K_S0 SVS;
0.00024 psi(3770) K_L0 SVS;
#
#
0.00048 psi(3770) anti-K*0 SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus;
0.00014 psi(3770) K- pi+ PHSP;
0.00014 psi(3770) anti-K0 pi0 PHSP;
0.00014 psi(3770) anti-K0 pi+ pi- PHSP;
0.00007 psi(3770) anti-K0 pi0 pi0 PHSP;
0.00007 psi(3770) K- pi+ pi0 PHSP;
0.00029 psi(3770) anti-K_10 PHSP;
#
# b-> c (dc=)
#
0.000211 D- D+ PHSP;
# See Ref [B1] for the next 3:
0.000305 D*+ D- SVS;
0.000305 D*- D+ SVS;
0.00082 D*+ D*- SVV_HELAMP 0.47 0.0 0.96 0.0 0.56 0.0;
#
# b -> c (sc=) --> D Ds X Sum = 10%
#
0.0074 D+ D_s- PHSP;
0.0083 D*+ D_s- SVS;
0.0076 D_s*- D+ SVS;
0.0179 D*+ D_s*- SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0;
0.0006 D'_1+ D_s- SVS;
0.0012 D'_1+ D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0012 D_1+ D_s- SVS;
0.0024 D_1+ D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0042 D_2*+ D_s- STS;
0.0040 D_2*+ D_s*- PHSP;
#
0.0018 D_s- D+ pi0 PHSP;
0.0037 D_s- D0 pi+ PHSP;
0.0018 D_s*- D+ pi0 PHSP;
0.0037 D_s*- D0 pi+ PHSP;
0.0030 D_s- D+ pi+ pi- PHSP;
0.0022 D_s- D+ pi0 pi0 PHSP;
0.0022 D_s- D0 pi+ pi0 PHSP;
0.0030 D_s*- D+ pi+ pi- PHSP;
0.0022 D_s*- D+ pi0 pi0 PHSP;
0.0022 D_s*- D0 pi+ pi0 PHSP;
#
# b -> c (sc=) --> D D= K X Sum = 8%
# Update: Ref. [B1]
#
# External W-emission amplitude
0.0017 D+ anti-D0 K- PHSP;
0.0046 D+ anti-D*0 K- PHSP;
0.0031 D*+ anti-D0 K- PHSP;
0.0118 D*+ anti-D*0 K- PHSP;
# External+internal W-emission amplitude
0.0015 D+ D- anti-K0 PHSP;
0.0018 D*+ D- anti-K0 PHSP;
0.0047 D+ D*- anti-K0 PHSP;
0.0070 D*+ D*- anti-K0 PHSP;
# Internal W-emission amplitude (color suppressed modes)
0.0005 D0 anti-D0 anti-K0 PHSP;
0.0005 D*0 anti-D0 anti-K0 PHSP;
0.0015 D0 anti-D*0 anti-K0 PHSP;
0.0015 D*0 anti-D*0 anti-K0 PHSP;
0.0025 D+ anti-D0 K*- PHSP;
0.0025 D*+ anti-D0 K*- PHSP;
0.0025 D+ anti-D*0 K*- PHSP;
0.0050 D*+ anti-D*0 K*- PHSP;
#
0.0025 D+ D- anti-K*0 PHSP;
0.0025 D*+ D- anti-K*0 PHSP;
0.0025 D+ D*- anti-K*0 PHSP;
0.0050 D*+ D*- anti-K*0 PHSP;
#
0.0005 anti-D0 D0 anti-K*0 PHSP;
0.0005 anti-D0 D*0 anti-K*0 PHSP;
0.0005 anti-D*0 D0 anti-K*0 PHSP;
0.0010 anti-D*0 D*0 anti-K*0 PHSP;
#
#
# B -> D(*) X Exclusive modes
#
0.00276 D*+ pi- SVS;
0.00268 D+ pi- PHSP;
0.0077 rho- D+ SVS;
#
# D* rho HELAMP parameters taken from ICHEP 98-852.
0.0068 rho- D*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19;
0.0005 D+ pi- pi0 PHSP;
0.0082 D*+ pi- pi0 PHSP;
0.0005 D0 pi+ pi- PHSP;
0.00062 D*0 pi+ pi- PHSP;
0.0005 D*0 pi0 pi0 PHSP;
#
# D a1 updated Ref. [B1]
0.006 a_1- D+ SVS;
0.0011 D+ rho0 pi- PHSP;
0.0011 D+ rho- pi0 PHSP;
0.0039 D+ pi+ pi- pi- PHSP;
0.0010 D+ pi0 pi- pi0 PHSP;
0.0010 D0 pi+ pi- pi0 PHSP;
0.0001 D0 pi0 pi0 pi0 PHSP;
#
# SVV_HELAMP for D* a1 taken from factorization. Recommandation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html:
# updated Ref. [B1]
# October 26, 2004 Lange update
0.0130 D*+ a_1- SVV_HELAMP 0.200 0.0 0.866 0.0 0.458 0.0;
#
0.0057 D*+ rho0 pi- PHSP;
0.0010 D*+ rho- pi0 PHSP;
0.0000 D*+ pi+ pi- pi- PHSP;
0.0010 D*+ pi0 pi- pi0 PHSP;
0.0010 D*0 pi+ pi- pi0 PHSP;
0.0001 D*0 pi0 pi0 pi0 PHSP;
#
# B->D** pi and D** rho, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html
#further updates October 26, 2004 - Lange
# October 26, 2004 Lange update
#
0.0001 D_1+ pi- SVS;
0.0001 D'_1+ pi- SVS;
0.00006 D_0*+ pi- PHSP;
0.000215 D_2*+ pi- STS;
0.0004 D_1+ rho- PHSP;
0.0013 D'_1+ rho- PHSP;
0.0022 D_2*+ rho- PHSP;
#
#
# B->DK, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html:
# update: Ref. [B1]:
#
0.000214 D*+ K- SVS;
0.00020 D+ K- PHSP;
0.00033 D*+ K*- SVV_HELAMP 0.228 0.0 0.932 0.0 0.283 0.0;
0.00045 K*- D+ SVS;
#more DK modes - October 26, 2004 -Lange
0.000036 D*0 K0 SVS;
0.000052 D0 K0 PHSP;
0.000042 anti-K*0 D0 SVS;
0.00001 anti-K*0 anti-D0 SVS;
0.00004 D*0 anti-K*0 SVV_HELAMP 1. 0. 1. 0. 1. 0.;
0.00001 anti-D*0 anti-K*0 SVV_HELAMP 1. 0. 1. 0. 1. 0.;
#
#
# Color-suppressed modes. Br's are expectations from
# Phys. Rev. D57 (1998), 5363-5369, except for the eta' modes, which are set
# equal to the eta modes. SVV_HELAMP parameters are the same as in D*0 rho-,
# with phases set to 0. Recommendation http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/169.html:
# update: See Ref [B1]:
# further update October 26, 2004 Lange
#
0.000261 D0 pi0 PHSP;
0.00017 D*0 pi0 SVS;
#
0.00032 rho0 D0 SVS;
0.00029 D*0 rho0 SVV_HELAMP 0.228 0.0 0.932 0.0 0.283 0.0;
#
0.000202 D0 eta PHSP;
0.00018 D*0 eta SVS;
#
0.000125 D0 eta' PHSP;
0.000123 D*0 eta' SVS;
#
0.000259 omega D0 SVS;
0.00027 D*0 omega SVV_HELAMP 0.228 0.0 0.932 0.0 0.283 0.0;
#
#
#October 26, 2004 - Lange
0.0016 D_s0*- D+ PHSP;
0.0015 D*+ D_s0*- SVS;
0.0042 D_s1- D+ SVS;
0.0093 D*+ D_s1- SVV_HELAMP 0.4904 0. 0.7204 0. 0.4904 0.;
#
# Feb 2009
#
0.00088 D+ K- anti-K*0 PHSP;
0.00129 D*+ K- anti-K*0 PHSP;
#
# Feb 2009
#
0.0028 D+ omega pi- PHSP;
0.00289 D*+ omega pi- PHSP;
#
# Feb 2009
#
0.00049 D+ K0 pi- PHSP;
0.0003 D*+ K0 pi- PHSP;
#
# Feb 2009
#
0.00043 D'_s1- D+ PHSP;
0.00083 D'_s1- D*+ PHSP;
##### Already included above 0.0023 D_s1- D*+ PHSP;
#
#
# Lam_c X / Sigma_c X 6.0 %
#
#0.01000 cd_0 anti-ud_0 PYTHIA 23;
#0.03000 cd_1 anti-ud_1 PYTHIA 23;
0.0110747 cd_0 anti-ud_0 PYTHIA 23;
0.0221495 cd_1 anti-ud_1 PYTHIA 23;
#
# Xi_c X 2.5%
#
#0.00600 cs_0 anti-ud_0 PYTHIA 23;
#0.01800 cs_1 anti-ud_1 PYTHIA 23;
0.0030204 cs_0 anti-ud_0 PYTHIA 23;
0.0060408 cs_1 anti-ud_1 PYTHIA 23;
#
# PR LHCb Add p pbar mode
0.0000001 p+ anti-p- PHSP;
#
0.2716831 anti-u d c anti-d PYTHIA 48;
0.0463125 anti-u d c anti-d PYTHIA 25;
0.0211427 anti-u s c anti-d PYTHIA 23;
0.0181223 anti-u c d anti-d PYTHIA 48;
0.0009061 anti-u c s anti-d PYTHIA 48;
#lange - try to crank up the psi production....
0.0745027 anti-c s c anti-d PYTHIA 13;
0.0060408 anti-c d c anti-d PYTHIA 13;
0.0030204 anti-u d u anti-d PYTHIA 48;
0.0040272 anti-c s u anti-d PYTHIA 48;
# JGS 11/5/02 This and similar a few lines above have been divided by two
# to solve a double-counting problem for this channel
0.0020639 anti-u u d anti-d PYTHIA 48;
0.0000705 anti-d d d anti-d PYTHIA 48;
0.0000906 anti-s s d anti-d PYTHIA 48;
0.0022149 anti-u u s anti-d PYTHIA 48;
0.0018122 anti-d d s anti-d PYTHIA 48;
0.0015102 anti-s s s anti-d PYTHIA 48;
0.005034 s anti-d PYTHIA 32;
Enddecay
#
#
Decay B0
# Updated to PDG 2008
# b -> c semileptonic
#
-0.0516 D*- e+ nu_e PHOTOS HQET 0.77 1.33 0.92;
-0.0217 D- e+ nu_e PHOTOS ISGW2;
-0.0054 D_1- e+ nu_e PHOTOS ISGW2;
-0.0020 D_0*- e+ nu_e PHOTOS ISGW2;
-0.0050 D'_1- e+ nu_e PHOTOS ISGW2;
-0.0022 D_2*- e+ nu_e PHOTOS ISGW2;
-0.0003 D*- pi0 e+ nu_e PHOTOS GOITY_ROBERTS;
-0.0049 anti-D*0 pi- e+ nu_e PHOTOS GOITY_ROBERTS;
-0.0010 D- pi0 e+ nu_e PHOTOS GOITY_ROBERTS;
+0.0516 D*- e+ nu_e FSR HQET 0.77 1.33 0.92;
+0.0217 D- e+ nu_e FSR ISGW2;
+0.0054 D_1- e+ nu_e FSR ISGW2;
+0.0020 D_0*- e+ nu_e FSR ISGW2;
+0.0050 D'_1- e+ nu_e FSR ISGW2;
+0.0022 D_2*- e+ nu_e FSR ISGW2;
+0.0003 D*- pi0 e+ nu_e FSR GOITY_ROBERTS;
+0.0049 anti-D*0 pi- e+ nu_e FSR GOITY_ROBERTS;
+0.0010 D- pi0 e+ nu_e FSR GOITY_ROBERTS;
# Now 0 as it duplicates other decays
-0.0000 anti-D0 pi- e+ nu_e PHOTOS GOITY_ROBERTS;
-#
-0.0516 D*- mu+ nu_mu PHOTOS HQET 0.77 1.33 0.92;
-0.0217 D- mu+ nu_mu PHOTOS ISGW2;
-0.0054 D_1- mu+ nu_mu PHOTOS ISGW2;
-0.0020 D_0*- mu+ nu_mu PHOTOS ISGW2;
-0.0050 D'_1- mu+ nu_mu PHOTOS ISGW2;
-0.0022 D_2*- mu+ nu_mu PHOTOS ISGW2;
-0.0003 D*- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS;
-0.0049 anti-D*0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS;
-0.0010 D- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS;
-0.0000 anti-D0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS;
+0.0000 anti-D0 pi- e+ nu_e FSR GOITY_ROBERTS;
+#
+0.0516 D*- mu+ nu_mu FSR HQET 0.77 1.33 0.92;
+0.0217 D- mu+ nu_mu FSR ISGW2;
+0.0054 D_1- mu+ nu_mu FSR ISGW2;
+0.0020 D_0*- mu+ nu_mu FSR ISGW2;
+0.0050 D'_1- mu+ nu_mu FSR ISGW2;
+0.0022 D_2*- mu+ nu_mu FSR ISGW2;
+0.0003 D*- pi0 mu+ nu_mu FSR GOITY_ROBERTS;
+0.0049 anti-D*0 pi- mu+ nu_mu FSR GOITY_ROBERTS;
+0.0010 D- pi0 mu+ nu_mu FSR GOITY_ROBERTS;
+0.0000 anti-D0 pi- mu+ nu_mu FSR GOITY_ROBERTS;
#
# b -> c tau nu
#
0.0160 D*- tau+ nu_tau ISGW2;
0.0100 D- tau+ nu_tau ISGW2;
0.0013 D_1- tau+ nu_tau ISGW2;
0.0013 D_0*- tau+ nu_tau ISGW2;
0.0020 D'_1- tau+ nu_tau ISGW2;
0.0020 D_2*- tau+ nu_tau ISGW2;
#
# b -> u l nu
#
-0.000136 pi- e+ nu_e PHOTOS ISGW2;
-0.000247 rho- e+ nu_e PHOTOS ISGW2;
-0.000000 D(2S)- e+ nu_e PHOTOS ISGW2;
-0.000000 D*(2S)- e+ nu_e PHOTOS ISGW2;
+0.000136 pi- e+ nu_e FSR ISGW2;
+0.000247 rho- e+ nu_e FSR ISGW2;
+0.000000 D(2S)- e+ nu_e FSR ISGW2;
+0.000000 D*(2S)- e+ nu_e FSR ISGW2;
0.001892 Xu- e+ nu_e VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00;
#
-0.000136 pi- mu+ nu_mu PHOTOS ISGW2;
-0.000247 rho- mu+ nu_mu PHOTOS ISGW2;
-0.000000 D(2S)- mu+ nu_mu PHOTOS ISGW2;
-0.000000 D*(2S)- mu+ nu_mu PHOTOS ISGW2;
+0.000136 pi- mu+ nu_mu FSR ISGW2;
+0.000247 rho- mu+ nu_mu FSR ISGW2;
+0.000000 D(2S)- mu+ nu_mu FSR ISGW2;
+0.000000 D*(2S)- mu+ nu_mu FSR ISGW2;
0.001892 Xu- mu+ nu_mu VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00;
#
0.000060 pi- tau+ nu_tau ISGW2;
0.000083 rho- tau+ nu_tau ISGW2;
0.000090 a_1- tau+ nu_tau ISGW2;
0.000008 b_1- tau+ nu_tau ISGW2;
0.000008 a_0- tau+ nu_tau ISGW2;
0.000008 a_2- tau+ nu_tau ISGW2;
0.000000 rho(2S)- tau+ nu_tau ISGW2;
0.000000 D(2S)- tau+ nu_tau ISGW2;
0.000000 D*(2S)- tau+ nu_tau ISGW2;
#
#
# b->u hadronic
# Ref. [B1]:
# Lange Nov14,2004 (flip D_s K --opposite of D_s pi)
0.0000153 D_s+ pi- PHSP;
0.0000290 D_s- K+ PHSP;
0.0000300 D_s*+ pi- SVS;
0.0000220 D_s*- K+ SVS;
#
0.000016 rho- D_s+ SVS;
0.000016 K*+ D_s- SVS;
0.000016 D_s*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.000016 D_s*- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# b -> s gamma
#
0.0000401 K*0 gamma HELAMP 1.0 0.0 1.0 0.0;
# PR LHCb add omega gamma
0.0000005 omega gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000135 K_10 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000065 K'_10 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000128 K'*0 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000166 K_2*0 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000017 K''*0 gamma HELAMP 1.0 0.0 1.0 0.0;
0.0003118 Xsd gamma BTOXSGAMMA 2 ;
#
-0.0000006 K0 e+ e- PHOTOS BTOSLLBALL;
-0.0000018 K*0 e+ e- PHOTOS BTOSLLBALL;
-0.0000050 Xsd e+ e- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.0000006 K0 mu+ mu- PHOTOS BTOSLLBALL;
-0.0000014 K*0 mu+ mu- PHOTOS BTOSLLBALL;
-0.0000025 Xsd mu+ mu- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.0000001 K0 tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 K*0 tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 Xsd tau+ tau- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
+0.0000006 K0 e+ e- FSR BTOSLLBALL;
+0.0000018 K*0 e+ e- FSR BTOSLLBALL;
+0.0000050 Xsd e+ e- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.0000006 K0 mu+ mu- FSR BTOSLLBALL;
+0.0000014 K*0 mu+ mu- FSR BTOSLLBALL;
+0.0000025 Xsd mu+ mu- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.0000001 K0 tau+ tau- FSR BTOSLLBALL;
+0.0000002 K*0 tau+ tau- FSR BTOSLLBALL;
+0.0000002 Xsd tau+ tau- FSR BTOXSLL 4.8 0.2 0.0 0.41;
#
#------------------------------------------------------------------------------
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv
#
# B0 -> CP eigenstates (some exclusive b -> u) sum=0.00036
#
# PR LHCb 04/07/04 update BR
0.0000051 pi+ pi- PHSP;
0.0000016 pi0 pi0 PHSP;
0.0000010 pi0 eta PHSP;
0.0000015 pi0 eta' PHSP;
0.000001 pi0 a_00 PHSP;
0.000001 pi0 f_0 PHSP;
# pi0 rho0 is with the 3-body modes
0.000001 omega pi0 SVS;
0.000001 a_10 pi0 SVS;
0.000001 b_10 pi0 SVS;
0.000001 eta eta PHSP;
0.000001 eta eta' PHSP;
0.000001 eta a_00 PHSP;
0.000001 eta f_0 PHSP;
0.000001 rho0 eta SVS;
0.000001 omega eta SVS;
0.000001 a_10 eta SVS;
0.000001 b_10 eta SVS;
0.000001 eta' eta' PHSP;
0.000001 eta' a_00 PHSP;
0.000001 eta' f_0 PHSP;
0.000001 rho0 eta' SVS;
0.000001 omega eta' SVS;
0.000001 a_10 eta' SVS;
0.000001 b_10 eta' SVS;
0.000001 a_00 a_00 PHSP;
0.000001 a_00 f_0 PHSP;
0.000001 rho0 a_00 SVS;
0.000001 omega a_00 SVS;
0.000001 a_10 a_00 SVS;
0.000001 b_10 a_00 SVS;
0.000001 f_0 f_0 PHSP;
0.000001 rho0 f_0 SVS;
0.000001 omega f_0 SVS;
0.000001 a_10 f_0 SVS;
0.000001 b_10 f_0 SVS;
# Penguin dominated modes are sin2beta, not sin2alpha
0.0000043 phi K_S0 SVS;
0.0000043 phi K_L0 SVS;
0.000001 eta K_S0 PHSP;
0.000001 eta K_L0 PHSP;
0.0000325 eta' K_S0 PHSP;
0.0000325 eta' K_L0 PHSP;
0.0000025 omega K_S0 SVS;
0.0000025 omega K_L0 SVS;
#don't allow jetset to simulate the same decay but to a K0 or anti-K0
#Lange 1/30/2003
0.0 phi K0 PHSP;
0.0 phi anti-K0 PHSP;
0.0 eta K0 PHSP;
0.0 eta anti-K0 PHSP;
0.0 eta' K0 PHSP;
0.0 eta' anti-K0 PHSP;
0.0 omega K0 PHSP;
0.0 omega anti-K0 PHSP;
# phipi0 has no simple Pengiun or tree so who knows - ditto phieta/eta'?
0.000001 phi pi0 SVS;
0.000001 phi eta SVS;
0.000001 phi eta' SVS;
#
0.0000159 K*0 eta SVS;
0.0000038 K*0 eta' SVS;
0.000001 K*0 omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 phi omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 omega omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 omega rho0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
#
# PR LHCb 04/07/04 update BR
#2-body modes from Jim Olsen
0.0000194 K+ pi- PHSP;
0.0000004 K+ K- PHSP;
0.0000005 K_S0 K_S0 PHSP;
0.0000000 K_S0 K_L0 PHSP;
0.0000005 K_L0 K_L0 PHSP;
# Declare K0 pi0 not to have it through Pythia (LHCb - PR)
0.0000000 K0 pi0 PHSP;
# Split into K_s0 K_l0 (LHCb - P. Robbe)
0.0000049 K_S0 pi0 PHSP;
0.0000049 K_L0 pi0 PHSP;
#Put in with 0 BR to keep PYTHIA from generating it
0.0000000 K0 anti-K0 PHSP;
#
# 3-body John Back (jback@slac.stanford.edu) - Oct 15, 2002
# JGS intersperses modes with pi0->eta,eta'
# B0 modes
# Model generates rho(770), rho(1450) and rho(1700) resonances
# with interference (uses CKM angle alpha)
0.000024 pi- pi+ pi0 BTO3PI_CP dm alpha;
# Put in with 0 BR to keep PYTHIA from generating these (see BTO3PI_CP above)
0.000000 rho0 pi0 SVS;
0.000000 rho+ pi- SVS;
0.000000 rho- pi+ SVS;
0.000000 rho(2S)+ pi- SVS;
0.000000 rho(2S)- pi+ SVS;
0.000000 rho(3S)+ pi- SVS;
0.000000 rho(3S)- pi+ SVS;
#
# rho0 3-body modes
0.0000027 rho0 K_S0 SVS;
0.0000027 rho0 K_L0 SVS;
#
# rho- 3-body modes
0.0000085 rho- K+ SVS;
#
# rho(1450) 3-body modes
0.0000005 rho(2S)0 K_S0 SVS;
0.0000005 rho(2S)0 K_L0 SVS;
#
#
# f0,a0(980) 3-body modes
0.0000055 f_0 K0 PHSP;
0.000001 a_00 K0 PHSP;
0.000001 a_0- K+ PHSP;
0.000001 a_0+ pi- PHSP;
0.000003 a_0- pi+ PHSP;
#
# K*0(892) 3-body modes
0.0000017 K*0 pi0 SVS;
0.000003 K*0 anti-K0 SVS;
#
# K*0(1430) 3-body modes
0.000001 K_0*0 pi0 PHSP;
0.000003 K_0*0 anti-K0 PHSP;
#
# K*0(1680) 3-body modes
0.000001 K''*0 pi0 SVS;
0.000001 K''*0 K0 SVS;
#
# K*+(892) 3-body modes
0.0000098 K*+ pi- SVS;
0.000002 K*+ K- SVS;
#
# K*+(1430) 3-body modes
0.000050 K_0*+ pi- PHSP;
0.000002 K_0*+ K- PHSP;
#
# K*0(1680) 3-body modes
0.000001 K''*+ pi- SVS;
0.000001 K''*+ K- SVS;
#
#
# Non-resonant 3-body left-overs
# Most modes are set at 1e-6
#
# pi+pi-pi0: high mass + f0(400-1200) = (1+1)e-6
#0402270.000002 pi+ pi- pi0 PHSP;
0.000017 pi+ pi- eta PHSP;
0.000001 pi+ pi- eta' PHSP;
#
# pi+ pi- K0: total-rhoK0-f0K0-piK*(892)-piK*(1430)=45-5-6-13./3-11./3
0.0000199 pi+ pi- K0 PHSP;
#
# K+ pi- pi0
0.000002 K+ pi- pi0 PHSP;
0.000020 K+ pi- eta PHSP;
0.000001 K+ pi- eta' PHSP;
#
# pi+ K- K0.
# Both B0 and B0bar can decay to these => 0.5e-6 each
0.0000005 pi+ K- K0 PHSP;
0.0000005 pi- K+ anti-K0 PHSP;
#
# K+ K- K0
# PR LHCb 09 Apr 2004 split into KS/KL
0.000000 K+ K- K0 PHSP;
0.0000081 K+ K- K_S0 PHSP;
0.0000081 K+ K- K_L0 PHSP;
#
# K+ K- pi0
0.000001 K+ K- pi0 PHSP;
0.000001 K+ K- eta PHSP;
0.000001 K+ K- eta' PHSP;
#
# pi0 K0 anti-K0
0.000002 K0 anti-K0 pi0 PHSP;
0.000001 K0 anti-K0 eta PHSP;
0.000001 K0 anti-K0 eta' PHSP;
#
# pi0 pi0 K0
0.000002 K0 pi0 pi0 PHSP;
0.000001 K0 pi0 eta PHSP;
0.000001 K0 pi0 eta' PHSP;
0.000001 K0 eta eta PHSP;
0.000001 K0 eta eta' PHSP;
0.000001 K0 eta' eta' PHSP;
#
# K0 anti-K0 K0: 8*BF(KsKsKs)~=48 (8 is a guess)
0.000048 K0 anti-K0 K0 PHSP;
#
# pi0 pi0 pi0
0.000001 pi0 pi0 pi0 PHSP;
0.000001 pi0 pi0 eta PHSP;
0.000001 pi0 pi0 eta' PHSP;
0.000001 pi0 eta eta PHSP;
0.000001 pi0 eta eta' PHSP;
#
# PR LHCb: 7 Nov 2005 Add K*0 pi0 pi0
0.0000067 K*0 pi0 pi0 PHSP;
#^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#---------------------------------------------------------------------------
#
#4-body modes from Andrei Gritsan
#--- 4-body rho-rho, rho-pi-pi, pi-pi-pi-pi --------------------------
# PR LHCb 20 Apr 2004, set long. pol.
0.0000011 rho0 rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0;
0.0000242 rho+ rho- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0;
0.000003 rho0 pi+ pi- PHSP;
0.000003 omega pi+ pi- PHSP;
0.000001 rho0 pi0 pi0 PHSP;
0.000001 omega pi0 pi0 PHSP;
0.0000005 rho0 pi0 eta PHSP;
0.0000002 rho0 eta eta PHSP;
0.0000002 rho0 pi0 eta' PHSP;
0.0000001 rho0 eta eta' PHSP;
0.0000005 omega pi0 eta PHSP;
0.0000002 omega eta eta PHSP;
0.0000002 omega pi0 eta' PHSP;
0.0000001 omega eta eta' PHSP;
0.000010 rho+ pi- pi0 PHSP;
0.000005 rho+ pi- eta PHSP;
0.000010 rho- pi+ pi0 PHSP;
0.000005 rho- pi+ eta PHSP;
0.000010 pi+ pi- pi+ pi- PHSP;
0.000010 pi+ pi- pi0 pi0 PHSP;
0.000005 pi+ pi- eta pi0 PHSP;
0.000002 pi+ pi- eta eta PHSP;
0.000002 pi+ pi- eta' pi0 PHSP;
0.000001 pi+ pi- eta' eta PHSP;
0.0000165 a_1+ pi- SVS;
0.0000165 a_1- pi+ SVS;
0.0000055 b_1+ pi- SVS;
0.0000055 b_1- pi+ SVS;
0.000002 rho- a_0+ SVS;
0.000010 rho+ a_0- SVS;
0.000001 f_0 pi+ pi- PHSP;
0.000001 f_0 pi0 pi0 PHSP;
0.000001 a_0- pi+ pi0 PHSP;
0.000001 a_00 pi0 pi0 PHSP;
0.000001 a_0+ pi- pi0 PHSP;
#--- 4-body rho-K*, rho-pi-K, K*-pi-pi, pi-pi-pi-K -------------------
0.0000056 rho0 K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000100 rho- K*+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000484 pi- pi+ K*0 PHSP;
0.000010 pi- pi0 K*+ PHSP;
0.000005 pi- eta K*+ PHSP;
0.000002 pi- eta' K*+ PHSP;
0.000010 rho- K+ pi0 PHSP;
0.000005 rho- K+ eta PHSP;
0.000002 rho- K+ eta' PHSP;
0.000010 rho- K0 pi+ PHSP;
0.000010 rho+ K0 pi- PHSP;
0.000005 rho0 K0 pi0 PHSP;
0.000002 rho0 K0 eta PHSP;
0.000001 rho0 K0 eta' PHSP;
0.000010 rho0 K+ pi- PHSP;
0.000005 omega K0 pi0 PHSP;
0.000002 omega K0 eta PHSP;
0.000001 omega K0 eta' PHSP;
0.000005 omega K+ pi- PHSP;
0.000010 pi+ pi0 pi- K0 PHSP;
0.000005 pi+ eta pi- K0 PHSP;
0.000010 pi0 pi0 pi0 K0 PHSP;
0.000005 pi0 pi0 eta K0 PHSP;
0.000002 pi0 eta eta K0 PHSP;
0.000002 pi0 pi0 eta' K0 PHSP;
0.000001 pi0 eta eta' K0 PHSP;
0.000010 pi+ pi- pi- K+ PHSP;
0.000010 pi0 pi0 pi- K+ PHSP;
0.000005 pi0 eta pi- K+ PHSP;
0.000002 eta eta pi- K+ PHSP;
0.000002 pi0 eta' pi- K+ PHSP;
0.000001 eta eta' pi- K+ PHSP;
0.000010 rho0 K_0*0 PHSP;
0.000020 rho- K_0*+ PHSP;
0.000010 pi- pi+ K_0*0 PHSP;
0.000010 pi0 pi0 K_0*0 PHSP;
0.000010 pi- pi0 K_0*+ PHSP;
0.000005 K*0 f_0 SVS;
0.000010 a_10 K0 SVS;
0.0000160 a_1- K+ SVS;
0.000010 b_10 K0 SVS;
0.0000074 b_1- K+ SVS;
0.000005 K*0 a_00 SVS;
0.000005 K*+ a_0- SVS;
#--- 4-body K*-K*, rho-K-K, K*-K-pi, phi-pi-pi, pi-pi-K-K ------------
0.0000013 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 K*+ K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000001 phi rho0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 K+ K- rho0 PHSP;
0.000001 K0 anti-K0 rho0 PHSP;
0.000001 K+ K- omega PHSP;
0.000001 K0 anti-K0 omega PHSP;
0.000001 K+ anti-K0 rho- PHSP;
0.000001 K- K0 rho+ PHSP;
0.0000001 phi pi- pi+ PHSP;
0.000001 K+ K- pi- pi+ PHSP;
0.000001 K+ K- pi0 pi0 PHSP;
0.0000005 K+ K- pi0 eta PHSP;
0.0000002 K+ K- eta eta PHSP;
0.0000002 K+ K- pi0 eta' PHSP;
0.0000001 K+ K- eta eta' PHSP;
0.000001 K0 anti-K0 pi- pi+ PHSP;
0.000001 K0 anti-K0 pi0 pi0 PHSP;
0.0000005 K0 anti-K0 pi0 eta PHSP;
0.0000002 K0 anti-K0 eta eta PHSP;
0.0000002 K0 anti-K0 pi0 eta' PHSP;
0.0000001 K0 anti-K0 eta eta' PHSP;
0.000001 K*+ K- pi0 PHSP;
0.000001 K*- K+ pi0 PHSP;
0.000001 K*0 anti-K0 pi0 PHSP;
0.000001 K0 anti-K*0 pi0 PHSP;
0.000001 K+ anti-K*0 pi- PHSP;
0.000001 K*+ anti-K0 pi- PHSP;
0.0000033 K- K*0 pi+ PHSP;
0.000001 K*- K0 pi+ PHSP;
#--- 4-body phi-K*, phi-K-pi, K-K-K*, pi-K-K-K -----------------------
0.0000095 phi K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000010 phi K+ pi- PHSP;
0.000010 phi K0 pi0 PHSP;
0.000007 phi K0 eta PHSP;
0.000018 K- K+ K*0 PHSP;
0.000010 K- K*+ K0 PHSP;
0.000010 K*- K+ K0 PHSP;
0.000010 K+ K- K+ pi- PHSP;
0.000010 K+ K- K0 pi0 PHSP;
0.000005 K+ K- K0 eta PHSP;
0.000010 K0 anti-K0 K0 pi0 PHSP;
0.000005 K0 anti-K0 K0 eta PHSP;
0.000010 phi K_0*0 PHSP;
0.000010 K- K+ K_0*0 PHSP;
0.000010 K- K_0*+ K0 PHSP;
0.000010 K_0*- K+ K0 PHSP;
0.000002 phi K'_10 PHSP;
0.000002 K- K+ K'_10 PHSP;
#--- 4-body phi-phi, phi-K-K, K-K-K-K --------------------------------
0.0000001 phi phi SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000001 phi K+ K- PHSP;
0.0000001 phi K0 anti-K0 PHSP;
0.0000001 K+ K- K+ K- PHSP;
0.0000001 K0 anti-K0 K+ K- PHSP;
0.0000001 K0 anti-K0 K0 anti-K0 PHSP;
#5-body modes from Jim Smith - 1/30/05
#--- 5-body rho-rho-pi, rho-pi-pi-pi, pi-pi-pi-pi-pi -------------------
0.000010 rho0 rho0 pi0 PHSP;
0.000005 rho0 rho0 eta PHSP;
0.000002 rho0 rho0 eta' PHSP;
0.000010 omega rho0 pi0 PHSP;
0.000005 omega rho0 eta PHSP;
0.000002 omega rho0 eta' PHSP;
0.000010 rho+ rho- pi0 PHSP;
0.000005 rho+ rho- eta PHSP;
0.000002 rho+ rho- eta' PHSP;
0.000010 rho0 rho+ pi- PHSP;
0.000010 omega rho+ pi- PHSP;
0.000002 rho0 pi+ pi- pi0 PHSP;
0.000001 rho0 pi+ pi- eta PHSP;
0.000001 rho0 pi+ pi- eta' PHSP;
0.000002 rho0 pi0 pi0 pi0 PHSP;
0.000001 rho0 pi0 eta pi0 PHSP;
0.000001 rho0 pi0 eta' pi0 PHSP;
0.000002 omega pi+ pi- pi0 PHSP;
0.000001 omega pi+ pi- eta PHSP;
0.000001 omega pi+ pi- eta' PHSP;
0.000002 omega pi0 pi0 pi0 PHSP;
0.000001 omega pi0 eta pi0 PHSP;
0.000001 omega pi0 eta' pi0 PHSP;
0.000002 rho+ pi- pi+ pi- PHSP;
0.000002 rho+ pi- pi0 pi0 PHSP;
0.000001 rho+ pi- pi0 eta PHSP;
0.000001 rho+ pi- pi0 eta' PHSP;
0.000002 rho- pi+ pi+ pi- PHSP;
0.000002 rho- pi+ pi0 pi0 PHSP;
0.000001 rho- pi+ pi0 eta PHSP;
0.000001 rho- pi+ pi0 eta' PHSP;
0.000001 pi+ pi- pi+ pi- pi0 PHSP;
0.0000005 pi+ pi- pi+ pi- eta PHSP;
0.0000002 pi+ pi- pi+ pi- eta' PHSP;
0.000001 pi+ pi- pi0 pi0 pi0 PHSP;
0.0000005 pi+ pi- pi0 pi0 eta PHSP;
0.0000002 pi+ pi- pi0 pi0 eta' PHSP;
0.0000005 pi0 pi0 pi0 pi0 pi0 PHSP;
0.0000002 pi0 pi0 pi0 pi0 eta PHSP;
0.0000001 pi0 pi0 pi0 pi0 eta' PHSP;
0.000010 a_1+ rho- PHSP;
0.000010 a_1- rho+ PHSP;
0.000010 a_10 rho0 PHSP;
0.000010 a_10 omega PHSP;
0.000010 a_1+ pi- pi0 PHSP;
0.000005 a_1+ pi- eta PHSP;
0.000002 a_1+ pi- eta' PHSP;
0.000010 a_10 pi+ pi- PHSP;
0.000010 a_10 pi0 pi0 PHSP;
0.000005 a_10 pi0 eta PHSP;
0.000002 a_10 pi0 eta' PHSP;
0.000010 a_1- pi+ pi0 PHSP;
0.000005 a_1- pi+ eta PHSP;
0.000002 a_1- pi+ eta' PHSP;
0.000010 rho+ f_0 pi- PHSP;
0.000010 rho- f_0 pi+ PHSP;
0.000010 rho0 f_0 pi0 PHSP;
0.000005 rho0 f_0 eta PHSP;
0.000002 rho0 f_0 eta' PHSP;
0.000010 omega f_0 pi0 PHSP;
0.000010 rho+ a_00 pi- PHSP;
0.000010 rho+ a_0- pi0 PHSP;
0.000005 rho+ a_0- eta PHSP;
0.000002 rho+ a_0- eta' PHSP;
0.000010 rho0 a_0+ pi- PHSP;
0.000010 rho0 a_0- pi+ PHSP;
0.000010 rho0 a_00 pi0 PHSP;
0.000005 rho0 a_00 eta PHSP;
0.000002 rho0 a_00 eta' PHSP;
0.000010 rho- a_00 pi+ PHSP;
0.000010 rho- a_0+ pi0 PHSP;
0.000005 rho- a_0+ eta PHSP;
0.000002 rho- a_0+ eta' PHSP;
0.000002 f_0 pi+ pi- pi0 PHSP;
0.000001 f_0 pi+ pi- eta PHSP;
0.000001 f_0 pi+ pi- eta' PHSP;
0.000002 f_0 pi0 pi0 pi0 PHSP;
0.000001 f_0 pi0 pi0 eta PHSP;
0.000001 f_0 pi0 pi0 eta' PHSP;
0.000001 a_00 pi+ pi- pi0 PHSP;
0.000001 a_00 pi0 pi0 pi0 PHSP;
0.000001 a_0+ pi- pi+ pi- PHSP;
0.000001 a_0+ pi- pi0 pi0 PHSP;
0.000001 a_0- pi+ pi+ pi- PHSP;
0.000001 a_0- pi+ pi0 pi0 PHSP;
#--- 5-body rho-K*pi, rho-2pi-K, K*-3pi, 4pi-K -------------------
0.000010 rho0 K*+ pi- PHSP;
0.000010 rho- K*+ pi0 PHSP;
0.000005 rho- K*+ eta PHSP;
0.000002 rho- K*+ eta' PHSP;
0.000010 rho0 K*0 pi0 PHSP;
0.000005 rho0 K*0 eta PHSP;
0.000002 rho0 K*0 eta' PHSP;
0.000010 rho- K*0 pi+ PHSP;
0.000010 rho+ K*0 pi- PHSP;
0.000010 omega K*+ pi- PHSP;
0.000010 omega K*0 pi0 PHSP;
0.000005 omega K*0 eta PHSP;
0.000002 omega K*0 eta' PHSP;
0.000010 pi+ pi- K*+ pi- PHSP;
0.000010 pi- pi0 K*+ pi0 PHSP;
0.000005 pi- pi0 K*+ eta PHSP;
0.000002 pi- pi0 K*+ eta' PHSP;
0.000010 pi+ pi- K*0 pi0 PHSP;
0.000005 pi+ pi- K*0 eta PHSP;
0.000002 pi+ pi- K*0 eta' PHSP;
0.000010 pi0 pi0 K*0 pi0 PHSP;
0.000005 pi0 pi0 K*0 eta PHSP;
0.000002 pi0 pi0 K*0 eta' PHSP;
0.000010 rho+ K+ pi- pi- PHSP;
0.000010 rho0 K+ pi- pi0 PHSP;
0.000005 rho0 K+ pi- eta PHSP;
0.000002 rho0 K+ pi- eta' PHSP;
0.000010 rho- K+ pi+ pi- PHSP;
0.000010 rho- K+ pi0 pi0 PHSP;
0.000005 rho- K+ pi0 eta PHSP;
0.000002 rho- K+ pi0 eta' PHSP;
0.000010 rho0 K0 pi+ pi- PHSP;
0.000010 rho0 K0 pi0 pi0 PHSP;
0.000005 rho0 K0 pi0 eta PHSP;
0.000002 rho0 K0 pi0 eta' PHSP;
0.000010 rho+ K0 pi- pi0 PHSP;
0.000005 rho+ K0 pi- eta PHSP;
0.000002 rho+ K0 pi- eta' PHSP;
0.000010 rho- K0 pi+ pi0 PHSP;
0.000005 rho- K0 pi+ eta PHSP;
0.000002 rho- K0 pi+ eta' PHSP;
0.000010 omega K+ pi- pi0 PHSP;
0.000005 omega K+ pi- eta PHSP;
0.000002 omega K+ pi- eta' PHSP;
0.000010 omega K0 pi+ pi- PHSP;
0.000010 omega K0 pi0 pi0 PHSP;
0.000005 omega K0 pi0 eta PHSP;
0.000002 omega K0 pi0 eta' PHSP;
0.000002 pi+ pi- pi- K+ pi0 PHSP;
0.000001 pi+ pi- pi- K+ eta PHSP;
0.000001 pi+ pi- pi- K+ eta' PHSP;
0.000002 pi0 pi0 pi- K+ pi0 PHSP;
0.000001 pi0 pi0 pi- K+ eta PHSP;
0.000001 pi0 pi0 pi- K+ eta' PHSP;
0.000002 pi+ pi- pi+ K0 pi- PHSP;
0.000002 pi+ pi- pi0 K0 pi0 PHSP;
0.000001 pi+ pi- pi0 K0 eta PHSP;
0.000001 pi+ pi- pi0 K0 eta' PHSP;
0.000002 pi0 pi0 pi0 K0 pi0 PHSP;
0.000001 pi0 pi0 pi0 K0 eta PHSP;
0.000001 pi0 pi0 pi0 K0 eta' PHSP;
0.000010 rho+ K_0*0 pi- PHSP;
0.000010 rho0 K_0*0 pi0 PHSP;
0.000005 rho0 K_0*0 eta PHSP;
0.000002 rho0 K_0*0 eta' PHSP;
0.000010 rho- K_0*0 pi+ PHSP;
0.000010 rho- K_0*+ pi0 PHSP;
0.000005 rho- K_0*+ eta PHSP;
0.000002 rho- K_0*+ eta' PHSP;
0.000010 rho0 K_0*+ pi- PHSP;
0.000010 pi+ pi- K_0*+ pi- PHSP;
0.000010 pi- pi0 K_0*+ pi0 PHSP;
0.000005 pi- pi0 K_0*+ eta PHSP;
0.000002 pi- pi0 K_0*+ eta' PHSP;
0.000010 pi+ pi- K_0*0 pi0 PHSP;
0.000005 pi+ pi- K_0*0 eta PHSP;
0.000002 pi+ pi- K_0*0 eta' PHSP;
0.000010 pi0 pi0 K_0*0 pi0 PHSP;
0.000005 pi0 pi0 K_0*0 eta PHSP;
0.000005 pi0 pi0 K_0*0 eta' PHSP;
0.000010 K*+ f_0 pi- PHSP;
0.000010 K*0 f_0 pi0 PHSP;
0.000005 K*0 f_0 eta PHSP;
0.000002 K*0 f_0 eta' PHSP;
0.000010 a_1+ K0 pi- PHSP;
0.000020 a_10 K*0 PHSP;
0.000010 a_10 K+ pi- PHSP;
0.000010 a_10 K0 pi0 PHSP;
0.000020 a_1- K*+ PHSP;
0.000010 a_1- K+ pi0 PHSP;
0.000010 a_1- K0 pi+ PHSP;
0.000005 K*+ a_00 pi- PHSP;
0.000005 K*+ a_0- pi0 PHSP;
0.000002 K*+ a_0- eta PHSP;
0.000001 K*+ a_0- eta' PHSP;
0.000005 K*0 a_0+ pi- PHSP;
0.000005 K*0 a_00 pi0 PHSP;
0.000002 K*0 a_00 eta PHSP;
0.000001 K*0 a_00 eta' PHSP;
#--- 5-body K*-K*pi,rho-K-Kpi, K*-K-2pi, phi-3pi, 3pi-K-K ------------
0.000001 K*- K*0 pi+ PHSP;
0.000001 K*+ anti-K*0 pi- PHSP;
0.000001 K*- K*+ pi0 PHSP;
0.0000005 K*- K*+ eta PHSP;
0.0000002 K*- K*+ eta' PHSP;
0.000001 K*0 anti-K*0 pi0 PHSP;
0.0000005 K*0 anti-K*0 eta PHSP;
0.0000002 K*0 anti-K*0 eta' PHSP;
0.000001 phi rho+ pi- PHSP;
0.000001 phi rho- pi+ PHSP;
0.000001 phi rho0 pi0 PHSP;
0.0000005 phi rho0 eta PHSP;
0.0000002 phi rho0 eta' PHSP;
0.000001 phi omega pi0 PHSP;
0.000001 phi f_0 pi0 PHSP;
0.000001 phi pi+ pi- pi0 PHSP;
0.0000005 phi pi+ pi- eta PHSP;
0.0000002 phi pi+ pi- eta' PHSP;
0.000001 phi pi0 pi0 pi0 PHSP;
0.0000005 phi pi0 pi0 eta PHSP;
0.0000002 phi pi0 pi0 eta' PHSP;
0.000001 K0 K- rho0 pi+ PHSP;
0.000001 K0 K- rho+ pi0 PHSP;
0.0000005 K0 K- rho+ eta PHSP;
0.0000002 K0 K- rho+ eta' PHSP;
0.000001 K0 K- omega pi+ PHSP;
0.000001 K0 K- f_0 pi+ PHSP;
0.000001 K+ K- rho+ pi- PHSP;
0.000001 K+ K- rho- pi+ PHSP;
0.000001 K+ K- rho0 pi0 PHSP;
0.0000005 K+ K- rho0 eta PHSP;
0.0000002 K+ K- rho0 eta' PHSP;
0.000001 K+ K- omega pi0 PHSP;
0.0000005 K+ K- omega eta PHSP;
0.0000002 K+ K- omega eta' PHSP;
0.000001 K+ K- f_0 pi0 PHSP;
0.000001 K0 anti-K0 rho+ pi- PHSP;
0.000001 K0 anti-K0 rho- pi+ PHSP;
0.000001 K0 anti-K0 rho0 pi0 PHSP;
0.0000005 K0 anti-K0 rho0 eta PHSP;
0.0000002 K0 anti-K0 rho0 eta' PHSP;
0.000001 K0 anti-K0 omega pi0 PHSP;
0.000001 K0 anti-K0 f_0 pi0 PHSP;
0.000001 anti-K0 K+ rho0 pi- PHSP;
0.000001 anti-K0 K+ rho- pi0 PHSP;
0.0000005 anti-K0 K+ rho- eta PHSP;
0.0000002 anti-K0 K+ rho- eta' PHSP;
0.000001 anti-K0 K+ omega pi- PHSP;
0.000001 anti-K0 K+ f_0 pi- PHSP;
0.0000002 K0 K- pi+ pi+ pi- PHSP;
0.0000002 K0 K- pi+ pi0 pi0 PHSP;
0.0000001 K0 K- pi+ pi0 eta PHSP;
0.0000001 K0 K- pi+ pi0 eta' PHSP;
0.0000002 K+ K- pi+ pi- pi0 PHSP;
0.0000001 K+ K- pi+ pi- eta PHSP;
0.0000001 K+ K- pi+ pi- eta' PHSP;
0.0000002 K+ K- pi0 pi0 pi0 PHSP;
0.0000001 K+ K- pi0 pi0 eta PHSP;
0.0000001 K+ K- pi0 pi0 eta' PHSP;
0.0000002 K0 anti-K0 pi+ pi- pi0 PHSP;
0.0000001 K0 anti-K0 pi+ pi- eta PHSP;
0.0000001 K0 anti-K0 pi+ pi- eta' PHSP;
0.0000002 K0 anti-K0 pi0 pi0 pi0 PHSP;
0.0000001 K0 anti-K0 pi0 pi0 eta PHSP;
0.0000001 K0 anti-K0 pi0 pi0 eta' PHSP;
0.0000002 anti-K0 K+ pi- pi+ pi- PHSP;
0.0000002 anti-K0 K+ pi- pi0 pi0 PHSP;
0.0000001 anti-K0 K+ pi- pi0 eta PHSP;
0.0000001 anti-K0 K+ pi- pi0 eta' PHSP;
0.000001 K*0 K- pi+ pi0 PHSP;
0.0000005 K*0 K- pi+ eta PHSP;
0.0000002 K*0 K- pi+ eta' PHSP;
0.000001 K*- K0 pi+ pi0 PHSP;
0.0000005 K*- K0 pi+ eta PHSP;
0.0000002 K*- K0 pi+ eta' PHSP;
0.000001 K*+ K- pi+ pi- PHSP;
0.000001 K*+ K- pi0 pi0 PHSP;
0.0000005 K*+ K- pi0 eta PHSP;
0.0000002 K*+ K- pi0 eta' PHSP;
0.000001 K*- K+ pi+ pi- PHSP;
0.000001 K*- K+ pi0 pi0 PHSP;
0.0000005 K*- K+ pi0 eta PHSP;
0.0000002 K*- K+ pi0 eta' PHSP;
0.000001 K*0 anti-K0 pi+ pi- PHSP;
0.000001 K*0 anti-K0 pi0 pi0 PHSP;
0.0000005 K*0 anti-K0 pi0 eta PHSP;
0.0000002 K*0 anti-K0 pi0 eta' PHSP;
0.000001 K0 anti-K*0 pi+ pi- PHSP;
0.000001 K0 anti-K*0 pi0 pi0 PHSP;
0.0000005 K0 anti-K*0 pi0 eta PHSP;
0.0000002 K0 anti-K*0 pi0 eta' PHSP;
0.000001 K+ anti-K*0 pi- pi0 PHSP;
0.0000005 K+ anti-K*0 pi- eta PHSP;
0.0000002 K+ anti-K*0 pi- eta' PHSP;
0.000001 K*+ anti-K0 pi- pi0 PHSP;
0.0000005 K*+ anti-K0 pi- eta PHSP;
0.0000002 K*+ anti-K0 pi- eta' PHSP;
#--- 5-body phi-K*-pi, phi-K-2pi, K-K-K*-pi, 2pi-K-K-K --------------------
0.000010 phi K*+ pi- PHSP;
0.000010 phi K*0 pi0 PHSP;
0.000005 phi K*0 eta PHSP;
0.000002 phi K*0 eta' PHSP;
0.000010 phi K+ rho- PHSP;
0.000010 phi K0 rho0 PHSP;
0.000010 phi K0 omega PHSP;
0.000010 phi K0 f_0 PHSP;
0.000010 phi K0 pi+ pi- PHSP;
0.000010 phi K0 pi0 pi0 PHSP;
0.000005 phi K0 pi0 eta PHSP;
0.000002 phi K0 pi0 eta' PHSP;
0.000010 phi K+ pi- pi0 PHSP;
0.000005 phi K+ pi- eta PHSP;
0.000002 phi K+ pi- eta' PHSP;
0.000010 K- K+ K*+ pi- PHSP;
0.000010 K+ K*- K+ pi- PHSP;
0.000010 K+ K*0 anti-K0 pi- PHSP;
0.000010 K+ K0 anti-K*0 pi- PHSP;
0.000010 K0 K*+ anti-K0 pi- PHSP;
0.000010 K- K+ K+ rho- PHSP;
0.000010 K- K+ K0 rho0 PHSP;
0.000010 K- K+ K0 omega PHSP;
0.000010 K- K+ K0 f_0 PHSP;
0.000010 K+ K- K+ pi- pi0 PHSP;
0.000005 K+ K- K+ pi- eta PHSP;
0.000002 K+ K- K+ pi- eta' PHSP;
0.000010 K+ K- K0 pi+ pi- PHSP;
0.000010 K+ K- K0 pi0 pi0 PHSP;
0.000005 K+ K- K0 pi0 eta PHSP;
0.000005 K+ K- K0 pi0 eta' PHSP;
0.000010 K0 anti-K0 K+ pi- pi0 PHSP;
0.000005 K0 anti-K0 K+ pi- eta PHSP;
0.000002 K0 anti-K0 K+ pi- eta' PHSP;
0.000010 K0 anti-K0 K0 pi+ pi- PHSP;
0.000010 K0 anti-K0 K0 pi0 pi0 PHSP;
0.000005 K0 anti-K0 K0 pi0 eta PHSP;
0.000002 K0 anti-K0 K0 pi0 eta' PHSP;
0.000010 phi K_0*+ pi- PHSP;
0.000010 phi K_0*0 pi0 PHSP;
0.000010 K+ K- K_0*+ pi- PHSP;
0.000010 K+ K- K_0*0 pi0 PHSP;
0.000005 K+ K- K_0*0 eta PHSP;
0.000002 K+ K- K_0*0 eta' PHSP;
0.000010 K+ K+ K_0*- pi- PHSP;
0.000010 K+ anti-K_0*0 K0 pi- PHSP;
0.000010 K+ K_0*0 anti-K0 pi- PHSP;
0.000010 K0 anti-K0 K_0*+ pi- PHSP;
0.000010 K0 anti-K0 K_0*0 pi0 PHSP;
0.000005 K0 anti-K0 K_0*0 eta PHSP;
0.000002 K0 anti-K0 K_0*0 eta' PHSP;
0.000010 K0 K0 anti-K_0*0 pi0 PHSP;
0.000005 K0 K0 anti-K_0*0 eta PHSP;
0.000002 K0 K0 anti-K_0*0 eta' PHSP;
0.000002 phi K'_1+ pi- PHSP;
0.000002 phi K'_10 pi0 PHSP;
0.000001 phi K'_10 eta PHSP;
0.000001 phi K'_10 eta' PHSP;
0.000002 K- K+ K'_1+ pi- PHSP;
0.000002 K- K+ K'_10 pi0 PHSP;
0.000001 K- K+ K'_10 eta PHSP;
0.000001 K- K+ K'_10 eta' PHSP;
0.000002 K+ K+ K'_1- pi- PHSP;
0.000002 K0 anti-K0 K'_10 pi0 PHSP;
0.000001 K0 anti-K0 K'_10 eta PHSP;
0.000001 K0 anti-K0 K'_10 eta' PHSP;
0.000002 K0 K0 anti-K'_10 pi0 PHSP;
0.000001 K0 K0 anti-K'_10 eta PHSP;
0.000001 K0 K0 anti-K'_10 eta' PHSP;
#--- 5-body phi-phi-K, phi-phi-pi, phi-3K, phi-K-K-pi, 5K, 4K-pi ------------
0.000003 phi phi K0 PHSP;
0.0000001 phi phi pi0 PHSP;
0.000001 phi K+ K- K0 PHSP;
0.000001 phi K0 anti-K0 K0 PHSP;
0.0000001 phi K+ K- pi0 PHSP;
0.0000001 phi K0 anti-K0 pi0 PHSP;
0.0000001 phi anti-K0 K+ pi- PHSP;
0.0000001 phi K0 K- pi+ PHSP;
0.0000001 K+ K- K+ K- K0 PHSP;
0.0000001 K0 anti-K0 K+ K- K0 PHSP;
0.0000001 K+ K- K+ K- pi0 PHSP;
0.0000001 K+ K- K0 anti-K0 pi0 PHSP;
0.0000001 K+ K- K+ anti-K0 pi- PHSP;
0.0000001 K+ K- K0 K- pi+ PHSP;
0.0000001 K0 anti-K0 K0 anti-K0 pi0 PHSP;
0.0000001 K0 anti-K0 anti-K0 K+ pi- PHSP;
0.0000001 K0 anti-K0 K0 K- pi+ PHSP;
#--- 6-body phi-phi-K*, phi-3Kpi, phi-K-K-2pi ------------
0.000003 phi phi K*0 PHSP;
0.000001 phi K+ K- K*0 PHSP;
0.000001 phi K0 anti-K0 K*0 PHSP;
0.000001 phi K0 K+ K*- PHSP;
0.000001 phi K0 K0 anti-K*0 PHSP;
0.0000001 phi K+ K- K+ pi- PHSP;
0.0000001 phi K+ K- K0 pi0 PHSP;
0.0000001 phi K0 anti-K0 K+ pi- PHSP;
0.0000001 phi K0 anti-K0 K0 pi0 PHSP;
#--- 6-body a1a1 ------------
0.000050 a_10 a_10 PHSP;
0.000050 a_1+ a_1- PHSP;
#
# B -> cc= s
0.00044 J/psi K_S0 SVS;
0.00044 J/psi K_L0 SVS;
#
#
0.0013300 J/psi K*0 SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus;
0.0000205 J/psi pi0 SVS;
0.0000270 J/psi rho0 SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus;
0.00003 J/psi omega SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus;
0.0002 J/psi K+ pi- PHSP;
0.0001 J/psi K0 pi0 PHSP;
#rl0.0007 J/psi K0 pi- pi+ PHSP;
#rl0.00035 J/psi K0 pi0 pi0 PHSP;
#rl0.00035 J/psi K+ pi- pi0 PHSP;
0.0013 J/psi K_10 SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0;
0.0001 J/psi K'_10 SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0;
0.0005 J/psi K_2*0 PHSP;
0.00009 J/psi phi K0 PHSP;
#
0.00031 psi(2S) K_S0 SVS;
0.00031 psi(2S) K_L0 SVS;
#
#
0.00072 psi(2S) K*0 SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus;
0.0004 psi(2S) K+ pi- PHSP;
0.0002 psi(2S) K0 pi0 PHSP;
0.0002 psi(2S) K0 pi- pi+ PHSP;
0.0001 psi(2S) K0 pi0 pi0 PHSP;
0.0001 psi(2S) K+ pi- pi0 PHSP;
0.0004 psi(2S) K_10 PHSP;
#
0.000445 eta_c K_S0 PHSP;
0.000445 eta_c K_L0 PHSP;
#
#
0.00096 K*0 eta_c SVS;
0.0002 eta_c K+ pi- PHSP;
0.0001 eta_c K0 pi0 PHSP;
0.0002 eta_c K0 pi- pi+ PHSP;
0.0001 eta_c K0 pi0 pi0 PHSP;
0.0001 eta_c K+ pi- pi0 PHSP;
#
0.00024 eta_c(2S) K_S0 PHSP;
0.00024 eta_c(2S) K_L0 PHSP;
#
#
0.00066 K*0T eta_c(2S) SVS;
0.00008 eta_c(2S) K+ pi- PHSP;
0.00005 eta_c(2S) K0 pi0 PHSP;
0.00008 eta_c(2S) K0 pi- pi+ PHSP;
0.00005 eta_c(2S) K0 pi0 pi0 PHSP;
0.00005 eta_c(2S) K+ pi- pi0 PHSP;
#
0.00015 chi_c0 K_S0 PHSP;
0.00015 chi_c0 K_L0 PHSP;
#
#
0.0003 K*0 chi_c0 SVS;
0.0002 chi_c0 K+ pi- PHSP;
0.0001 chi_c0 K0 pi0 PHSP;
0.0002 chi_c0 K0 pi- pi+ PHSP;
0.0001 chi_c0 K0 pi0 pi0 PHSP;
0.0001 chi_c0 K+ pi- pi0 PHSP;
#
0.000195 chi_c1 K_S0 SVS;
0.000195 chi_c1 K_L0 SVS;
#
#
0.00032 chi_c1 K*0 SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus;
0.0004 chi_c1 K+ pi- PHSP;
0.0002 chi_c1 K0 pi0 PHSP;
0.0004 chi_c1 K0 pi- pi+ PHSP;
0.0002 chi_c1 K0 pi0 pi0 PHSP;
0.0002 chi_c1 K+ pi- pi0 PHSP;
#
0.00005 chi_c2 K_S0 STS;
0.00005 chi_c2 K_L0 STS;
#
#
0.00003 chi_c2 K*0 PHSP;
0.0002 chi_c2 K+ pi- PHSP;
0.0001 chi_c2 K0 pi0 PHSP;
0.0002 chi_c2 K0 pi- pi+ PHSP;
0.0001 chi_c2 K0 pi0 pi0 PHSP;
0.0001 chi_c2 K+ pi- pi0 PHSP;
#
0.00024 psi(3770) K_S0 SVS;
0.00024 psi(3770) K_L0 SVS;
#
#
0.00048 psi(3770) K*0 SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus;
0.00014 psi(3770) K+ pi- PHSP;
0.00014 psi(3770) K0 pi0 PHSP;
0.00014 psi(3770) K0 pi- pi+ PHSP;
0.00007 psi(3770) K0 pi0 pi0 PHSP;
0.00007 psi(3770) K+ pi- pi0 PHSP;
0.00029 psi(3770) K_10 PHSP;
#
### ALREADY Included above 0.0000 phi K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
#
#
# b-> c (dc=)
#
0.000211 D- D+ PHSP;
# See Ref [B1] for the next 3:
0.000305 D*- D+ SVS;
0.000305 D*+ D- SVS;
0.00082 D*- D*+ SVV_HELAMP 0.56 0.0 0.96 0.0 0.47 0.0;
#
# b -> c (sc=) --> D Ds X Sum = 10%
#
0.0074 D- D_s+ PHSP;
0.0083 D*- D_s+ SVS;
0.0076 D_s*+ D- SVS;
0.0179 D_s*+ D*- SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0;
0.0006 D'_1- D_s+ SVS;
0.0012 D'_1- D_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0012 D_1- D_s+ SVS;
0.0024 D_1- D_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0042 D_2*- D_s+ STS;
0.0040 D_2*- D_s*+ PHSP;
#
0.0018 D_s+ D- pi0 PHSP;
0.0037 D_s+ anti-D0 pi- PHSP;
0.0018 D_s*+ D- pi0 PHSP;
0.0037 D_s*+ anti-D0 pi- PHSP;
0.0030 D_s+ D- pi- pi+ PHSP;
0.0022 D_s+ D- pi0 pi0 PHSP;
0.0022 D_s+ anti-D0 pi- pi0 PHSP;
0.0030 D_s*+ D- pi- pi+ PHSP;
0.0022 D_s*+ D- pi0 pi0 PHSP;
0.0022 D_s*+ anti-D0 pi- pi0 PHSP;
#
# b -> c (sc=) --> D D= K X Sum = 8%
# Update: Ref. [B1]
# October 26, 2004 Lange -per breco awg
# External W-emission amplitude
0.0017 D- D0 K+ PHSP;
0.0046 D- D*0 K+ PHSP;
0.0031 D*- D0 K+ PHSP;
0.0118 D*- D*0 K+ PHSP;
# External+internal W-emission amplitude
0.0015 D- D+ K0 PHSP;
0.0018 D*- D+ K0 PHSP;
0.0047 D- D*+ K0 PHSP;
0.0070 D*- D*+ K0 PHSP;
# Internal W-emission amplitude (color suppressed modes)
0.0005 D0 anti-D0 K0 PHSP;
0.0005 D*0 anti-D0 K0 PHSP;
0.0015 D0 anti-D*0 K0 PHSP;
0.0015 D*0 anti-D*0 K0 PHSP;
##########
# K* modes
###########
0.0025 D- D0 K*+ PHSP;
0.0025 D*- D0 K*+ PHSP;
0.0025 D- D*0 K*+ PHSP;
0.0050 D*- D*0 K*+ PHSP;
#
0.0025 D- D+ K*0 PHSP;
0.0025 D*- D+ K*0 PHSP;
0.0025 D- D*+ K*0 PHSP;
0.0050 D*- D*+ K*0 PHSP;
#
0.0005 D0 anti-D0 K*0 PHSP;
0.0005 D0 anti-D*0 K*0 PHSP;
0.0005 D*0 anti-D0 K*0 PHSP;
0.0010 D*0 anti-D*0 K*0 PHSP;
#
# B -> D(*) X Exclusive modes
#
0.00276 D*- pi+ SVS;
0.00268 D- pi+ PHSP;
0.0077 rho+ D- SVS;
#
# D* rho HELAMP parameters taken from ICHEP 98-852.
0.0068 rho+ D*- SVV_HELAMP 0.317 0.19 0.936 0.0 0.152 1.47;
0.0005 D- pi+ pi0 PHSP;
0.0082 D*- pi+ pi0 PHSP;
0.0005 anti-D0 pi- pi+ PHSP;
0.00062 anti-D*0 pi- pi+ PHSP;
0.0005 anti-D*0 pi0 pi0 PHSP;
#
# D a1 updated Ref. [B1]
0.006 a_1+ D- SVS;
0.0011 D- rho0 pi+ PHSP;
0.0011 D- rho+ pi0 PHSP;
0.0039 D- pi- pi+ pi+ PHSP;
0.0010 D- pi0 pi+ pi0 PHSP;
0.0010 anti-D0 pi- pi+ pi0 PHSP;
0.0001 anti-D0 pi0 pi0 pi0 PHSP;
#
# SVV_HELAMP for D* a1 taken from factorization. Recommandation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html:
# updated Ref. [B1]
# October 26, 2004 Lange update
#
0.0130 D*- a_1+ SVV_HELAMP 0.458 0.0 0.866 0.0 0.458 0.0;
#
0.0057 D*- rho0 pi+ PHSP;
0.0010 D*- rho+ pi0 PHSP;
0.0000 D*- pi- pi+ pi+ PHSP;
0.0010 D*- pi0 pi+ pi0 PHSP;
0.0010 anti-D*0 pi- pi+ pi0 PHSP;
0.0001 anti-D*0 pi0 pi0 pi0 PHSP;
#
# B->D** pi and D** rho, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html
#
0.0001 D_1- pi+ SVS;
0.0001 D'_1- pi+ SVS;
0.00006 D_0*- pi+ PHSP;
0.000215 D_2*- pi+ STS;
0.0004 D_1- rho+ PHSP;
0.0013 D'_1- rho+ PHSP;
0.0022 D_2*- rho+ PHSP;
#
#
# B->DK, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html:
# update: Ref. [B1]:
#
0.000214 D*- K+ SVS;
0.00020 D- K+ PHSP;
0.00033 D*- K*+ SVV_HELAMP 0.283 0.0 0.932 0.0 0.228 0.0;
0.00045 K*+ D- SVS;
#more DK modes - October 26, 2004 -Lange
0.000036 anti-D*0 anti-K0 SVS;
0.000052 anti-D0 anti-K0 PHSP;
0.000042 K*0 anti-D0 SVS;
0.00001 K*0 D0 SVS;
0.00004 anti-D*0 K*0 SVV_HELAMP 1. 0. 1. 0. 1. 0.;
0.00001 D*0 K*0 SVV_HELAMP 1. 0. 1. 0. 1. 0.;
#
#
# Color-suppressed modes. Br's are expectations from
# Phys. Rev. D57 (1998), 5363-5369, except for the eta' modes, which are set
# equal to the eta modes. SVV_HELAMP parameters are the same as in D*0 rho-,
# with phases set to 0. Recommendation http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/169.html:
# update: See Ref [B1]:
# further update October 26, 2004 Lange
#
0.000261 anti-D0 pi0 PHSP;
0.00017 anti-D*0 pi0 SVS;
#
0.00032 rho0 anti-D0 SVS;
0.00029 anti-D*0 rho0 SVV_HELAMP 0.283 0.0 0.932 0.0 0.228 0.0;
#
0.000202 anti-D0 eta PHSP;
0.00018 anti-D*0 eta SVS;
#
0.000125 anti-D0 eta' PHSP;
0.000123 anti-D*0 eta' SVS;
#
0.000259 omega anti-D0 SVS;
0.00027 anti-D*0 omega SVV_HELAMP 0.283 0.0 0.932 0.0 0.228 0.0;
#
# PR LHCb : add ppbar mode
0.0000001 p+ anti-p- PHSP;
#
#October 26, 2004 - Lange
0.0016 D_s0*+ D- PHSP;
0.0015 D*- D_s0*+ SVS;
0.0042 D_s1+ D- SVS;
0.0093 D*- D_s1+ SVV_HELAMP 0.4904 0. 0.7204 0. 0.4904 0.;
#
# Feb 2009
#
0.00088 D- K+ anti-K*0 PHSP;
0.00129 D*- K+ anti-K*0 PHSP;
#
# Feb 2009
#
0.0028 D- omega pi+ PHSP;
0.00289 D*- omega pi+ PHSP;
#
# Feb 2009
#
0.00049 D- K0 pi+ PHSP;
0.0003 D*- K0 pi+ PHSP;
#
# Feb 2009
#
0.00043 D'_s1+ D- PHSP;
0.00083 D'_s1+ D*- PHSP;
#### Already included above 0.0023 D_s1+ D*- PHSP;
#
# Lam_c X / Sigma_c X 4.0 %
#
#0.01000 anti-cd_0 ud_0 PYTHIA 23;
#0.03000 anti-cd_1 ud_1 PYTHIA 23;
0.0110747 anti-cd_0 ud_0 PYTHIA 23;
0.0221495 anti-cd_1 ud_1 PYTHIA 23;
#
# Xi_c X 2.5%
#
#0.00600 anti-cs_0 ud_0 PYTHIA 23;
#0.01800 anti-cs_1 ud_1 PYTHIA 23;
0.0030204 anti-cs_0 ud_0 PYTHIA 23;
0.0060408 anti-cs_1 ud_1 PYTHIA 23;
#
#
0.2716831 u anti-d anti-c d PYTHIA 48;
0.0463125 u anti-d anti-c d PYTHIA 13;
0.0211427 u anti-s anti-c d PYTHIA 13;
0.0181223 u anti-c anti-d d PYTHIA 48;
0.0009061 u anti-c anti-s d PYTHIA 48;
#lange - try to crank up the psi production....
0.0745027 c anti-s anti-c d PYTHIA 13;
0.0060408 c anti-d anti-c d PYTHIA 13;
0.0030204 u anti-d anti-u d PYTHIA 48;
0.0040272 c anti-s anti-u d PYTHIA 48;
# JGS 11/5/02 This and similar a few lines above have been divided by two
# to solve a double-counting problem for this channel
0.0020639 u anti-u anti-d d PYTHIA 48;
0.0000705 d anti-d anti-d d PYTHIA 48;
0.0000906 s anti-s anti-d d PYTHIA 48;
0.0022149 u anti-u anti-s d PYTHIA 48;
0.0018122 d anti-d anti-s d PYTHIA 48;
0.0015102 s anti-s anti-s d PYTHIA 48;
0.005034 anti-s d PYTHIA 32;
Enddecay
#
#
#
Decay B-
# Updated to PDG 2008
# b -> c semileptonic
#
-0.0607 D*0 e- anti-nu_e PHOTOS HQET 0.77 1.33 0.92;
-0.0227 D0 e- anti-nu_e PHOTOS ISGW2;
-0.0040 D_10 e- anti-nu_e PHOTOS ISGW2;
-0.0024 D_0*0 e- anti-nu_e PHOTOS ISGW2;
-0.0007 D'_10 e- anti-nu_e PHOTOS ISGW2;
-0.0018 D_2*0 e- anti-nu_e PHOTOS ISGW2;
-0.0061 D*+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS;
-0.0003 D*0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS;
+0.0607 D*0 e- anti-nu_e FSR HQET 0.77 1.33 0.92;
+0.0227 D0 e- anti-nu_e FSR ISGW2;
+0.0040 D_10 e- anti-nu_e FSR ISGW2;
+0.0024 D_0*0 e- anti-nu_e FSR ISGW2;
+0.0007 D'_10 e- anti-nu_e FSR ISGW2;
+0.0018 D_2*0 e- anti-nu_e FSR ISGW2;
+0.0061 D*+ pi- e- anti-nu_e FSR GOITY_ROBERTS;
+0.0003 D*0 pi0 e- anti-nu_e FSR GOITY_ROBERTS;
# covered by other decays
-0.0000 D+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS;
-0.0010 D0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS;
-#
-0.0607 D*0 mu- anti-nu_mu PHOTOS HQET 0.77 1.33 0.92;
-0.0227 D0 mu- anti-nu_mu PHOTOS ISGW2;
-0.0040 D_10 mu- anti-nu_mu PHOTOS ISGW2;
-0.0024 D_0*0 mu- anti-nu_mu PHOTOS ISGW2;
-0.0007 D'_10 mu- anti-nu_mu PHOTOS ISGW2;
-0.0018 D_2*0 mu- anti-nu_mu PHOTOS ISGW2;
-0.0061 D*+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
-0.0003 D*0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
-0.0000 D+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
-0.0010 D0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
+0.0000 D+ pi- e- anti-nu_e FSR GOITY_ROBERTS;
+0.0010 D0 pi0 e- anti-nu_e FSR GOITY_ROBERTS;
+#
+0.0607 D*0 mu- anti-nu_mu FSR HQET 0.77 1.33 0.92;
+0.0227 D0 mu- anti-nu_mu FSR ISGW2;
+0.0040 D_10 mu- anti-nu_mu FSR ISGW2;
+0.0024 D_0*0 mu- anti-nu_mu FSR ISGW2;
+0.0007 D'_10 mu- anti-nu_mu FSR ISGW2;
+0.0018 D_2*0 mu- anti-nu_mu FSR ISGW2;
+0.0061 D*+ pi- mu- anti-nu_mu FSR GOITY_ROBERTS;
+0.0003 D*0 pi0 mu- anti-nu_mu FSR GOITY_ROBERTS;
+0.0000 D+ pi- mu- anti-nu_mu FSR GOITY_ROBERTS;
+0.0010 D0 pi0 mu- anti-nu_mu FSR GOITY_ROBERTS;
#
# b -> c tau nu
#
0.0220 D*0 tau- anti-nu_tau ISGW2;
0.0070 D0 tau- anti-nu_tau ISGW2;
0.0013 D_10 tau- anti-nu_tau ISGW2;
0.0013 D_0*0 tau- anti-nu_tau ISGW2;
0.0020 D'_10 tau- anti-nu_tau ISGW2;
0.0020 D_2*0 tau- anti-nu_tau ISGW2;
#
# b -> u l nu
#
# NOTE: Do NOT CHANGE any BFs without using the corresponding set of
# hybrid weights (and vice versa).
-0.000077 pi0 e- anti-nu_e PHOTOS ISGW2;
-0.000084 eta e- anti-nu_e PHOTOS ISGW2;
-0.000128 rho0 e- anti-nu_e PHOTOS ISGW2;
-0.000130 omega e- anti-nu_e PHOTOS ISGW2;
-0.000270 eta' e- anti-nu_e PHOTOS ISGW2;
-0.000000 D(2S)0 e- anti-nu_e PHOTOS ISGW2;
-0.000000 D*(2S)0 e- anti-nu_e PHOTOS ISGW2;
+0.000077 pi0 e- anti-nu_e FSR ISGW2;
+0.000084 eta e- anti-nu_e FSR ISGW2;
+0.000128 rho0 e- anti-nu_e FSR ISGW2;
+0.000130 omega e- anti-nu_e FSR ISGW2;
+0.000270 eta' e- anti-nu_e FSR ISGW2;
+0.000000 D(2S)0 e- anti-nu_e FSR ISGW2;
+0.000000 D*(2S)0 e- anti-nu_e FSR ISGW2;
0.001948 Xu0 e- anti-nu_e VUB 4.8 1.29 0.22 20 0.30 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51;
#
-0.000077 pi0 mu- anti-nu_mu PHOTOS ISGW2;
-0.000084 eta mu- anti-nu_mu PHOTOS ISGW2;
-0.000128 rho0 mu- anti-nu_mu PHOTOS ISGW2;
-0.000130 omega mu- anti-nu_mu PHOTOS ISGW2;
-0.000270 eta' mu- anti-nu_mu PHOTOS ISGW2;
-0.000000 D(2S)0 mu- anti-nu_mu PHOTOS ISGW2;
-0.000000 D*(2S)0 mu- anti-nu_mu PHOTOS ISGW2;
+0.000077 pi0 mu- anti-nu_mu FSR ISGW2;
+0.000084 eta mu- anti-nu_mu FSR ISGW2;
+0.000128 rho0 mu- anti-nu_mu FSR ISGW2;
+0.000130 omega mu- anti-nu_mu FSR ISGW2;
+0.000270 eta' mu- anti-nu_mu FSR ISGW2;
+0.000000 D(2S)0 mu- anti-nu_mu FSR ISGW2;
+0.000000 D*(2S)0 mu- anti-nu_mu FSR ISGW2;
0.001948 Xu0 mu- anti-nu_mu VUB 4.8 1.29 0.22 20 0.30 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51;
#
0.000030 pi0 tau- anti-nu_tau ISGW2;
0.000012 eta tau- anti-nu_tau ISGW2;
0.000042 rho0 tau- anti-nu_tau ISGW2;
0.000042 omega tau- anti-nu_tau ISGW2;
0.000018 eta' tau- anti-nu_tau ISGW2;
0.000046 a_10 tau- anti-nu_tau ISGW2;
0.000027 b_10 tau- anti-nu_tau ISGW2;
0.000004 a_00 tau- anti-nu_tau ISGW2;
0.000002 f_0 tau- anti-nu_tau ISGW2;
0.000002 f'_0 tau- anti-nu_tau ISGW2;
0.000023 f_1 tau- anti-nu_tau ISGW2;
0.000023 f'_1 tau- anti-nu_tau ISGW2;
0.000013 h_1 tau- anti-nu_tau ISGW2;
0.000013 h'_1 tau- anti-nu_tau ISGW2;
0.000020 f_2 tau- anti-nu_tau ISGW2;
0.000020 f'_2 tau- anti-nu_tau ISGW2;
0.000000 D(2S)0 tau- anti-nu_tau ISGW2;
0.000000 D*(2S)0 tau- anti-nu_tau ISGW2;
#
#
#
# b->u hadronic
# Ref. [B1]:
#
0.000016 D_s- pi0 PHSP;
0.000020 D_s*- pi0 SVS;
#
0.000028 rho0 D_s- SVS;
0.000028 D_s*- rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# b-> s gamma
#
0.0000403 K*- gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000135 K_1- gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000065 K'_1- gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000128 K'*- gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000166 K_2*- gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000017 K''*- gamma HELAMP 1.0 0.0 1.0 0.0;
0.0003118 anti-Xsu gamma BTOXSGAMMA 2 ;
#
-0.0000006 K- e+ e- PHOTOS BTOSLLBALL;
-0.0000018 K*- e+ e- PHOTOS BTOSLLBALL;
-0.0000050 anti-Xsu e+ e- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.0000006 K- mu+ mu- PHOTOS BTOSLLBALL;
-0.0000014 K*- mu+ mu- PHOTOS BTOSLLBALL;
-0.0000025 anti-Xsu mu+ mu- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.0000001 K- tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 K*- tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 anti-Xsu tau+ tau- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
+0.0000006 K- e+ e- FSR BTOSLLBALL;
+0.0000018 K*- e+ e- FSR BTOSLLBALL;
+0.0000050 anti-Xsu e+ e- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.0000006 K- mu+ mu- FSR BTOSLLBALL;
+0.0000014 K*- mu+ mu- FSR BTOSLLBALL;
+0.0000025 anti-Xsu mu+ mu- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.0000001 K- tau+ tau- FSR BTOSLLBALL;
+0.0000002 K*- tau+ tau- FSR BTOSLLBALL;
+0.0000002 anti-Xsu tau+ tau- FSR BTOXSLL 4.8 0.2 0.0 0.41;
#
# b -> l nu
#
0.000140 tau- anti-nu_tau SLN;
-0.000000 mu- anti-nu_mu PHOTOS SLN;
-0.000000 e- anti-nu_e PHOTOS SLN;
+0.000000 mu- anti-nu_mu FSR SLN;
+0.000000 e- anti-nu_e FSR SLN;
#
#------------------------------------------------------------------------------
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv
#
# Exclusive hadronic b->u
#
0.000026 pi- pi0 pi0 CB3PI-P00 alpha;
0.000000 pi- pi- pi+ CB3PI-MPP alpha;
####
0.0000044 eta pi- PHSP;
0.0000027 eta K- PHSP;
0.0000193 K*- eta SVS;
0.0000054 rho- eta SVS;
0.0000027 eta' pi- PHSP;
0.0000702 eta' K- PHSP;
0.0000049 K*- eta' SVS;
0.0000087 rho- eta' SVS;
0.0000069 omega pi- SVS;
0.0000067 omega K- SVS;
0.0000010 omega K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000106 omega rho- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000000 phi pi- SVS;
0.0000083 phi K- SVS;
#2-body modes from Jim Olsen
# (K_S0 K- and K_L0 K- -> 1x10^-6, Jim Olsen - Mar 27, 2001)
# (pi- pi0 -> 5x10^-6 and K- pi0 -> 11x10^-6, Jim Olsen - Mar 27, 2001)
# PR LHCb 04/08/2004 Split into Ks/KL
0.000000 anti-K0 pi- PHSP;
0.0000115 K_S0 pi- PHSP;
0.0000115 K_L0 pi- PHSP;
0.0000014 K0 K- PHSP;
0.0000057 pi- pi0 PHSP;
0.0000129 K- pi0 PHSP;
#
# 3-body John Back (jback@slac.stanford.edu) - Oct 15, 2002
# JGS intersperses modes with pi0->eta,eta'
# B- modes
#
# rho0 3-body modes
0.0000086 rho0 pi- SVS;
0.0000042 rho0 K- SVS;
#
# rho- 3-body modes
0.0000109 rho- anti-K0 SVS;
0.0000080 rho- pi0 SVS;
#
# rho(1450) 3-body modes
0.0000022 rho(2S)0 pi- SVS;
0.000001 rho(2S)0 K- SVS;
#
# f0,a0(980) 3-body modes
0.000001 f_0 pi- PHSP;
0.0000092 f_0 K- PHSP;
0.000001 a_0- anti-K0 PHSP;
0.000001 a_00 K- PHSP;
0.000001 a_00 pi- PHSP;
0.000001 a_0- pi0 PHSP;
0.0000081 f_2 pi- PHSP;
#
# K*(1430) 3-body modes
0.0000109 anti-K_0*0 pi- PHSP;
0.000001 K_0*0 K- PHSP;
0.000002 K_0*- pi0 PHSP;
0.000002 K_0*- K0 PHSP;
#
# K*-(892) 3-body modes
0.0000069 K*- pi0 SVS;
0.0000030 K*- K0 SVS;
#
#
#
# Non-resonant 3-body left-overs
# Most modes are set at 1e-6
#
# pi-pi+pi-: high mass + f0(400-1200) = (1+1)e-6
#0402270.000002 pi- pi+ pi- PHSP;
#
# K- pi+ pi-: high mass + f0(400-1200) = (5+5)e-6
0.0000060 K- pi+ pi- PHSP;
#
# K- K+ pi-: just non-resonant
0.0000050 K- K+ pi- PHSP;
#
# K- K+ K-: high mass structure near 1500 + non-res: total - phiK = 30 - 4
0.0000280 K- K+ K- PHSP;
#
#
# K-K-pi+: suppressed mode (1e-7)
0.0000001 K- K- pi+ PHSP;
# K+pi-pi-: suppressed mode (1e-7)
0.0000001 K+ pi- pi- PHSP;
#
#
# K- K0 pi0
0.000001 K- K0 pi0 PHSP;
0.000001 K- K0 eta PHSP;
0.000001 K- K0 eta' PHSP;
#
# pi- anti-K0 pi0
0.000001 pi- anti-K0 pi0 PHSP;
0.000001 pi- anti-K0 eta PHSP;
0.000001 pi- anti-K0 eta' PHSP;
#
# pi- pi0 pi0
#0402270.000001 pi- pi0 pi0 PHSP;
0.000001 pi- pi0 eta PHSP;
0.000001 pi- pi0 eta' PHSP;
0.000001 pi- eta eta PHSP;
0.000001 pi- eta eta' PHSP;
#
# K- pi0 pi0
0.000001 K- pi0 pi0 PHSP;
0.000001 K- pi0 eta PHSP;
0.000001 K- pi0 eta' PHSP;
0.000001 K- eta eta PHSP;
0.000001 K- eta eta' PHSP;
0.000001 K- eta' eta' PHSP;
#
# K- anti-K0 K0: 4*BF(K+KsKs) (4 is a guess)
0.000046 K- anti-K0 K0 PHSP;
#
# pi- anti-K0 K0
0.000001 pi- anti-K0 K0 PHSP;
#
#^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#---------------------------------------------------------------------------
#
#4-body modes from Andrei Gritsan
#--- 4-body rho-rho, rho-pi-pi, pi-pi-pi-pi --------------------------
# PR LHCb 22 Apr 2004 Set long. pol. for rho rho
0.000018 rho- rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0;
0.000010 rho0 pi- pi0 PHSP;
0.000005 rho0 pi- eta PHSP;
0.000002 rho0 pi- eta' PHSP;
0.000010 omega pi- pi0 PHSP;
0.000005 omega pi- eta PHSP;
0.000002 omega pi- eta' PHSP;
0.000010 rho- pi- pi+ PHSP;
# PR LHCb Add rho+ pi- pi-
0.000010 rho+ pi- pi- PHSP;
0.000010 rho- pi0 pi0 PHSP;
0.000005 rho- pi0 eta PHSP;
0.000002 rho- eta eta PHSP;
0.000002 rho- pi0 eta' PHSP;
0.000010 pi+ pi- pi- pi0 PHSP;
0.000005 pi+ pi- pi- eta PHSP;
0.000002 pi+ pi- pi- eta' PHSP;
0.000010 pi- pi0 pi0 pi0 PHSP;
0.000005 pi- eta pi0 pi0 PHSP;
0.000002 pi- eta eta pi0 PHSP;
0.000002 pi- eta' pi0 pi0 PHSP;
0.000001 pi- eta' eta pi0 PHSP;
0.00002 a_10 pi- SVS;
0.000026 a_1- pi0 SVS;
0.0000067 b_10 pi- SVS;
0.000010 b_1- pi0 SVS;
0.000010 rho- f_0 SVS;
0.000010 rho- a_00 SVS;
0.000002 rho0 a_0- SVS;
0.000010 f_0 pi- pi0 PHSP;
0.000001 a_00 pi- pi0 PHSP;
0.000001 a_0- pi0 pi0 PHSP;
0.000001 a_0+ pi- pi- PHSP;
#--- 4-body rho-K*, rho-pi-K, K*-pi-pi, pi-pi-pi-K -------------------
0.0000092 rho- anti-K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000010 rho0 K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000010 pi- pi0 anti-K*0 PHSP;
0.000005 pi- eta anti-K*0 PHSP;
0.0000638 pi+ pi- K*- PHSP;
0.000010 pi0 pi0 K*- PHSP;
0.000005 pi0 eta K*- PHSP;
0.000002 eta eta K*- PHSP;
0.000002 pi0 eta' K*- PHSP;
0.000001 eta eta' K*- PHSP;
0.000010 rho- anti-K0 pi0 PHSP;
0.000005 rho- anti-K0 eta PHSP;
0.000002 rho- anti-K0 eta' PHSP;
0.000010 rho- K- pi+ PHSP;
0.000010 rho+ K- pi- PHSP;
0.000005 rho0 anti-K0 pi- PHSP;
0.000005 rho0 K- pi0 PHSP;
0.000002 rho0 K- eta PHSP;
0.000001 rho0 K- eta' PHSP;
0.000005 omega anti-K0 pi- PHSP;
0.000005 omega K- pi0 PHSP;
0.000002 omega K- eta PHSP;
0.000001 omega K- eta' PHSP;
0.000010 pi+ pi- pi- anti-K0 PHSP;
0.000010 pi- pi0 pi0 anti-K0 PHSP;
0.000005 pi- eta pi0 anti-K0 PHSP;
0.000002 pi- eta eta anti-K0 PHSP;
0.000010 pi+ pi- pi0 K- PHSP;
0.000005 pi+ pi- eta K- PHSP;
0.000010 pi0 pi0 pi0 K- PHSP;
0.000005 pi0 pi0 eta K- PHSP;
0.000002 pi0 eta eta K- PHSP;
0.000002 pi0 pi0 eta' K- PHSP;
0.000001 pi0 eta eta' K- PHSP;
0.000010 rho- anti-K_0*0 PHSP;
0.000006 rho0 K_0*- PHSP;
0.000010 pi- pi0 anti-K_0*0 PHSP;
0.000010 pi0 pi0 K_0*- PHSP;
0.0000052 K*- f_0 SVS;
0.000010 a_10 K- SVS;
0.000035 a_1- anti-K0 SVS;
0.0000091 b_10 K- SVS;
0.000010 b_1- anti-K0 SVS;
0.000005 K*- a_00 SVS;
0.000005 anti-K*0 a_0- SVS;
#--- 4-body K*-K*, rho-K-K, K*-K-pi, phi-pi-pi, pi-pi-K-K ------------
0.000001 K*0 K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 phi rho- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 phi pi- pi0 PHSP;
0.0000005 phi pi- eta PHSP;
0.0000002 phi pi- eta' PHSP;
0.000001 K+ K- rho- PHSP;
0.000001 K0 anti-K0 rho- PHSP;
0.000001 K0 K- rho0 PHSP;
0.000001 K0 K- omega PHSP;
0.000001 K+ K- pi- pi0 PHSP;
0.0000005 K+ K- pi- eta PHSP;
0.0000002 K+ K- pi- eta' PHSP;
0.000001 K0 anti-K0 pi- pi0 PHSP;
0.0000005 K0 anti-K0 pi- eta PHSP;
0.0000002 K0 anti-K0 pi- eta' PHSP;
0.000001 K0 K- pi+ pi- PHSP;
0.000001 K0 K- pi0 pi0 PHSP;
0.0000005 K0 K- pi0 eta PHSP;
0.0000002 K0 K- eta eta PHSP;
0.0000002 K0 K- pi0 eta' PHSP;
0.0000001 K0 K- eta eta' PHSP;
0.000001 K*+ K- pi- PHSP;
0.000001 K*- K+ pi- PHSP;
0.000001 K*0 anti-K0 pi- PHSP;
0.000001 K0 anti-K*0 pi- PHSP;
0.000001 K- K*0 pi0 PHSP;
0.0000005 K- K*0 eta PHSP;
0.0000002 K- K*0 eta' PHSP;
0.000001 K*- K0 pi0 PHSP;
0.0000005 K*- K0 eta PHSP;
0.0000002 K*- K0 eta' PHSP;
#--- 4-body phi-K*, phi-K-pi, K-K-K*, pi-K-K-K -----------------------
0.0000105 phi K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000010 phi anti-K0 pi- PHSP;
0.000010 phi K- pi0 PHSP;
0.000005 phi K- eta PHSP;
0.000002 phi K- eta' PHSP;
0.000010 K- K+ K*- PHSP;
0.000010 K- K*+ K- PHSP;
0.000010 K- K*0 anti-K0 PHSP;
0.000010 K- K0 anti-K*0 PHSP;
0.000010 K0 K*- anti-K0 PHSP;
0.000010 K+ K- K- pi0 PHSP;
0.000005 K+ K- K- eta PHSP;
0.000002 K+ K- K- eta' PHSP;
0.000010 K+ K- anti-K0 pi- PHSP;
0.000010 K0 anti-K0 K- pi0 PHSP;
0.000005 K0 anti-K0 K- eta PHSP;
0.000002 K0 anti-K0 K- eta' PHSP;
0.000010 K0 anti-K0 anti-K0 pi- PHSP;
0.000010 phi K_0*- PHSP;
0.000010 K- K+ K_0*- PHSP;
0.000010 K- K- K_0*+ PHSP;
0.000010 K- anti-K_0*0 K0 PHSP;
0.000010 K- K_0*0 anti-K0 PHSP;
0.000002 phi K'_1- PHSP;
0.000002 K- K+ K'_1- PHSP;
#--- 4-body phi-phi, phi-K-K, K-K-K-K --------------------------------
0.000001 phi K0 K- PHSP;
0.000001 K+ K- K- K0 PHSP;
0.000001 K0 anti-K0 K0 K- PHSP;
#
#5-body modes from Jim Smith - 1/30/05
#--- 5-body rho-rho-pi, rho-pi-pi-pi, pi-pi-pi-pi-pi -------------------
0.000010 rho0 rho0 pi- PHSP;
0.000010 rho- rho0 pi0 PHSP;
0.000005 rho- rho0 eta PHSP;
0.000002 rho- rho0 eta' PHSP;
0.000010 rho+ rho- pi- PHSP;
0.000010 omega rho0 pi- PHSP;
0.000010 omega rho- pi0 PHSP;
0.000005 omega rho- eta PHSP;
0.000002 omega rho- eta' PHSP;
0.000002 rho0 pi+ pi- pi- PHSP;
0.000002 rho0 pi- pi0 pi0 PHSP;
0.000001 rho0 pi- eta pi0 PHSP;
0.000001 rho0 pi- eta' pi0 PHSP;
0.000002 omega pi- pi0 pi0 PHSP;
0.000001 omega pi- eta pi0 PHSP;
0.000001 omega pi- eta' pi0 PHSP;
0.000002 rho+ pi- pi- pi0 PHSP;
0.000001 rho+ pi- pi- eta PHSP;
0.000001 rho+ pi- pi- eta' PHSP;
0.000002 rho- pi+ pi- pi0 PHSP;
0.000001 rho- pi+ pi- eta PHSP;
0.000001 rho- pi+ pi- eta' PHSP;
0.000002 rho- pi0 pi0 pi0 PHSP;
0.000001 rho- pi0 eta pi0 PHSP;
0.000001 rho- eta eta pi0 PHSP;
0.000001 rho- pi0 eta' pi0 PHSP;
0.000001 pi+ pi- pi- pi0 pi0 PHSP;
0.000001 pi+ pi- pi- eta pi0 PHSP;
0.000001 pi+ pi- pi- eta' pi0 PHSP;
0.000001 pi- pi0 pi0 pi0 pi0 PHSP;
0.000001 pi- eta pi0 pi0 pi0 PHSP;
0.000001 pi- eta' pi0 pi0 pi0 PHSP;
0.000010 a_1- rho0 PHSP;
0.000010 a_1- omega PHSP;
0.000010 a_1- f_0 PHSP;
0.000010 a_10 pi- pi0 PHSP;
0.000005 a_10 pi- eta PHSP;
0.000002 a_10 pi- eta' PHSP;
0.000010 a_1+ pi- pi- PHSP;
0.000010 a_1- pi+ pi- PHSP;
0.000010 a_1- pi0 pi0 PHSP;
0.000005 a_1- pi0 eta PHSP;
0.000002 a_1- pi0 eta' PHSP;
0.000010 rho- f_0 pi0 PHSP;
0.000005 rho- f_0 eta PHSP;
0.000002 rho- f_0 eta' PHSP;
0.000010 rho0 f_0 pi- PHSP;
0.000010 omega f_0 pi- PHSP;
0.000010 rho- a_00 pi0 PHSP;
0.000005 rho- a_00 eta PHSP;
0.000002 rho- a_00 eta' PHSP;
0.000010 rho+ a_0- pi- PHSP;
0.000010 rho0 a_0- pi0 PHSP;
0.000005 rho0 a_0- eta PHSP;
0.000002 rho0 a_0- eta' PHSP;
0.000002 f_0 pi+ pi- pi- PHSP;
0.000002 f_0 pi- pi0 pi0 PHSP;
0.000001 f_0 pi- pi0 eta PHSP;
0.000001 f_0 pi- pi0 eta' PHSP;
0.000001 a_00 pi- pi0 pi0 PHSP;
0.000001 a_0- pi0 pi0 pi0 PHSP;
0.000001 a_0+ pi- pi- pi0 PHSP;
#--- 5-body rho-K*pi, rho-2pi-K, K*-3pi, 4pi-K -------------------
0.000010 rho- K*- pi+ PHSP;
0.000010 rho+ K*- pi- PHSP;
0.000010 rho- anti-K*0 pi0 PHSP;
0.000005 rho- anti-K*0 eta PHSP;
0.000002 rho- anti-K*0 eta' PHSP;
0.000010 rho0 anti-K*0 pi- PHSP;
0.000010 rho0 K*- pi0 PHSP;
0.000005 rho0 K*- eta PHSP;
0.000002 rho0 K*- eta' PHSP;
0.000010 omega anti-K*0 pi- PHSP;
0.000010 omega K*- pi0 PHSP;
0.000005 omega K*- eta PHSP;
0.000002 omega K*- eta' PHSP;
0.000010 pi+ pi- anti-K*0 pi- PHSP;
0.000010 pi- pi0 anti-K*0 pi0 PHSP;
0.000005 pi- eta anti-K*0 pi0 PHSP;
0.000002 pi- eta' anti-K*0 pi0 PHSP;
0.000010 pi- pi+ K*- pi0 PHSP;
0.000005 pi- pi+ K*- eta PHSP;
0.000002 pi- pi+ K*- eta' PHSP;
0.000010 pi0 pi0 K*- pi0 PHSP;
0.000005 pi0 eta K*- pi0 PHSP;
0.000002 eta eta K*- pi0 PHSP;
0.000002 pi0 eta' K*- pi0 PHSP;
0.000001 eta eta' K*- pi0 PHSP;
0.000010 rho- anti-K0 pi+ pi- PHSP;
0.000010 rho- anti-K0 pi0 pi0 PHSP;
0.000005 rho- anti-K0 eta pi0 PHSP;
0.000002 rho- anti-K0 eta' pi0 PHSP;
0.000010 rho- K- pi+ pi0 PHSP;
0.000010 rho+ K- pi- pi0 PHSP;
0.000010 rho+ anti-K0 pi- pi- PHSP;
0.000010 rho0 anti-K0 pi- pi0 PHSP;
0.000010 rho0 K- pi0 pi0 PHSP;
0.000005 rho0 K- eta pi0 PHSP;
0.000002 rho0 K- eta' pi0 PHSP;
0.000010 omega anti-K0 pi- pi0 PHSP;
0.000010 omega K- pi0 pi0 PHSP;
0.000005 omega K- eta pi0 PHSP;
0.000002 omega K- eta' pi0 PHSP;
0.000002 pi- pi- pi+ anti-K0 pi0 PHSP;
0.000001 pi- pi- pi+ anti-K0 eta PHSP;
0.000001 pi- pi- pi+ anti-K0 eta' PHSP;
0.000002 pi- pi0 pi0 anti-K0 pi0 PHSP;
0.000001 pi- eta pi0 anti-K0 pi0 PHSP;
0.000001 pi- eta eta anti-K0 pi0 PHSP;
0.000002 pi+ pi- pi+ K- pi- PHSP;
0.000002 pi+ pi- pi0 K- pi0 PHSP;
0.000001 pi+ pi- eta K- pi0 PHSP;
0.000001 pi+ pi- eta' K- pi0 PHSP;
0.000002 pi0 pi0 pi0 K- pi0 PHSP;
0.000001 pi0 pi0 eta K- pi0 PHSP;
0.000001 pi0 eta eta K- pi0 PHSP;
0.000001 pi0 pi0 eta' K- pi0 PHSP;
0.000001 pi0 eta eta' K- pi0 PHSP;
0.000010 rho0 anti-K_0*0 pi- PHSP;
0.000010 rho- anti-K_0*0 pi0 PHSP;
0.000005 rho- anti-K_0*0 eta PHSP;
0.000002 rho- anti-K_0*0 eta' PHSP;
0.000010 rho- K_0*- pi+ PHSP;
0.000010 rho0 K_0*- pi0 PHSP;
0.000005 rho0 K_0*- eta PHSP;
0.000002 rho0 K_0*- eta' PHSP;
0.000010 pi- pi- anti-K_0*0 pi+ PHSP;
0.000010 pi- pi0 anti-K_0*0 pi0 PHSP;
0.000005 pi- pi0 anti-K_0*0 eta PHSP;
0.000002 pi- pi0 anti-K_0*0 eta' PHSP;
0.000010 pi0 pi0 K_0*- pi0 PHSP;
0.000005 pi0 pi0 K_0*- eta PHSP;
0.000002 pi0 pi0 K_0*- eta' PHSP;
0.000010 anti-K*0 f_0 pi- PHSP;
0.000010 K*- f_0 pi0 PHSP;
0.000005 K*- f_0 eta PHSP;
0.000002 K*- f_0 eta' PHSP;
0.000020 a_10 K*- PHSP;
0.000010 a_10 K- pi0 PHSP;
0.000010 a_10 anti-K0 pi- PHSP;
0.000020 a_1- anti-K*0 PHSP;
0.000010 a_1- K- pi+ PHSP;
0.000010 a_1- anti-K0 pi0 PHSP;
0.000005 K*- a_00 pi0 PHSP;
0.000005 anti-K*0 a_0- pi0 PHSP;
#--- 5-body K*-K*pi,rho-K-Kpi, K*-K-2pi, phi-3pi, 3pi-K-K ------------
0.000001 K*0 anti-K*0 pi- PHSP;
0.000001 K*0 K*- pi0 PHSP;
0.0000005 K*0 K*- eta PHSP;
0.0000002 K*0 K*- eta' PHSP;
0.000001 phi rho0 pi- PHSP;
0.000001 phi omega pi- PHSP;
0.000001 phi f_0 pi- PHSP;
0.000001 phi rho- pi0 PHSP;
0.0000005 phi rho- eta PHSP;
0.0000002 phi rho- eta' PHSP;
0.000001 phi pi+ pi- pi- PHSP;
0.000001 phi pi- pi0 pi0 PHSP;
0.0000005 phi pi- eta pi0 PHSP;
0.0000002 phi pi- eta' pi0 PHSP;
0.000001 K0 K- rho+ pi- PHSP;
0.000001 K0 K- rho- pi+ PHSP;
0.000001 K0 K- rho0 pi0 PHSP;
0.0000005 K0 K- rho0 eta PHSP;
0.0000002 K0 K- rho0 eta' PHSP;
0.000001 K0 K- omega pi0 PHSP;
0.000001 K0 K- f_0 pi0 PHSP;
0.000001 K+ K- rho0 pi- PHSP;
0.000001 K+ K- rho- pi0 PHSP;
0.0000005 K+ K- rho- eta PHSP;
0.0000002 K+ K- rho- eta' PHSP;
0.000001 K+ K- omega pi- PHSP;
0.000001 K0 anti-K0 rho0 pi- PHSP;
0.000001 K0 anti-K0 omega pi- PHSP;
0.000001 K0 anti-K0 f_0 pi- PHSP;
0.000001 K0 anti-K0 rho- pi0 PHSP;
0.0000005 K0 anti-K0 rho- eta PHSP;
0.0000002 K0 anti-K0 rho- eta' PHSP;
0.000001 anti-K0 K+ rho- pi- PHSP;
0.0000002 anti-K0 K+ pi- pi- pi0 PHSP;
0.0000001 anti-K0 K+ pi- pi- eta PHSP;
0.0000001 anti-K0 K+ pi- pi- eta' PHSP;
0.0000002 K+ K- pi+ pi- pi- PHSP;
0.0000002 K+ K- pi- pi0 pi0 PHSP;
0.0000001 K+ K- pi- eta pi0 PHSP;
0.0000001 K+ K- pi- eta' pi0 PHSP;
0.0000002 K0 anti-K0 pi+ pi- pi- PHSP;
0.0000002 K0 anti-K0 pi- pi0 pi0 PHSP;
0.0000001 K0 anti-K0 pi- eta pi0 PHSP;
0.0000001 K0 anti-K0 pi- eta' pi0 PHSP;
0.0000002 K0 K- pi+ pi- pi0 PHSP;
0.0000001 K0 K- pi+ pi- eta PHSP;
0.0000001 K0 K- pi+ pi- eta' PHSP;
0.0000002 K0 K- pi0 pi0 pi0 PHSP;
0.0000001 K0 K- pi0 eta pi0 PHSP;
0.0000001 K0 K- pi0 eta' pi0 PHSP;
0.000001 anti-K*0 K+ pi- pi- PHSP;
0.000001 K*+ anti-K0 pi- pi- PHSP;
0.000001 K*- K+ pi- pi0 PHSP;
0.000001 K*+ K- pi- pi0 PHSP;
0.000001 K*0 anti-K0 pi- pi0 PHSP;
0.000001 K0 anti-K*0 pi- pi0 PHSP;
0.000001 K- K*0 pi0 pi0 PHSP;
0.0000005 K- K*0 eta pi0 PHSP;
0.0000002 K- K*0 eta' pi0 PHSP;
0.000001 K*- K0 pi0 pi0 PHSP;
0.0000005 K*- K0 eta pi0 PHSP;
0.0000002 K*- K0 eta' pi0 PHSP;
#--- 5-body phi-K*-pi, phi-K-2pi, K-K-K*-pi, 2pi-K-K-K --------------------
0.000010 phi K*- pi0 PHSP;
0.000010 phi K- rho0 PHSP;
0.000010 phi K- omega PHSP;
0.000010 phi K- f_0 PHSP;
0.000010 phi anti-K0 rho- PHSP;
0.000010 phi anti-K0 pi- pi0 PHSP;
0.000010 phi K- pi+ pi- PHSP;
0.000010 phi K- pi0 pi0 PHSP;
0.000005 phi K- eta pi0 PHSP;
0.000002 phi K- eta' pi0 PHSP;
0.000010 K+ K- K*- pi0 PHSP;
0.000010 K- K*+ K- pi0 PHSP;
0.000010 K- K*0 anti-K0 pi0 PHSP;
0.000010 K- K0 anti-K*0 pi0 PHSP;
0.000010 K0 K*- anti-K0 pi0 PHSP;
0.000010 K+ K- K- rho0 PHSP;
0.000010 K+ K- K- omega PHSP;
0.000010 K+ K- K- f_0 PHSP;
0.000010 K- K+ anti-K0 rho- PHSP;
0.000010 K- K- K+ pi0 pi0 PHSP;
0.000005 K- K- K+ eta pi0 PHSP;
0.000002 K- K- K+ eta' pi0 PHSP;
0.000010 K+ K- anti-K0 pi- pi0 PHSP;
0.000010 K0 anti-K0 K- pi0 pi0 PHSP;
0.000005 K0 anti-K0 K- eta pi0 PHSP;
0.000002 K0 anti-K0 K- eta' pi0 PHSP;
0.000010 K0 anti-K0 anti-K0 pi- pi0 PHSP;
0.000010 phi anti-K_0*0 pi- PHSP;
0.000010 phi K_0*- pi0 PHSP;
0.000005 phi K_0*- eta PHSP;
0.000002 phi K_0*- eta' PHSP;
0.000010 K- K+ K_0*- pi0 PHSP;
0.000005 K- K+ K_0*- eta PHSP;
0.000002 K- K+ K_0*- eta' PHSP;
0.000010 K- K- K_0*+ pi0 PHSP;
0.000005 K- K- K_0*+ eta PHSP;
0.000002 K- K- K_0*+ eta' PHSP;
0.000010 K- K+ anti-K_0*0 pi- PHSP;
0.000010 K- K- K_0*0 pi+ PHSP;
0.000010 anti-K0 anti-K0 K_0*0 pi- PHSP;
0.000010 K- anti-K_0*0 K0 pi0 PHSP;
0.000005 K- anti-K_0*0 K0 eta PHSP;
0.000002 K- anti-K_0*0 K0 eta' PHSP;
0.000010 K- K_0*0 anti-K0 pi0 PHSP;
0.000005 K- K_0*0 anti-K0 eta PHSP;
0.000002 K- K_0*0 anti-K0 eta' PHSP;
0.000002 phi anti-K'_10 pi- PHSP;
0.000002 phi K'_1- pi0 PHSP;
0.000001 phi K'_1- eta PHSP;
0.000001 phi K'_1- eta' PHSP;
0.000002 K- K+ anti-K'_10 pi- PHSP;
0.000002 K- K+ K'_1- pi0 PHSP;
0.000001 K- K+ K'_1- eta PHSP;
0.000001 K- K+ K'_1- eta' PHSP;
0.000002 K- K- K'_1+ pi0 PHSP;
0.000002 K- K- anti-K'_10 pi+ PHSP;
0.000002 K0 anti-K0 anti-K'_10 pi- PHSP;
0.000002 K0 anti-K0 K'_1- pi0 PHSP;
0.000001 K0 anti-K0 K'_1- eta PHSP;
0.000001 K0 anti-K0 K'_1- eta' PHSP;
0.000002 anti-K0 anti-K0 K'_10 pi- PHSP;
0.000002 K0 K0 K'_1- pi0 PHSP;
0.000001 K0 K0 K'_1- eta PHSP;
0.000001 K0 K0 K'_1- eta' PHSP;
0.000010 K- K0 anti-K'_10 pi0 PHSP;
0.000005 K- K0 anti-K'_10 eta PHSP;
0.000002 K- K0 anti-K'_10 eta' PHSP;
0.000010 K- K'_10 anti-K0 pi0 PHSP;
0.000005 K- K'_10 anti-K0 eta PHSP;
0.000002 K- K'_10 anti-K0 eta' PHSP;
#--- 5-body phi-phi-K, phi-phi-pi, phi-3K, phi-K-K-pi, 5K, 4K-pi ------------
0.000003 phi phi K- PHSP;
0.000001 phi phi pi- PHSP;
0.000001 phi K+ K- K- PHSP;
0.000001 phi K0 anti-K0 K- PHSP;
0.000001 phi K0 anti-K0 pi- PHSP;
0.000001 phi K0 K- pi0 PHSP;
0.000001 K+ K- K+ K- pi- PHSP;
0.000001 K+ K- K0 anti-K0 pi- PHSP;
0.000001 K+ K- K- K0 pi0 PHSP;
0.000001 K0 anti-K0 K0 K- pi0 PHSP;
#--- 6-body phi-phi-K*, phi-3Kpi, phi-K-K-2pi ------------
0.000003 phi phi K*- PHSP;
0.000001 phi K+ K- K*- PHSP;
0.000001 phi K0 anti-K0 K*- PHSP;
0.000001 phi K0 K- K*0 PHSP;
0.000001 phi K+ K- K- pi0 PHSP;
0.000001 phi K+ K- anti-K0 pi- PHSP;
0.000001 phi K0 anti-K0 K- pi0 PHSP;
0.000001 phi K0 anti-K0 anti-K0 pi- PHSP;
0.000001 phi K0 K- K- pi+ PHSP;
#--- 6-body a1a1 ------------
0.000050 a_1- a_10 PHSP;
#
# B -> cc= s sum = 1.92%
#
0.001007 J/psi K- SVS;
0.00143 J/psi K*- SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus;
0.000049 J/psi pi- SVS;
0.00005 J/psi rho- SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus;
0.0002 J/psi anti-K0 pi- PHSP;
0.0001 J/psi K- pi0 PHSP;
#rl0.0007 J/psi K- pi+ pi- PHSP;
#rl0.00035 J/psi K- pi0 pi0 PHSP;
#rl0.00035 J/psi anti-K0 pi- pi0 PHSP;
0.0001 J/psi K'_1- SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0;
0.0005 J/psi K_2*- PHSP;
0.0018 J/psi K_1- SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0;
0.000052 J/psi phi K- PHSP;
#
0.000648 psi(2S) K- SVS;
0.00067 psi(2S) K*- SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus;
0.0004 psi(2S) anti-K0 pi- PHSP;
0.0002 psi(2S) K- pi0 PHSP;
0.0019 psi(2S) K- pi+ pi- PHSP;
0.0001 psi(2S) K- pi0 pi0 PHSP;
0.0001 psi(2S) anti-K0 pi- pi0 PHSP;
0.0004 psi(2S) K_1- PHSP;
#
0.00091 eta_c K- PHSP;
0.0012 K*- eta_c SVS;
0.0002 eta_c anti-K0 pi- PHSP;
0.0001 eta_c K- pi0 PHSP;
0.0002 eta_c K- pi+ pi- PHSP;
0.0001 eta_c K- pi0 pi0 PHSP;
0.0001 eta_c anti-K0 pi- pi0 PHSP;
#
0.00034 eta_c(2S) K- PHSP;
0.00048 K*- eta_c(2S) SVS;
0.00008 eta_c(2S) anti-K0 pi- PHSP;
0.00005 eta_c(2S) K- pi0 PHSP;
0.00008 eta_c(2S) K- pi+ pi- PHSP;
0.00005 eta_c(2S) K- pi0 pi0 PHSP;
0.00005 eta_c(2S) anti-K0 pi- pi0 PHSP;
#
0.00014 chi_c0 K- PHSP;
0.0004 K*- chi_c0 SVS;
0.0002 chi_c0 anti-K0 pi- PHSP;
0.0001 chi_c0 K- pi0 PHSP;
0.0002 chi_c0 K- pi+ pi- PHSP;
0.0001 chi_c0 K- pi0 pi0 PHSP;
0.0001 chi_c0 anti-K0 pi- pi0 PHSP;
#
0.00049 chi_c1 K- SVS;
0.00036 chi_c1 K*- SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus;
0.0004 chi_c1 anti-K0 pi- PHSP;
0.0002 chi_c1 K- pi0 PHSP;
0.0004 chi_c1 K- pi+ pi- PHSP;
0.0002 chi_c1 K- pi0 pi0 PHSP;
0.0002 chi_c1 anti-K0 pi- pi0 PHSP;
#
0.00002 chi_c2 K- STS;
0.00002 chi_c2 K*- PHSP;
0.0002 chi_c2 anti-K0 pi- PHSP;
0.0001 chi_c2 K- pi0 PHSP;
0.0002 chi_c2 K- pi+ pi- PHSP;
0.0001 chi_c2 K- pi0 pi0 PHSP;
0.0001 chi_c2 anti-K0 pi- pi0 PHSP;
#
0.00049 psi(3770) K- SVS;
0.0005 psi(3770) K*- PHSP;
0.0003 psi(3770) anti-K0 pi- PHSP;
0.0002 psi(3770) K- pi0 PHSP;
0.0002 psi(3770) K- pi+ pi- PHSP;
0.0001 psi(3770) K- pi0 pi0 PHSP;
0.0001 psi(3770) anti-K0 pi- pi0 PHSP;
0.0003 psi(3770) K_1- PHSP;
#
# b -> c (sc=) -> D Ds X Sum = 10%
#
0.0103 D0 D_s- PHSP;
0.0084 D*0 D_s- SVS;
0.0078 D_s*- D0 SVS;
0.0175 D_s*- D*0 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0006 D'_10 D_s- SVS;
0.0012 D'_10 D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0012 D_10 D_s- SVS;
0.0024 D_10 D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0042 D_2*0 D_s- STS;
0.0040 D_2*0 D_s*- PHSP;
#
#
# SVV_HELAMP from factorization, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html:
#
0.0036 D_s- D+ pi- PHSP;
0.0018 D_s- D0 pi0 PHSP;
0.0037 D_s*- D+ pi- PHSP;
0.0018 D_s*- D0 pi0 PHSP;
0.0033 D_s- D+ pi- pi0 PHSP;
0.0033 D_s- D0 pi- pi+ PHSP;
0.0008 D_s- D0 pi0 pi0 PHSP;
0.0033 D_s*- D+ pi- pi0 PHSP;
0.0033 D_s*- D0 pi- pi+ PHSP;
0.0008 D_s*- D0 pi0 pi0 PHSP;
#
#
# b -> c (sc=) -> D D= K X Sum = 8%
# update: Ref. [B1]:
#
0.0017 D0 D- anti-K0 PHSP;
0.0052 D0 D*- anti-K0 PHSP;
0.0031 D*0 D- anti-K0 PHSP;
0.0078 D*0 D*- anti-K0 PHSP;
# External+internal W-emission amplitude
0.0021 D0 anti-D0 K- PHSP;
0.0018 D*0 anti-D0 K- PHSP;
0.0047 D0 anti-D*0 K- PHSP;
0.0053 D*0 anti-D*0 K- PHSP;
# Internal W-emission amplitude (color suppressed modes)
0.0005 D- D+ K- PHSP;
0.0005 D*- D+ K- PHSP;
0.0015 D- D*+ K- PHSP;
0.0015 D*- D*+ K- PHSP;
#
0.0025 D0 D- anti-K*0 PHSP;
0.0025 D*0 D- anti-K*0 PHSP;
0.0025 D0 D*- anti-K*0 PHSP;
0.0050 D*0 D*- anti-K*0 PHSP;
#
0.0025 D0 anti-D0 K*- PHSP;
0.0025 D*0 anti-D0 K*- PHSP;
0.0025 D0 anti-D*0 K*- PHSP;
0.0050 D*0 anti-D*0 K*- PHSP;
#
0.0005 D- D+ K*- PHSP;
0.0005 D*- D+ K*- PHSP;
0.0005 D- D*+ K*- PHSP;
0.0010 D*- D*+ K*- PHSP;
#
# B->D(*)D(*). See Ref [B1]:
#
0.00042 D- D0 PHSP;
0.00039 D*- D0 SVS;
0.00063 D*0 D- SVS;
0.00081 D*0 D*- SVV_HELAMP 0.47 0.0 0.96 0.0 0.56 0.0;
#
# B -> D(*) X Exclusive Modes
#
0.00519 D*0 pi- SVS;
0.00484 D0 pi- PHSP;
0.0134 rho- D0 SVS;
# D* rho HELAMP parameters taken from ICHEP 98-852.
0.0098 D*0 rho- SVV_HELAMP 0.228 0.95 0.932 0.0 0.283 1.13;
#
0.0005 D0 pi0 pi- PHSP;
0.0005 D*0 pi0 pi- PHSP;
0.00102 D+ pi- pi- PHSP;
0.00135 D*+ pi- pi- PHSP;
#
# D a1 updated Ref. [B1]:
0.0040 a_1- D0 SVS;
0.0042 D0 rho0 pi- PHSP;
0.0050 D0 pi+ pi- pi- PHSP;
#
# SVV_HELAMP from factorization, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html:
# updated Ref. [B1]:
#
#
0.0190 D*0 a_1- SVV_HELAMP 0.200 0.0 0.866 0.0 0.458 0.0;
#
0.00042 D*0 rho0 pi- PHSP;
0.0005 D*0 pi+ pi- pi- PHSP;
#
0.0020 D+ rho- pi- PHSP;
0.0020 D+ pi0 pi- pi- PHSP;
0.0020 D*+ rho- pi- PHSP;
0.0150 D*+ pi0 pi- pi- PHSP;
0.0005 D*0 rho- pi0 PHSP;
0.0005 D*0 pi- pi0 pi0 PHSP;
#
# B->D** pi and D** rho, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html
# further update October 26, 2004 Lange
#
0.000876 D_10 pi- SVS;
0.0005 D'_10 pi- SVS;
0.00052 D_2*0 pi- STS;
0.0007 D_10 rho- PHSP;
0.0022 D'_10 rho- PHSP;
0.0038 D_2*0 rho- PHSP;
0.00061 D_0*0 pi- PHSP;
#
#
# B->DK, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html:
# update: Ref [B1]:
#
0.000402 D0 K- PHSP;
0.000416 D*0 K- SVS;
0.00053 K*- D0 SVS;
0.00081 D*0 K*- SVV_HELAMP 0.228 0.0 0.932 0.0 0.283 0.0;
#October 26, 2004 Lange
0.0000005 D- pi0 PHSP;
0.0000005 D*- pi0 SVS;
0.000011 D- anti-K0 PHSP;
0.000006 D*- anti-K0 SVS;
#
#October 26, 2004 - Lange
0.00075 D0 D_s0*- PHSP;
0.0009 D*0 D_s0*- SVS;
0.0031 D_s1- D0 SVS;
0.0120 D*0 D_s1- SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0;
#
# Feb 2009
#
0.00055 D0 K- anti-K0 PHSP;
0.00075 D0 K- anti-K*0 PHSP;
0.00150 D*0 K- anti-K*0 PHSP;
#
# Feb 2009
#
0.00275 D0 omega pi- PHSP;
0.00450 D*0 omega pi- PHSP;
#
# Feb 2009
#
0.00045 D0 D'_s1- PHSP;
0.00094 D*0 D'_s1- PHSP;
#
# Lam_c X / Sigma_c X 4.0 %
#
#0.04000 cd_1 anti-uu_1 PYTHIA 23;
0.0349703 cd_1 anti-uu_1 PYTHIA 23;
#
# Xi_c X 2.5%
#
#0.02400 cs_1 anti-uu_1 PYTHIA 23;
0.0095374 cs_1 anti-uu_1 PYTHIA 23;
#
#
0.238716 anti-u d c anti-u PYTHIA 48;
0.0455674 anti-u d c anti-u PYTHIA 13;
0.0238434 anti-u s c anti-u PYTHIA 13;
#lange - try to crank up the psi production....
0.0784183 anti-c s c anti-u PYTHIA 13;
0.0042388 anti-c d c anti-u PYTHIA 13;
0.0031791 anti-u d u anti-u PYTHIA 48;
0.0042388 anti-c s u anti-u PYTHIA 48;
# JGS 11/5/02 This and similar a few lines above have been divided by two
# to solve a double-counting problem for this channel
0.0021724 anti-u u d anti-u PYTHIA 48;
0.0000742 anti-d d d anti-u PYTHIA 48;
0.0000954 anti-s s d anti-u PYTHIA 48;
0.0023314 anti-u u s anti-u PYTHIA 48;
0.0019075 anti-d d s anti-u PYTHIA 48;
0.0015896 anti-s s s anti-u PYTHIA 48;
0.0052985 s anti-u PYTHIA 32;
#
####
Enddecay
#
Decay B+
# Updated to PDG 2008
# b -> c semileptonic
#
-0.0607 anti-D*0 e+ nu_e PHOTOS HQET 0.77 1.33 0.92;
-0.0227 anti-D0 e+ nu_e PHOTOS ISGW2;
-0.0040 anti-D_10 e+ nu_e PHOTOS ISGW2;
-0.0024 anti-D_0*0 e+ nu_e PHOTOS ISGW2;
-0.0007 anti-D'_10 e+ nu_e PHOTOS ISGW2;
-0.0018 anti-D_2*0 e+ nu_e PHOTOS ISGW2;
-0.0061 D*- pi+ e+ nu_e PHOTOS GOITY_ROBERTS;
-0.0003 anti-D*0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS;
+0.0607 anti-D*0 e+ nu_e FSR HQET 0.77 1.33 0.92;
+0.0227 anti-D0 e+ nu_e FSR ISGW2;
+0.0040 anti-D_10 e+ nu_e FSR ISGW2;
+0.0024 anti-D_0*0 e+ nu_e FSR ISGW2;
+0.0007 anti-D'_10 e+ nu_e FSR ISGW2;
+0.0018 anti-D_2*0 e+ nu_e FSR ISGW2;
+0.0061 D*- pi+ e+ nu_e FSR GOITY_ROBERTS;
+0.0003 anti-D*0 pi0 e+ nu_e FSR GOITY_ROBERTS;
# covered by other decays
-0.0000 D- pi+ e+ nu_e PHOTOS GOITY_ROBERTS;
-0.0010 anti-D0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS;
+0.0000 D- pi+ e+ nu_e FSR GOITY_ROBERTS;
+0.0010 anti-D0 pi0 e+ nu_e FSR GOITY_ROBERTS;
-0.0607 anti-D*0 mu+ nu_mu PHOTOS HQET 0.77 1.33 0.92;
-0.0227 anti-D0 mu+ nu_mu PHOTOS ISGW2;
-0.0040 anti-D_10 mu+ nu_mu PHOTOS ISGW2;
-0.0024 anti-D_0*0 mu+ nu_mu PHOTOS ISGW2;
-0.0007 anti-D'_10 mu+ nu_mu PHOTOS ISGW2;
-0.0018 anti-D_2*0 mu+ nu_mu PHOTOS ISGW2;
-0.0061 D*- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS;
-0.0003 anti-D*0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS;
-0.0000 D- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS;
-0.0010 anti-D0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS;
+0.0607 anti-D*0 mu+ nu_mu FSR HQET 0.77 1.33 0.92;
+0.0227 anti-D0 mu+ nu_mu FSR ISGW2;
+0.0040 anti-D_10 mu+ nu_mu FSR ISGW2;
+0.0024 anti-D_0*0 mu+ nu_mu FSR ISGW2;
+0.0007 anti-D'_10 mu+ nu_mu FSR ISGW2;
+0.0018 anti-D_2*0 mu+ nu_mu FSR ISGW2;
+0.0061 D*- pi+ mu+ nu_mu FSR GOITY_ROBERTS;
+0.0003 anti-D*0 pi0 mu+ nu_mu FSR GOITY_ROBERTS;
+0.0000 D- pi+ mu+ nu_mu FSR GOITY_ROBERTS;
+0.0010 anti-D0 pi0 mu+ nu_mu FSR GOITY_ROBERTS;
#
# b -> c tau nu
#
0.0220 anti-D*0 tau+ nu_tau ISGW2;
0.0070 anti-D0 tau+ nu_tau ISGW2;
0.0013 anti-D_10 tau+ nu_tau ISGW2;
0.0013 anti-D_0*0 tau+ nu_tau ISGW2;
0.0020 anti-D'_10 tau+ nu_tau ISGW2;
0.0020 anti-D_2*0 tau+ nu_tau ISGW2;
#
# b -> u l nu
#
#
#
-0.000077 pi0 e+ nu_e PHOTOS ISGW2;
-0.000084 eta e+ nu_e PHOTOS ISGW2;
-0.000128 rho0 e+ nu_e PHOTOS ISGW2;
-0.000130 omega e+ nu_e PHOTOS ISGW2;
-0.000270 eta' e+ nu_e PHOTOS ISGW2;
-0.000000 anti-D(2S)0 e+ nu_e PHOTOS ISGW2;
-0.000000 anti-D*(2S)0 e+ nu_e PHOTOS ISGW2;
+0.000077 pi0 e+ nu_e FSR ISGW2;
+0.000084 eta e+ nu_e FSR ISGW2;
+0.000128 rho0 e+ nu_e FSR ISGW2;
+0.000130 omega e+ nu_e FSR ISGW2;
+0.000270 eta' e+ nu_e FSR ISGW2;
+0.000000 anti-D(2S)0 e+ nu_e FSR ISGW2;
+0.000000 anti-D*(2S)0 e+ nu_e FSR ISGW2;
0.001948 Xu0 e+ nu_e VUB 4.8 1.29 0.22 20 0.30 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51;
#
-0.000077 pi0 mu+ nu_mu PHOTOS ISGW2;
-0.000084 eta mu+ nu_mu PHOTOS ISGW2;
-0.000128 rho0 mu+ nu_mu PHOTOS ISGW2;
-0.000130 omega mu+ nu_mu PHOTOS ISGW2;
-0.000270 eta' mu+ nu_mu PHOTOS ISGW2;
-0.000000 anti-D(2S)0 mu+ nu_mu PHOTOS ISGW2;
-0.000000 anti-D*(2S)0 mu+ nu_mu PHOTOS ISGW2;
+0.000077 pi0 mu+ nu_mu FSR ISGW2;
+0.000084 eta mu+ nu_mu FSR ISGW2;
+0.000128 rho0 mu+ nu_mu FSR ISGW2;
+0.000130 omega mu+ nu_mu FSR ISGW2;
+0.000270 eta' mu+ nu_mu FSR ISGW2;
+0.000000 anti-D(2S)0 mu+ nu_mu FSR ISGW2;
+0.000000 anti-D*(2S)0 mu+ nu_mu FSR ISGW2;
0.001948 Xu0 mu+ nu_mu VUB 4.8 1.29 0.22 20 0.30 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51;
#
0.000030 pi0 tau+ nu_tau ISGW2;
0.000012 eta tau+ nu_tau ISGW2;
0.000042 rho0 tau+ nu_tau ISGW2;
0.000042 omega tau+ nu_tau ISGW2;
0.000018 eta' tau+ nu_tau ISGW2;
0.000046 a_10 tau+ nu_tau ISGW2;
0.000027 b_10 tau+ nu_tau ISGW2;
0.000004 a_00 tau+ nu_tau ISGW2;
0.000002 f_0 tau+ nu_tau ISGW2;
0.000002 f'_0 tau+ nu_tau ISGW2;
0.000023 f_1 tau+ nu_tau ISGW2;
0.000023 f'_1 tau+ nu_tau ISGW2;
0.000013 h_1 tau+ nu_tau ISGW2;
0.000013 h'_1 tau+ nu_tau ISGW2;
0.000020 f_2 tau+ nu_tau ISGW2;
0.000020 f'_2 tau+ nu_tau ISGW2;
0.000000 anti-D(2S)0 tau+ nu_tau ISGW2;
0.000000 anti-D*(2S)0 tau+ nu_tau ISGW2;
#
#
#
# b->u hadronic
# Ref. [B1]:
#
0.000016 D_s+ pi0 PHSP;
0.000020 D_s*+ pi0 SVS;
#
0.000028 rho0 D_s+ SVS;
0.000028 D_s*+ rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# b-> s gamma
#
0.0000403 K*+ gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000135 K_1+ gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000065 K'_1+ gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000128 K'*+ gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000166 K_2*+ gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000017 K''*+ gamma HELAMP 1.0 0.0 1.0 0.0;
0.0003118 Xsu gamma BTOXSGAMMA 2;
#
-0.0000006 K+ e+ e- PHOTOS BTOSLLBALL;
-0.0000018 K*+ e+ e- PHOTOS BTOSLLBALL;
-0.0000050 Xsu e+ e- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.0000006 K+ mu+ mu- PHOTOS BTOSLLBALL;
-0.0000014 K*+ mu+ mu- PHOTOS BTOSLLBALL;
-0.0000025 Xsu mu+ mu- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.0000001 K+ tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 K*+ tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 Xsu tau+ tau- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
+0.0000006 K+ e+ e- FSR BTOSLLBALL;
+0.0000018 K*+ e+ e- FSR BTOSLLBALL;
+0.0000050 Xsu e+ e- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.0000006 K+ mu+ mu- FSR BTOSLLBALL;
+0.0000014 K*+ mu+ mu- FSR BTOSLLBALL;
+0.0000025 Xsu mu+ mu- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.0000001 K+ tau+ tau- FSR BTOSLLBALL;
+0.0000002 K*+ tau+ tau- FSR BTOSLLBALL;
+0.0000002 Xsu tau+ tau- FSR BTOXSLL 4.8 0.2 0.0 0.41;
#
# b -> l nu
#
0.000140 tau+ nu_tau SLN;
-0.000000 mu+ nu_mu PHOTOS SLN;
-0.000000 e+ nu_e PHOTOS SLN;
+0.000000 mu+ nu_mu FSR SLN;
+0.000000 e+ nu_e FSR SLN;
#
#------------------------------------------------------------------------------
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv
#
# Exclusive hadronic b->u
#
0.000026 pi+ pi0 pi0 CB3PI-P00 alpha;
0.000000 pi+ pi+ pi- CB3PI-MPP alpha;
####
0.0000044 eta pi+ PHSP;
0.0000027 eta K+ PHSP;
0.0000193 K*+ eta SVS;
0.0000054 rho+ eta SVS;
0.0000027 eta' pi+ PHSP;
0.0000702 eta' K+ PHSP;
0.0000049 K*+ eta' SVS;
0.0000087 rho+ eta' SVS;
0.0000069 omega pi+ SVS;
0.0000067 omega K+ SVS;
0.0000010 omega K*+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000106 omega rho+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000000 phi pi+ SVS;
0.0000083 phi K+ SVS;
#2-body modes from Jim Olsen
# (K_S0 K- and K_L0 K- -> 1x10^-6, Jim Olsen - Mar 27, 2001)
# (pi- pi0 -> 5x10^-6 and K- pi0 -> 11x10^-6, Jim Olsen - Mar 27, 2001)
# PR LHCb 04/08/04 split into KS/KL
0.000000 K0 pi+ PHSP;
0.0000115 K_S0 pi+ PHSP;
0.0000115 K_L0 pi+ PHSP;
0.0000014 anti-K0 K+ PHSP;
0.0000057 pi+ pi0 PHSP;
0.0000129 K+ pi0 PHSP;
#
# 3-body John Back (jback@slac.stanford.edu) - Oct 15, 2002
# JGS intersperses modes with pi0->eta,eta'
# B+ modes
#
# rho0 3-body modes
0.0000086 rho0 pi+ SVS;
0.0000042 rho0 K+ SVS;
#
# rho+ 3-body modes
0.0000109 rho+ pi0 SVS;
0.0000080 rho+ K0 SVS;
#
# rho(1450) 3-body modes
0.0000022 rho(2S)0 pi+ SVS;
0.000001 rho(2S)0 K+ SVS;
#
# f0(980) 3-body modes
0.000001 f_0 pi+ PHSP;
0.0000092 f_0 K+ PHSP;
0.000001 a_0+ K0 PHSP;
0.000001 a_00 K+ PHSP;
0.000001 a_00 pi+ PHSP;
0.000001 a_0+ pi0 PHSP;
0.0000081 f_2 pi+ PHSP;
#
# K*0(892) 3-body modes
0.0000109 K_0*0 pi+ PHSP;
0.0000010 anti-K_0*0 K+ PHSP;
0.000002 K_0*+ pi0 PHSP;
0.000002 K_0*+ anti-K0 PHSP;
#
# K*+(892) 3-body modes
0.0000069 K*+ pi0 SVS;
0.000003 K*+ anti-K0 SVS;
#
#
# Non-resonant 3-body left-overs
# Most modes are set at 1e-6
#
# pi+pi-pi+: high mass + f0(400-1200) = (1+1)e-6
#0402270.000002 pi+ pi- pi+ PHSP;
#
# K+ pi- pi+: high mass + f0(400-1200) = (5+5)e-6
0.0000060 K+ pi- pi+ PHSP;
#
# K+ K- pi+: just non-resonant
0.0000050 K+ K- pi+ PHSP;
#
# K+K-K+: high mass structure near 1500 + non-res: total - phiK = 30-4
0.0000280 K+ K- K+ PHSP;
#
#
# K+K+pi-: suppressed mode (1e-7)
0.0000001 K+ K+ pi- PHSP;
# K-pi+pi+: suppressed mode (1e-7)
0.0000001 K- pi+ pi+ PHSP;
#
#
# K+ anti-K0 pi0
0.000001 K+ anti-K0 pi0 PHSP;
0.000001 K+ anti-K0 eta PHSP;
0.000001 K+ anti-K0 eta' PHSP;
#
# pi+ K0 pi0
0.000001 pi+ K0 pi0 PHSP;
0.000001 pi+ K0 eta PHSP;
0.000001 pi+ K0 eta' PHSP;
#
# pi+ pi0 pi0
#0402270.000001 pi+ pi0 pi0 PHSP;
0.000001 pi+ pi0 eta PHSP;
0.000001 pi+ pi0 eta' PHSP;
0.000001 pi+ eta eta PHSP;
0.000001 pi+ eta eta' PHSP;
#
# K+ pi0 pi0
0.000001 K+ pi0 pi0 PHSP;
0.000001 K+ pi0 eta PHSP;
0.000001 K+ pi0 eta' PHSP;
0.000001 K+ eta eta PHSP;
0.000001 K+ eta eta' PHSP;
0.000001 K+ eta' eta' PHSP;
#
# K+ K0 anti-K0: 4*BF(K+KsKs) (4 is a guess)
0.0000460 K+ K0 anti-K0 PHSP;
#
# pi+ K0 anti-K0
0.000001 pi+ K0 anti-K0 PHSP;
#
#^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#---------------------------------------------------------------------------
#
#4-body modes from Andrei Gritsan
#--- 4-body rho-rho, rho-pi-pi, pi-pi-pi-pi --------------------------
# PR LHCb 22 Apr 2004 Set long. pol. for rho rho
0.000018 rho+ rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0;
0.000010 rho0 pi+ pi0 PHSP;
0.000005 rho0 pi+ eta PHSP;
0.000002 rho0 pi+ eta' PHSP;
0.000010 omega pi+ pi0 PHSP;
0.000005 omega pi+ eta PHSP;
0.000002 omega pi+ eta' PHSP;
0.000010 rho+ pi+ pi- PHSP;
# PR Add rho- pi+ pi+
0.000010 rho- pi+ pi+ PHSP;
0.000010 rho+ pi0 pi0 PHSP;
0.000005 rho+ pi0 eta PHSP;
0.000002 rho+ eta eta PHSP;
0.000002 rho+ pi0 eta' PHSP;
0.000010 pi- pi+ pi+ pi0 PHSP;
0.000005 pi- pi+ pi+ eta PHSP;
0.000002 pi- pi+ pi+ eta' PHSP;
0.000010 pi+ pi0 pi0 pi0 PHSP;
0.000005 pi+ eta pi0 pi0 PHSP;
0.000002 pi+ eta eta pi0 PHSP;
0.000002 pi+ eta' pi0 pi0 PHSP;
0.000001 pi+ eta' eta pi0 PHSP;
0.000020 a_10 pi+ SVS;
0.000026 a_1+ pi0 SVS;
0.0000067 b_10 pi+ SVS;
0.000010 b_1+ pi0 SVS;
0.000010 rho+ f_0 SVS;
0.000010 rho+ a_00 SVS;
0.000002 rho0 a_0+ SVS;
0.000010 f_0 pi+ pi0 PHSP;
0.000001 a_00 pi+ pi0 PHSP;
0.000001 a_0+ pi0 pi0 PHSP;
0.000001 a_0- pi+ pi+ PHSP;
#--- 4-body rho-K*, a1-K, rho-pi-K, K*-pi-pi, pi-pi-pi-K -------------------
0.0000092 rho+ K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000010 rho0 K*+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000010 pi+ pi0 K*0 PHSP;
0.000005 pi+ eta K*0 PHSP;
0.0000638 pi- pi+ K*+ PHSP;
0.000010 pi0 pi0 K*+ PHSP;
0.000005 pi0 eta K*+ PHSP;
0.000002 eta eta K*+ PHSP;
0.000002 pi0 eta' K*+ PHSP;
0.000001 eta eta' K*+ PHSP;
0.000010 rho+ K0 pi0 PHSP;
0.000005 rho+ K0 eta PHSP;
0.000002 rho+ K0 eta' PHSP;
0.000010 rho+ K+ pi- PHSP;
0.000010 rho- K+ pi+ PHSP;
0.000005 rho0 K0 pi+ PHSP;
0.000005 rho0 K+ pi0 PHSP;
0.000002 rho0 K+ eta PHSP;
0.000001 rho0 K+ eta' PHSP;
0.000005 omega K0 pi+ PHSP;
0.000005 omega K+ pi0 PHSP;
0.000002 omega K+ eta PHSP;
0.000001 omega K+ eta' PHSP;
0.000010 pi+ pi+ pi- K0 PHSP;
0.000010 pi+ pi0 pi0 K0 PHSP;
0.000005 pi+ eta pi0 K0 PHSP;
0.000002 pi+ eta eta K0 PHSP;
0.000010 pi+ pi- pi0 K+ PHSP;
0.000005 pi+ pi- eta K+ PHSP;
0.000010 pi0 pi0 pi0 K+ PHSP;
0.000005 pi0 pi0 eta K+ PHSP;
0.000002 pi0 eta eta K+ PHSP;
0.000002 pi0 pi0 eta' K+ PHSP;
0.000001 pi0 eta eta' K+ PHSP;
0.000010 rho+ K_0*0 PHSP;
0.000006 rho0 K_0*+ PHSP;
0.000010 pi+ pi0 K_0*0 PHSP;
0.000010 pi0 pi0 K_0*+ PHSP;
0.0000052 K*+ f_0 SVS;
0.000010 a_10 K+ SVS;
0.000035 a_1+ K0 SVS;
0.0000091 b_10 K+ SVS;
0.000010 b_1+ K0 SVS;
0.000005 K*+ a_00 SVS;
0.000005 K*0 a_0+ SVS;
#--- 4-body K*-K*, rho-K-K, K*-K-pi, phi-pi-pi, pi-pi-K-K ------------
0.000001 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 phi rho+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 phi pi+ pi0 PHSP;
0.0000005 phi pi+ eta PHSP;
0.0000002 phi pi+ eta' PHSP;
0.000001 K+ K- rho+ PHSP;
0.000001 K0 anti-K0 rho+ PHSP;
0.000001 anti-K0 K+ rho0 PHSP;
0.000001 anti-K0 K+ omega PHSP;
0.000001 K+ K- pi+ pi0 PHSP;
0.0000005 K+ K- pi+ eta PHSP;
0.0000002 K+ K- pi+ eta' PHSP;
0.000001 K0 anti-K0 pi+ pi0 PHSP;
0.0000005 K0 anti-K0 pi+ eta PHSP;
0.0000002 K0 anti-K0 pi+ eta' PHSP;
0.000001 anti-K0 K+ pi+ pi- PHSP;
0.000001 anti-K0 K+ pi0 pi0 PHSP;
0.0000005 anti-K0 K+ pi0 eta PHSP;
0.0000002 anti-K0 K+ eta eta PHSP;
0.0000002 anti-K0 K+ pi0 eta' PHSP;
0.0000001 anti-K0 K+ eta eta' PHSP;
0.000001 K*+ K- pi+ PHSP;
0.000001 K*- K+ pi+ PHSP;
0.000001 K*0 anti-K0 pi+ PHSP;
0.000001 K0 anti-K*0 pi+ PHSP;
0.000001 K+ anti-K*0 pi0 PHSP;
0.0000005 K+ anti-K*0 eta PHSP;
0.0000002 K+ anti-K*0 eta' PHSP;
0.000001 K*+ anti-K0 pi0 PHSP;
0.0000005 K*+ anti-K0 eta PHSP;
0.0000002 K*+ anti-K0 eta' PHSP;
#--- 4-body phi-K*, phi-K-pi, K-K-K*, pi-K-K-K -----------------------
0.0000105 phi K*+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000010 phi K0 pi+ PHSP;
0.000010 phi K+ pi0 PHSP;
0.000005 phi K+ eta PHSP;
0.000002 phi K+ eta' PHSP;
0.000010 K- K+ K*+ PHSP;
0.000010 K+ K*- K+ PHSP;
0.000010 K+ K*0 anti-K0 PHSP;
0.000010 K+ K0 anti-K*0 PHSP;
0.000010 K0 K*+ anti-K0 PHSP;
0.000010 K+ K- K+ pi0 PHSP;
0.000005 K+ K- K+ eta PHSP;
0.000002 K+ K- K+ eta' PHSP;
0.000010 K+ K- K0 pi+ PHSP;
0.000010 K0 anti-K0 K+ pi0 PHSP;
0.000005 K0 anti-K0 K+ eta PHSP;
0.000002 K0 anti-K0 K+ eta' PHSP;
0.000010 K0 anti-K0 K0 pi+ PHSP;
0.000010 phi K_0*+ PHSP;
0.000010 K- K+ K_0*+ PHSP;
0.000010 K+ K+ K_0*- PHSP;
0.000010 K+ anti-K_0*0 K0 PHSP;
0.000010 K+ K_0*0 anti-K0 PHSP;
0.000002 phi K'_1+ PHSP;
0.000002 K- K+ K'_1+ PHSP;
#--- 4-body phi-phi, phi-K-K, K-K-K-K --------------------------------
0.000001 phi anti-K0 K+ PHSP;
0.000001 K+ K- K+ anti-K0 PHSP;
0.000001 K0 anti-K0 anti-K0 K+ PHSP;
#
#5-body modes from Jim Smith - 1/30/05
#--- 5-body rho-rho-pi, rho-pi-pi-pi, pi-pi-pi-pi-pi -------------------
0.000010 rho0 rho0 pi+ PHSP;
0.000010 rho+ rho0 pi0 PHSP;
0.000005 rho+ rho0 eta PHSP;
0.000002 rho+ rho0 eta' PHSP;
0.000010 rho+ rho- pi+ PHSP;
0.000010 omega rho0 pi+ PHSP;
0.000010 omega rho+ pi0 PHSP;
0.000005 omega rho+ eta PHSP;
0.000002 omega rho+ eta' PHSP;
0.000002 rho0 pi+ pi- pi+ PHSP;
0.000002 rho0 pi+ pi0 pi0 PHSP;
0.000001 rho0 pi+ eta pi0 PHSP;
0.000001 rho0 pi+ eta' pi0 PHSP;
0.000002 omega pi+ pi0 pi0 PHSP;
0.000001 omega pi+ eta pi0 PHSP;
0.000001 omega pi+ eta' pi0 PHSP;
0.000002 rho- pi+ pi+ pi0 PHSP;
0.000001 rho- pi+ pi+ eta PHSP;
0.000001 rho- pi+ pi+ eta' PHSP;
0.000002 rho+ pi+ pi- pi0 PHSP;
0.000001 rho+ pi+ pi- eta PHSP;
0.000001 rho+ pi+ pi- eta' PHSP;
0.000002 rho+ pi0 pi0 pi0 PHSP;
0.000001 rho+ pi0 eta pi0 PHSP;
0.000001 rho+ eta eta pi0 PHSP;
0.000001 rho+ pi0 eta' pi0 PHSP;
0.000001 pi- pi+ pi+ pi0 pi0 PHSP;
0.000001 pi- pi+ pi+ eta pi0 PHSP;
0.000001 pi- pi+ pi+ eta' pi0 PHSP;
0.000001 pi+ pi0 pi0 pi0 pi0 PHSP;
0.000001 pi+ eta pi0 pi0 pi0 PHSP;
0.000001 pi+ eta' pi0 pi0 pi0 PHSP;
0.000010 a_1+ rho0 PHSP;
0.000010 a_1+ omega PHSP;
0.000010 a_1+ f_0 PHSP;
0.000010 a_10 pi+ pi0 PHSP;
0.000005 a_10 pi+ eta PHSP;
0.000002 a_10 pi+ eta' PHSP;
0.000010 a_1- pi+ pi+ PHSP;
0.000010 a_1+ pi+ pi- PHSP;
0.000010 a_1+ pi0 pi0 PHSP;
0.000005 a_1+ pi0 eta PHSP;
0.000002 a_1+ pi0 eta' PHSP;
0.000010 rho+ f_0 pi0 PHSP;
0.000005 rho+ f_0 eta PHSP;
0.000002 rho+ f_0 eta' PHSP;
0.000010 rho0 f_0 pi+ PHSP;
0.000010 omega f_0 pi+ PHSP;
0.000010 rho+ a_00 pi0 PHSP;
0.000005 rho+ a_00 eta PHSP;
0.000002 rho+ a_00 eta' PHSP;
0.000010 rho- a_0+ pi+ PHSP;
0.000010 rho0 a_0+ pi0 PHSP;
0.000005 rho0 a_0+ eta PHSP;
0.000002 rho0 a_0+ eta' PHSP;
0.000002 f_0 pi+ pi- pi+ PHSP;
0.000002 f_0 pi+ pi0 pi0 PHSP;
0.000001 f_0 pi+ pi0 eta PHSP;
0.000001 f_0 pi+ pi0 eta' PHSP;
0.000001 a_00 pi+ pi0 pi0 PHSP;
0.000001 a_0+ pi0 pi0 pi0 PHSP;
0.000001 a_0- pi+ pi+ pi0 PHSP;
#--- 5-body rho-K*pi, rho-2pi-K, K*-3pi, 4pi-K -------------------
0.000010 rho+ K*+ pi- PHSP;
0.000010 rho- K*+ pi+ PHSP;
0.000010 rho+ K*0 pi0 PHSP;
0.000005 rho+ K*0 eta PHSP;
0.000002 rho+ K*0 eta' PHSP;
0.000010 rho0 K*0 pi+ PHSP;
0.000010 rho0 K*+ pi0 PHSP;
0.000005 rho0 K*+ eta PHSP;
0.000002 rho0 K*+ eta' PHSP;
0.000010 omega K*0 pi+ PHSP;
0.000010 omega K*+ pi0 PHSP;
0.000005 omega K*+ eta PHSP;
0.000002 omega K*+ eta' PHSP;
0.000010 pi+ pi- K*0 pi+ PHSP;
0.000010 pi+ pi0 K*0 pi0 PHSP;
0.000005 pi+ eta K*0 pi0 PHSP;
0.000002 pi+ eta' K*0 pi0 PHSP;
0.000010 pi- pi+ K*+ pi0 PHSP;
0.000005 pi- pi+ K*+ eta PHSP;
0.000002 pi- pi+ K*+ eta' PHSP;
0.000010 pi0 pi0 K*+ pi0 PHSP;
0.000005 pi0 eta K*+ pi0 PHSP;
0.000002 eta eta K*+ pi0 PHSP;
0.000002 pi0 eta' K*+ pi0 PHSP;
0.000001 eta eta' K*+ pi0 PHSP;
0.000010 rho+ K0 pi+ pi- PHSP;
0.000010 rho+ K0 pi0 pi0 PHSP;
0.000005 rho+ K0 eta pi0 PHSP;
0.000002 rho+ K0 eta' pi0 PHSP;
0.000010 rho+ K+ pi- pi0 PHSP;
0.000010 rho- K+ pi+ pi0 PHSP;
0.000010 rho- K0 pi+ pi+ PHSP;
0.000010 rho0 K0 pi+ pi0 PHSP;
0.000010 rho0 K+ pi0 pi0 PHSP;
0.000005 rho0 K+ eta pi0 PHSP;
0.000002 rho0 K+ eta' pi0 PHSP;
0.000010 omega K0 pi+ pi0 PHSP;
0.000010 omega K+ pi0 pi0 PHSP;
0.000005 omega K+ eta pi0 PHSP;
0.000002 omega K+ eta' pi0 PHSP;
0.000002 pi+ pi+ pi- K0 pi0 PHSP;
0.000001 pi+ pi+ pi- K0 eta PHSP;
0.000001 pi+ pi+ pi- K0 eta' PHSP;
0.000002 pi+ pi0 pi0 K0 pi0 PHSP;
0.000001 pi+ eta pi0 K0 pi0 PHSP;
0.000001 pi+ eta eta K0 pi0 PHSP;
0.000002 pi+ pi- pi+ K+ pi- PHSP;
0.000002 pi+ pi- pi0 K+ pi0 PHSP;
0.000001 pi+ pi- eta K+ pi0 PHSP;
0.000001 pi+ pi- eta' K+ pi0 PHSP;
0.000002 pi0 pi0 pi0 K+ pi0 PHSP;
0.000001 pi0 pi0 eta K+ pi0 PHSP;
0.000001 pi0 eta eta K+ pi0 PHSP;
0.000001 pi0 pi0 eta' K+ pi0 PHSP;
0.000001 pi0 eta eta' K+ pi0 PHSP;
0.000010 rho0 K_0*0 pi+ PHSP;
0.000010 rho+ K_0*0 pi0 PHSP;
0.000005 rho+ K_0*0 eta PHSP;
0.000002 rho+ K_0*0 eta' PHSP;
0.000010 rho+ K_0*+ pi- PHSP;
0.000010 rho0 K_0*+ pi0 PHSP;
0.000005 rho0 K_0*+ eta PHSP;
0.000002 rho0 K_0*+ eta' PHSP;
0.000010 pi+ pi+ K_0*0 pi- PHSP;
0.000010 pi+ pi0 K_0*0 pi0 PHSP;
0.000005 pi+ pi0 K_0*0 eta PHSP;
0.000002 pi+ pi0 K_0*0 eta' PHSP;
0.000010 pi0 pi0 K_0*+ pi0 PHSP;
0.000005 pi0 pi0 K_0*+ eta PHSP;
0.000002 pi0 pi0 K_0*+ eta' PHSP;
0.000010 K*0 f_0 pi+ PHSP;
0.000010 K*+ f_0 pi0 PHSP;
0.000005 K*+ f_0 eta PHSP;
0.000002 K*+ f_0 eta' PHSP;
0.000020 a_10 K*+ PHSP;
0.000010 a_10 K+ pi0 PHSP;
0.000010 a_10 K0 pi+ PHSP;
0.000020 a_1+ K*0 PHSP;
0.000010 a_1+ K+ pi- PHSP;
0.000010 a_1+ K0 pi0 PHSP;
0.000005 K*+ a_00 pi0 PHSP;
0.000005 K*0 a_0+ pi0 PHSP;
#--- 5-body K*-K*pi,rho-K-Kpi, K*-K-2pi, phi-3pi, 3pi-K-K ------------
0.000001 K*0 anti-K*0 pi+ PHSP;
0.000001 anti-K*0 K*+ pi0 PHSP;
0.0000005 anti-K*0 K*+ eta PHSP;
0.0000002 anti-K*0 K*+ eta' PHSP;
0.000001 phi rho0 pi+ PHSP;
0.000001 phi omega pi+ PHSP;
0.000001 phi f_0 pi+ PHSP;
0.000001 phi rho+ pi0 PHSP;
0.0000005 phi rho+ eta PHSP;
0.0000002 phi rho+ eta' PHSP;
0.000001 phi pi+ pi- pi+ PHSP;
0.000001 phi pi+ pi0 pi0 PHSP;
0.0000005 phi pi+ eta pi0 PHSP;
0.0000002 phi pi+ eta' pi0 PHSP;
0.000001 anti-K0 K+ rho+ pi- PHSP;
0.000001 anti-K0 K+ rho- pi+ PHSP;
0.000001 anti-K0 K+ rho0 pi0 PHSP;
0.0000005 anti-K0 K+ rho0 eta PHSP;
0.0000002 anti-K0 K+ rho0 eta' PHSP;
0.000001 anti-K0 K+ omega pi0 PHSP;
0.000001 anti-K0 K+ f_0 pi0 PHSP;
0.000001 K+ K- rho0 pi+ PHSP;
0.000001 K+ K- rho+ pi0 PHSP;
0.0000005 K+ K- rho+ eta PHSP;
0.0000002 K+ K- rho+ eta' PHSP;
0.000001 K+ K- omega pi+ PHSP;
0.000001 K0 anti-K0 rho0 pi+ PHSP;
0.000001 K0 anti-K0 omega pi+ PHSP;
0.000001 K0 anti-K0 f_0 pi+ PHSP;
0.000001 K0 anti-K0 rho+ pi0 PHSP;
0.0000005 K0 anti-K0 rho+ eta PHSP;
0.0000002 K0 anti-K0 rho+ eta' PHSP;
0.000001 K0 K- rho+ pi+ PHSP;
0.0000002 K0 K- pi+ pi+ pi0 PHSP;
0.0000001 K0 K- pi+ pi+ eta PHSP;
0.0000001 K0 K- pi+ pi+ eta' PHSP;
0.0000002 K+ K- pi+ pi- pi+ PHSP;
0.0000002 K+ K- pi+ pi0 pi0 PHSP;
0.0000001 K+ K- pi+ eta pi0 PHSP;
0.0000001 K+ K- pi+ eta' pi0 PHSP;
0.0000002 K0 anti-K0 pi+ pi- pi+ PHSP;
0.0000002 K0 anti-K0 pi+ pi0 pi0 PHSP;
0.0000001 K0 anti-K0 pi+ eta pi0 PHSP;
0.0000001 K0 anti-K0 pi+ eta' pi0 PHSP;
0.0000002 anti-K0 K+ pi+ pi- pi0 PHSP;
0.0000001 anti-K0 K+ pi+ pi- eta PHSP;
0.0000001 anti-K0 K+ pi+ pi- eta' PHSP;
0.0000002 anti-K0 K+ pi0 pi0 pi0 PHSP;
0.0000001 anti-K0 K+ pi0 eta pi0 PHSP;
0.0000001 anti-K0 K+ pi0 eta' pi0 PHSP;
0.000001 K*0 K- pi+ pi+ PHSP;
0.000001 K*- K0 pi+ pi+ PHSP;
0.000001 K*+ K- pi+ pi0 PHSP;
0.000001 K*- K+ pi+ pi0 PHSP;
0.000001 K*0 anti-K0 pi+ pi0 PHSP;
0.000001 K0 anti-K*0 pi+ pi0 PHSP;
0.000001 K+ anti-K*0 pi0 pi0 PHSP;
0.0000005 K+ anti-K*0 eta pi0 PHSP;
0.0000002 K+ anti-K*0 eta' pi0 PHSP;
0.000001 K*+ anti-K0 pi0 pi0 PHSP;
0.0000005 K*+ anti-K0 eta pi0 PHSP;
0.0000002 K*+ anti-K0 eta' pi0 PHSP;
#--- 5-body phi-K*-pi, phi-K-2pi, K-K-K*-pi, 2pi-K-K-K --------------------
0.000010 phi K*+ pi0 PHSP;
0.000010 phi K+ rho0 PHSP;
0.000010 phi K+ omega PHSP;
0.000010 phi K+ f_0 PHSP;
0.000010 phi K0 rho+ PHSP;
0.000010 phi K0 pi+ pi0 PHSP;
0.000010 phi K+ pi+ pi- PHSP;
0.000010 phi K+ pi0 pi0 PHSP;
0.000005 phi K+ eta pi0 PHSP;
0.000002 phi K+ eta' pi0 PHSP;
0.000010 K- K+ K*+ pi0 PHSP;
0.000010 K+ K*- K+ pi0 PHSP;
0.000010 K+ K*0 anti-K0 pi0 PHSP;
0.000010 K+ K0 anti-K*0 pi0 PHSP;
0.000010 K0 K*+ anti-K0 pi0 PHSP;
0.000010 K- K+ K+ rho0 PHSP;
0.000010 K- K+ K+ omega PHSP;
0.000010 K- K+ K+ f_0 PHSP;
0.000010 K- K+ K0 rho+ PHSP;
0.000010 K+ K- K+ pi0 pi0 PHSP;
0.000005 K+ K- K+ eta pi0 PHSP;
0.000002 K+ K- K+ eta' pi0 PHSP;
0.000010 K+ K- K0 pi+ pi0 PHSP;
0.000010 K0 anti-K0 K+ pi0 pi0 PHSP;
0.000005 K0 anti-K0 K+ eta pi0 PHSP;
0.000002 K0 anti-K0 K+ eta' pi0 PHSP;
0.000010 K0 anti-K0 K0 pi+ pi0 PHSP;
0.000010 phi K_0*0 pi+ PHSP;
0.000010 phi K_0*+ pi0 PHSP;
0.000005 phi K_0*+ eta PHSP;
0.000002 phi K_0*+ eta' PHSP;
0.000010 K- K+ K_0*+ pi0 PHSP;
0.000005 K- K+ K_0*+ eta PHSP;
0.000002 K- K+ K_0*+ eta' PHSP;
0.000010 K+ K+ K_0*- pi0 PHSP;
0.000005 K+ K+ K_0*- eta PHSP;
0.000002 K+ K+ K_0*- eta' PHSP;
0.000010 K- K+ K_0*0 pi+ PHSP;
0.000010 K+ K+ anti-K_0*0 pi- PHSP;
0.000010 K0 K0 anti-K_0*0 pi+ PHSP;
0.000010 K+ anti-K_0*0 K0 pi0 PHSP;
0.000005 K+ anti-K_0*0 K0 eta PHSP;
0.000002 K+ anti-K_0*0 K0 eta' PHSP;
0.000010 K+ K_0*0 anti-K0 pi0 PHSP;
0.000005 K+ K_0*0 anti-K0 eta PHSP;
0.000002 K+ K_0*0 anti-K0 eta' PHSP;
0.000002 phi K'_10 pi+ PHSP;
0.000002 phi K'_1+ pi0 PHSP;
0.000001 phi K'_1+ eta PHSP;
0.000001 phi K'_1+ eta' PHSP;
0.000002 K- K+ K'_10 pi+ PHSP;
0.000002 K- K+ K'_1+ pi0 PHSP;
0.000001 K- K+ K'_1+ eta PHSP;
0.000001 K- K+ K'_1+ eta' PHSP;
0.000002 K+ K+ K'_1- pi0 PHSP;
0.000002 K+ K+ anti-K'_10 pi- PHSP;
0.000002 K0 anti-K0 K'_10 pi+ PHSP;
0.000002 K0 anti-K0 K'_1+ pi0 PHSP;
0.000001 K0 anti-K0 K'_1+ eta PHSP;
0.000001 K0 anti-K0 K'_1+ eta' PHSP;
0.000002 K0 K0 anti-K'_10 pi+ PHSP;
0.000002 anti-K0 anti-K0 K'_1+ pi0 PHSP;
0.000001 anti-K0 anti-K0 K'_1+ eta PHSP;
0.000001 anti-K0 anti-K0 K'_1+ eta' PHSP;
0.000010 K+ K0 anti-K'_10 pi0 PHSP;
0.000005 K+ K0 anti-K'_10 eta PHSP;
0.000002 K+ K0 anti-K'_10 eta' PHSP;
0.000010 K+ K'_10 anti-K0 pi0 PHSP;
0.000005 K+ K'_10 anti-K0 eta PHSP;
0.000002 K+ K'_10 anti-K0 eta' PHSP;
#--- 5-body phi-phi-K, phi-phi-pi, phi-3K, phi-K-K-pi, 5K, 4K-pi ------------
0.000003 phi phi K+ PHSP;
0.000001 phi phi pi+ PHSP;
0.000001 phi K+ K- K+ PHSP;
0.000001 phi K0 anti-K0 K+ PHSP;
0.000001 phi K0 anti-K0 pi+ PHSP;
0.000001 phi anti-K0 K+ pi0 PHSP;
0.000001 K+ K- K+ K- pi+ PHSP;
0.000001 K+ K- K0 anti-K0 pi+ PHSP;
0.000001 K+ K- K+ anti-K0 pi0 PHSP;
0.000001 K0 anti-K0 anti-K0 K+ pi0 PHSP;
#--- 6-body phi-phi-K*, phi-3Kpi, phi-K-K-2pi ------------
0.000003 phi phi K*+ PHSP;
0.000001 phi K+ K- K*+ PHSP;
0.000001 phi K0 anti-K0 K*+ PHSP;
0.000001 phi anti-K0 K+ K*0 PHSP;
0.000001 phi K+ K- K+ pi0 PHSP;
0.000001 phi K+ K- K0 pi+ PHSP;
0.000001 phi K0 anti-K0 K+ pi0 PHSP;
0.000001 phi K0 anti-K0 K0 pi+ PHSP;
0.000001 phi anti-K0 K+ K+ pi- PHSP;
#--- 6-body a1a1 ------------
0.000050 a_1+ a_10 PHSP;
#
# B -> cc= s sum = 1.92%
#
0.001007 J/psi K+ SVS;
0.00143 J/psi K*+ SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus;
0.000049 J/psi pi+ SVS;
0.00005 J/psi rho+ SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus;
0.0002 J/psi K0 pi+ PHSP;
0.0001 J/psi K+ pi0 PHSP;
#rl0.0007 J/psi K+ pi- pi+ PHSP;
#rl0.00035 J/psi K+ pi0 pi0 PHSP;
#rl0.00035 J/psi K0 pi+ pi0 PHSP;
0.0001 J/psi K'_1+ SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0;
0.0005 J/psi K_2*+ PHSP;
0.0018 J/psi K_1+ SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0;
0.000052 J/psi phi K+ PHSP;
#
0.000648 psi(2S) K+ SVS;
0.00067 psi(2S) K*+ SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus;
0.0004 psi(2S) K0 pi+ PHSP;
0.0002 psi(2S) K+ pi0 PHSP;
0.0019 psi(2S) K+ pi- pi+ PHSP;
0.0001 psi(2S) K+ pi0 pi0 PHSP;
0.0001 psi(2S) K0 pi+ pi0 PHSP;
0.0004 psi(2S) K_1+ PHSP;
#
0.00091 eta_c K+ PHSP;
0.0012 K*+ eta_c SVS;
0.0002 eta_c K0 pi+ PHSP;
0.0001 eta_c K+ pi0 PHSP;
0.0002 eta_c K+ pi- pi+ PHSP;
0.0001 eta_c K+ pi0 pi0 PHSP;
0.0001 eta_c K0 pi+ pi0 PHSP;
#
0.00034 eta_c(2S) K+ PHSP;
0.00048 K*+ eta_c(2S) SVS;
0.00008 eta_c(2S) K0 pi+ PHSP;
0.00005 eta_c(2S) K+ pi0 PHSP;
0.00008 eta_c(2S) K+ pi- pi+ PHSP;
0.00005 eta_c(2S) K+ pi0 pi0 PHSP;
0.00005 eta_c(2S) K0 pi+ pi0 PHSP;
#
0.00014 chi_c0 K+ PHSP;
0.0004 K*+ chi_c0 SVS;
0.0002 chi_c0 K0 pi+ PHSP;
0.0001 chi_c0 K+ pi0 PHSP;
0.0002 chi_c0 K+ pi- pi+ PHSP;
0.0001 chi_c0 K+ pi0 pi0 PHSP;
0.0001 chi_c0 K0 pi+ pi0 PHSP;
#
0.00049 chi_c1 K+ SVS;
0.00036 chi_c1 K*+ SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus;
0.0004 chi_c1 K0 pi+ PHSP;
0.0002 chi_c1 K+ pi0 PHSP;
0.0004 chi_c1 K+ pi- pi+ PHSP;
0.0002 chi_c1 K+ pi0 pi0 PHSP;
0.0002 chi_c1 K0 pi+ pi0 PHSP;
#
0.00002 chi_c2 K+ STS;
0.00002 chi_c2 K*+ PHSP;
0.0002 chi_c2 K0 pi+ PHSP;
0.0001 chi_c2 K+ pi0 PHSP;
0.0002 chi_c2 K+ pi- pi+ PHSP;
0.0001 chi_c2 K+ pi0 pi0 PHSP;
0.0001 chi_c2 K0 pi+ pi0 PHSP;
#
0.00049 psi(3770) K+ SVS;
0.0005 psi(3770) K*+ PHSP;
0.0003 psi(3770) K0 pi+ PHSP;
0.0002 psi(3770) K+ pi0 PHSP;
0.0002 psi(3770) K+ pi- pi+ PHSP;
0.0001 psi(3770) K+ pi0 pi0 PHSP;
0.0001 psi(3770) K0 pi+ pi0 PHSP;
0.0003 psi(3770) K_1+ PHSP;
#
# b -> c (sc=) -> D Ds X Sum = 10%
#
0.0103 anti-D0 D_s+ PHSP;
0.0084 anti-D*0 D_s+ SVS;
0.0078 D_s*+ anti-D0 SVS;
0.0175 D_s*+ anti-D*0 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0006 anti-D'_10 D_s+ SVS;
0.0012 anti-D'_10 D_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0012 anti-D_10 D_s+ SVS;
0.0024 anti-D_10 D_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0042 anti-D_2*0 D_s+ STS;
0.0040 anti-D_2*0 D_s*+ PHSP;
#
#
#
#
#
0.0036 D_s+ D- pi+ PHSP;
0.0018 D_s+ anti-D0 pi0 PHSP;
0.0037 D_s*+ D- pi+ PHSP;
0.0018 D_s*+ anti-D0 pi0 PHSP;
0.0033 D_s+ D- pi+ pi0 PHSP;
0.0033 D_s+ anti-D0 pi+ pi- PHSP;
0.0008 D_s+ anti-D0 pi0 pi0 PHSP;
0.0033 D_s*+ D- pi+ pi0 PHSP;
0.0033 D_s*+ anti-D0 pi+ pi- PHSP;
0.0008 D_s*+ anti-D0 pi0 pi0 PHSP;
#
# b -> c (sc=) -> D D= K X Sum = 8%
# update: Ref. [B1]:
# update October 26, 2004
# External W-emission amplitude
0.0017 anti-D0 D+ K0 PHSP;
0.0052 anti-D0 D*+ K0 PHSP;
0.0031 anti-D*0 D+ K0 PHSP;
0.0078 anti-D*0 D*+ K0 PHSP;
# External+internal W-emission amplitude
0.0021 anti-D0 D0 K+ PHSP;
0.0018 anti-D*0 D0 K+ PHSP;
0.0047 anti-D0 D*0 K+ PHSP;
0.0053 anti-D*0 D*0 K+ PHSP;
# Internal W-emission amplitude (color suppressed modes)
0.0005 D+ D- K+ PHSP;
0.0005 D*+ D- K+ PHSP;
0.0015 D+ D*- K+ PHSP;
0.0015 D*+ D*- K+ PHSP;
#
0.0025 anti-D0 D+ K*0 PHSP;
0.0025 anti-D*0 D+ K*0 PHSP;
0.0025 anti-D0 D*+ K*0 PHSP;
0.0050 anti-D*0 D*+ K*0 PHSP;
#
0.0025 anti-D0 D0 K*+ PHSP;
0.0025 anti-D*0 D0 K*+ PHSP;
0.0025 anti-D0 D*0 K*+ PHSP;
0.0050 anti-D*0 D*0 K*+ PHSP;
#
0.0005 D+ D- K*+ PHSP;
0.0005 D*+ D- K*+ PHSP;
0.0005 D+ D*- K*+ PHSP;
0.0010 D*+ D*- K*+ PHSP;
#
# B->D(*)D(*). See Ref [B1]:
#
0.00042 D+ anti-D0 PHSP;
0.00039 D*+ anti-D0 SVS;
0.00063 anti-D*0 D+ SVS;
0.00081 anti-D*0 D*+ SVV_HELAMP 0.56 0.0 0.96 0.0 0.47 0.0;
#
# B -> D(*) X Exclusive Modes
# October 26, 2004 Lange update
0.00519 anti-D*0 pi+ SVS;
0.00484 anti-D0 pi+ PHSP;
0.0134 rho+ anti-D0 SVS;
# D* rho HELAMP parameters taken from ICHEP 98-852.
0.0098 anti-D*0 rho+ SVV_HELAMP 0.283 1.13 0.932 0.0 0.228 0.95;
#
0.0005 anti-D0 pi0 pi+ PHSP;
0.0005 anti-D*0 pi0 pi+ PHSP;
0.00102 D- pi+ pi+ PHSP;
0.00135 D*- pi+ pi+ PHSP;
#
# D a1 updated Ref. [B1]:
0.004 a_1+ anti-D0 SVS;
0.0042 anti-D0 rho0 pi+ PHSP;
0.0050 anti-D0 pi- pi+ pi+ PHSP;
#
# SVV_HELAMP from factorization, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html:
# updated Ref. [B1]:
# October 26, 2004 Lange update
#
0.019 anti-D*0 a_1+ SVV_HELAMP 0.458 0.0 0.866 0.0 0.200 0.0;
#
0.00042 anti-D*0 rho0 pi+ PHSP;
0.0005 anti-D*0 pi- pi+ pi+ PHSP;
#
0.0020 D- rho+ pi+ PHSP;
0.0020 D- pi0 pi+ pi+ PHSP;
0.0020 D*- rho+ pi+ PHSP;
0.0150 D*- pi0 pi+ pi+ PHSP;
0.0005 anti-D*0 rho+ pi0 PHSP;
0.0005 anti-D*0 pi+ pi0 pi0 PHSP;
#
# B->D** pi and D** rho, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html
#
#
0.000876 anti-D_10 pi+ SVS;
0.0005 anti-D'_10 pi+ SVS;
0.00052 anti-D_2*0 pi+ STS;
0.0007 anti-D_10 rho+ PHSP;
0.0022 anti-D'_10 rho+ PHSP;
0.0038 anti-D_2*0 rho+ PHSP;
0.00061 anti-D_0*0 pi+ PHSP;
#
#
# B->DK, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html:
# update: Ref [B1]:
#
0.000402 anti-D0 K+ PHSP;
0.000416 anti-D*0 K+ SVS;
0.00053 K*+ anti-D0 SVS;
0.00081 anti-D*0 K*+ SVV_HELAMP 0.283 0.0 0.932 0.0 0.228 0.0;
#October 26, 2004 Lange
0.0000005 D+ pi0 PHSP;
0.0000005 D*+ pi0 SVS;
0.000011 D+ anti-K0 PHSP;
0.000006 D*+ anti-K0 SVS;
#
#October 26, 2004 - Lange
0.00075 anti-D0 D_s0*+ PHSP;
0.00090 anti-D*0 D_s0*+ SVS;
0.0031 D_s1+ anti-D0 SVS;
0.0120 anti-D*0 D_s1+ SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0;
#
# Feb 2009
#
0.00055 anti-D0 K+ anti-K0 PHSP;
0.00075 anti-D0 K+ anti-K*0 PHSP;
0.00150 anti-D*0 K+ anti-K*0 PHSP;
#
# Feb 2009
#
0.00275 anti-D0 omega pi+ PHSP;
0.00450 anti-D*0 omega pi+ PHSP;
#
# Feb 2009
#
0.00045 anti-D0 D'_s1+ PHSP;
0.00094 anti-D*0 D'_s1+ PHSP;
#
# Lam_c X / Sigma_c X
#
#0.04000 anti-cd_1 uu_1 PYTHIA 23;
0.0349703 anti-cd_1 uu_1 PYTHIA 23;
#
# Xi_c X 2.4%
#
#0.02400 anti-cs_1 uu_1 PYTHIA 23;
0.0095374 anti-cs_1 uu_1 PYTHIA 23;
#
#
0.238716 u anti-d anti-c u PYTHIA 48;
0.0455674 u anti-d anti-c u PYTHIA 13;
0.0238434 u anti-s anti-c u PYTHIA 13;
#lange - try to crank up the psi production....
0.0784183 c anti-s anti-c u PYTHIA 13;
0.0042388 c anti-d anti-c u PYTHIA 13;
0.0031791 u anti-d anti-u u PYTHIA 48;
0.0042388 c anti-s anti-u u PYTHIA 48;
# JGS 11/5/02 This and similar a few lines above have been divided by two
# to solve a double-counting problem for this channel
0.0021724 u anti-u anti-d u PYTHIA 48;
0.0000742 d anti-d anti-d u PYTHIA 48;
0.0000954 s anti-s anti-d u PYTHIA 48;
0.0023314 u anti-u anti-s u PYTHIA 48;
0.0019075 d anti-d anti-s u PYTHIA 48;
0.0015896 s anti-s anti-s u PYTHIA 48;
0.0052985 anti-s u PYTHIA 32;
####
Enddecay
#-----------------------------------------------------------------
# B references:
#
# [B1]: http://www.slac.stanford.edu/BFROOT/www/Physics/Tools/generators/dec-update/2002/Breco-recommendations.html
#
#-----------------------------------------------------------------
#
#
# B* mesons
#
Decay B*+
1.0000 B+ gamma VSP_PWAVE;
Enddecay
Decay B*-
1.0000 B- gamma VSP_PWAVE;
Enddecay
Decay B*0
1.0000 B0 gamma VSP_PWAVE;
Enddecay
Decay anti-B*0
1.0000 anti-B0 gamma VSP_PWAVE;
Enddecay
Decay B_s*0
1.0000 B_s0 gamma VSP_PWAVE;
Enddecay
Decay anti-B_s*0
1.0000 anti-B_s0 gamma VSP_PWAVE;
Enddecay
#
# B_s decays.
#
#
# To count up the BR for this decay:
# awk ' /^0./{ sum = sum + $1 ;print sum } ' junk.dec
#
# anti-B_s decays.
# -------------------------------------------------------
# whb&fkw 3/28/01 Taken from fkw's QQ tables.
# most dubious part are the B to baryons.
# fkw 4/28/00 made the Bs parallel to the Bd as best as I could
# -------------------------------------------------------
#
# Lange - Nov14 - NOT adjusted for D_s->phipi change
#
Decay anti-B_s0
# b --> c (l nu)
# Sum = 24.5%
-0.0210 D_s+ e- anti-nu_e PHOTOS ISGW2;
-0.0490 D_s*+ e- anti-nu_e PHOTOS ISGW2;
-0.0040 D_s1+ e- anti-nu_e PHOTOS ISGW2;
-0.0040 D_s0*+ e- anti-nu_e PHOTOS ISGW2;
-0.0070 D'_s1+ e- anti-nu_e PHOTOS ISGW2;
-0.0070 D_s2*+ e- anti-nu_e PHOTOS ISGW2;
-#
-0.0210 D_s+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0490 D_s*+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0040 D_s1+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0040 D_s0*+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0070 D'_s1+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0070 D_s2*+ mu- anti-nu_mu PHOTOS ISGW2;
+0.0210 D_s+ e- anti-nu_e FSR ISGW2;
+0.0490 D_s*+ e- anti-nu_e FSR ISGW2;
+0.0040 D_s1+ e- anti-nu_e FSR ISGW2;
+0.0040 D_s0*+ e- anti-nu_e FSR ISGW2;
+0.0070 D'_s1+ e- anti-nu_e FSR ISGW2;
+0.0070 D_s2*+ e- anti-nu_e FSR ISGW2;
+#
+0.0210 D_s+ mu- anti-nu_mu FSR ISGW2;
+0.0490 D_s*+ mu- anti-nu_mu FSR ISGW2;
+0.0040 D_s1+ mu- anti-nu_mu FSR ISGW2;
+0.0040 D_s0*+ mu- anti-nu_mu FSR ISGW2;
+0.0070 D'_s1+ mu- anti-nu_mu FSR ISGW2;
+0.0070 D_s2*+ mu- anti-nu_mu FSR ISGW2;
#
#0.0070 D_s+ tau- anti-nu_tau ISGW2;
#0.0150 D_s*+ tau- anti-nu_tau ISGW2;
#0.0013 D_s1+ tau- anti-nu_tau ISGW2;
#0.0013 D_s0*+ tau- anti-nu_tau ISGW2;
#0.0023 D'_s1+ tau- anti-nu_tau ISGW2;
#0.0023 D_s2*+ tau- anti-nu_tau ISGW2;
# fkw 5/04/01 changed the above to account for the non-res part that I
# had to take out.
0.0080 D_s+ tau- anti-nu_tau ISGW2;
0.0160 D_s*+ tau- anti-nu_tau ISGW2;
0.0018 D_s1+ tau- anti-nu_tau ISGW2;
0.0018 D_s0*+ tau- anti-nu_tau ISGW2;
0.0028 D'_s1+ tau- anti-nu_tau ISGW2;
0.0028 D_s2*+ tau- anti-nu_tau ISGW2;
#
# fkw 4/28/00 the next few are decays where a u\bar u or d\bar d is popped
# between the charm quark and the spectator. I can thus not
# just replace a D by a Ds as above when going from Bd to Bs.
# fkw 5/04/01 Had to take these out because they crash EvtGen.
# Will have to fix this eventually !!!
#0.0010 D*0 K+ tau- anti-nu_tau GOITY_ROBERTS;
#0.0010 D*+ K0 tau- anti-nu_tau GOITY_ROBERTS;
#0.0010 D0 K+ tau- anti-nu_tau GOITY_ROBERTS;
#0.0010 D+ K0 tau- anti-nu_tau GOITY_ROBERTS;
# fkw 4/28/00 B0B -> TAU D PI0 = 1/2 of TAU D PI+ because of pi0 wave function
# However, the same factor of 1/2 doesn't apply to BSB !!!
#
# fkw 3/28/01 There seem to be no semi-leptonic B to baryon decays in nature.
# I don't pretend to understand why. PDG 2000 has a limit of
# < 3.2e-3 where one might naively expect
# 10% * BR(B->/\c) = 0.1 * (6.4+-1.1)%
#0.0050 anti-nu_e e- ??? Baryon
#0.0050 anti-nu_mu mu- ??? Baryon
#
# b --> c (s c=)
# Sum = 11.44%
# 2-body = 4.72%
# more-body = 6.72%
0.0086 D_s- D_s+ PHSP;
0.0099 D_s*+ D_s- SVS;
0.0099 D_s*- D_s+ SVS;
0.0197 D_s*- D_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# fkw 4/28/00 more states with popped q\bar q.
# The one's here involve only popped and spectator.
# Popping stuff in the cs from the W comes further below.
# The same isospin comment applies here as above in the
# semi-leptonic decays with tau and popped q\bar q.
0.0096 D_s- D+ K0 PHSP;
0.0096 D_s- anti-D0 K+ PHSP;
0.0096 D_s*- D+ K0 PHSP;
0.0096 D_s*- D0 K+ PHSP;
#
0.0024 D_s- D+ pi0 K0 PHSP;
0.0048 D_s- D0 pi+ K0 PHSP;
0.0048 D_s- D+ pi- K+ PHSP;
0.0024 D_s- D0 pi0 K+ PHSP;
#
0.0024 D_s*- D+ pi0 K0 PHSP;
0.0048 D_s*- D0 pi+ K0 PHSP;
0.0048 D_s*- D+ pi- K+ PHSP;
0.0024 D_s*- D0 pi0 K+ PHSP;
#
#
# b --> (c ) (c ) (s )
# Sum = 8.0%
# DDK amplitudes R.A.Briere 10/97
# fkw 4/28/00 these are q\bar q popping that don't involve the spectator
# Bd->Bs just involves switching the c\bar d to c\bar s.
#
0.0150 D_s*+ anti-D*0 K- PHSP;
0.0150 D_s*+ D*- anti-K0 PHSP;
#
0.0050 D_s*+ anti-D0 K- PHSP;
0.0050 D_s*+ D- anti-K0 PHSP;
#
0.0050 D_s+ anti-D*0 K- PHSP;
0.0050 D_s+ D*- anti-K0 PHSP;
#
0.0020 D_s+ anti-D0 K- PHSP;
0.0020 D_s+ D- anti-K0 PHSP;
#
0.0030 D_s*+ anti-D*0 K*- PHSP;
0.0030 D_s*+ D*- anti-K*0 PHSP;
#
0.0050 D_s*+ anti-D0 K*- PHSP;
0.0050 D_s*+ D- anti-K*0 PHSP;
#
0.0025 D_s+ anti-D*0 K*- PHSP;
0.0025 D_s+ D*- anti-K*0 PHSP;
#
0.0025 D_s+ anti-D0 K*- PHSP;
0.0025 D_s+ D- anti-K*0 PHSP;
#
#
# b --> c (d c=)
# Sum = 1.0%
0.0017 D_s- D+ PHSP;
0.0017 D*+ D_s- SVS;
0.0017 D_s*- D+ SVS;
0.0017 D_s*- D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# fkw 4/38/00 more popping at the lower vertex
# but with upper vertex cabbibo suppressed.
0.0007 D- D+ K0 PHSP;
0.0007 D- anti-D0 K+ PHSP;
0.0007 D*- D+ K0 PHSP;
0.0007 D*- D0 K+ PHSP;
#
0.0003 D- D+ pi0 K0 PHSP;
0.0007 D- D0 pi+ K0 PHSP;
0.0003 D- D+ pi- K+ PHSP;
0.0007 D- D0 pi0 K+ PHSP;
#
0.0003 D*- D+ pi0 K0 PHSP;
0.0007 D*- D0 pi+ K0 PHSP;
0.0003 D*- D+ pi- K+ PHSP;
0.0007 D*- D0 pi0 K+ PHSP;
#
# b --> c (s u=)
# exclusive
# Sum = 0.09%
0.00015 D_s*+ K- SVS;
0.00015 D_s+ K- PHSP;
0.00030 D_s*+ K*- SVV_HELAMP 0.228 0.0 0.932 0.0 0.0283 0.0;
0.00030 K*- D_s+ SVS;
#
# fkw 4/28/00 Strategy for charmonium modes:
# Take Bd BR's, replace spectator,
# assume etaprime = 2/3 ss
# and eta = 1/3 ss
#
# Note: Just for kicks I gave the c\bar c decays a small piece that is
# self tagging. See if you can find it. This is already in
# the B0 decays in cleo's version of decay.dec .
#
# B --> (c c=) (s s=)
# 2.65%
# should be: psi = 0.80% CLNS 94/1315 but isn't quite right.
0.00064 J/psi eta' SVS;
0.00032 J/psi eta SVS;
0.00135 J/psi phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00008 J/psi K0 SVS;
0.00070 J/psi K- K+ PHSP;
0.00070 J/psi anti-K0 K0 PHSP;
0.00070 J/psi anti-K0 K+ pi- PHSP;
0.00070 J/psi anti-K0 K0 pi0 PHSP;
0.00070 J/psi K- K+ pi0 PHSP;
# LHCb PR 04/02/04 Add (cc) phi n pi(+/0)
0.00039 J/psi phi pi+ pi- PHSP;
0.00039 J/psi phi pi0 pi0 PHSP;
# LHCb PR add (cc) phi eta(') + npi see CDF QQ
0.0002 J/psi eta pi+ pi- PHSP;
0.0002 J/psi eta pi0 pi0 PHSP;
0.0004 J/psi eta' pi+ pi- PHSP;
0.0004 J/psi eta' pi0 pi0 PHSP;
0.0002 J/psi pi+ pi- PHSP;
0.0002 J/psi pi0 pi0 PHSP;
# psi' = 0.34% CLNS 94/1315
#
0.000465 psi(2S) eta' SVS;
0.000235 psi(2S) eta SVS;
0.0012 psi(2S) phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0003 psi(2S) K- K+ PHSP;
0.0003 psi(2S) anti-K0 K0 PHSP;
0.0003 psi(2S) anti-K0 K+ pi- PHSP;
0.0003 psi(2S) anti-K0 K0 pi0 PHSP;
0.0003 psi(2S) K- K+ pi0 PHSP;
0.00034 psi(2S) phi pi+ pi- PHSP;
0.00034 psi(2S) phi pi0 pi0 PHSP;
0.0002 psi(2S) eta pi+ pi- PHSP;
0.0002 psi(2S) eta pi0 pi0 PHSP;
0.0004 psi(2S) eta' pi+ pi- PHSP;
0.0004 psi(2S) eta' pi0 pi0 PHSP;
0.0002 psi(2S) pi+ pi- PHSP;
0.0002 psi(2S) pi0 pi0 PHSP;
#
# chic0 = 0.05% (20% of chic2)
# Bodwin et.al. Phys Rev D46 1992
0.00010 chi_c0 eta' PHSP;
0.00005 chi_c0 eta PHSP;
0.00020 phi chi_c0 SVS;
0.00003 chi_c0 K- K+ PHSP;
0.00003 chi_c0 anti-K0 K0 PHSP;
0.00003 chi_c0 anti-K0 K+ pi- PHSP;
0.00003 chi_c0 anti-K0 K0 pi0 PHSP;
0.00003 chi_c0 K- K+ pi0 PHSP;
#
#
# chic1 = 0.37% CLNS 94/1315
0.0007 chi_c1 eta' SVS;
0.0003 chi_c1 eta SVS;
0.0014 chi_c1 phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00026 chi_c1 K- K+ PHSP;
0.00026 chi_c1 anti-K0 K0 PHSP;
0.00026 chi_c1 anti-K0 K+ pi- PHSP;
0.00026 chi_c1 anti-K0 K0 pi0 PHSP;
0.00026 chi_c1 K- K+ pi0 PHSP;
0.00040 chi_c1 phi pi+ pi- PHSP;
0.00040 chi_c1 phi pi0 pi0 PHSP;
0.0001 chi_c1 eta pi+ pi- PHSP;
0.0001 chi_c1 eta pi0 pi0 PHSP;
0.0002 chi_c1 eta' pi+ pi- PHSP;
0.0002 chi_c1 eta' pi0 pi0 PHSP;
#
#
# chic2 = 0.25% CLNS 94/1315
0.000465 chi_c2 eta' STS;
0.000235 chi_c2 eta STS;
#0.0010 chi_c2 phi STV; whb: model doesn't exist!
0.00016 chi_c2 K- K+ PHSP;
0.00016 chi_c2 anti-K0 K0 PHSP;
0.00016 chi_c2 anti-K0 K+ pi- PHSP;
0.00016 chi_c2 anti-K0 K0 pi0 PHSP;
0.00016 chi_c2 K- K+ pi0 PHSP;
#
#
# etac(1s) = 0.41% Guess: CBX 97-65
#
0.0008 eta_c eta' PHSP;
0.0004 eta_c eta PHSP;
0.0015 phi eta_c SVS;
0.00028 eta_c K- K+ PHSP;
0.00028 eta_c anti-K0 K0 PHSP;
0.00028 eta_c anti-K0 K+ pi- PHSP;
0.00028 eta_c anti-K0 K0 pi0 PHSP;
0.00028 eta_c K- K+ pi0 PHSP;
0.00040 eta_c phi pi+ pi- PHSP;
0.00040 eta_c phi pi0 pi0 PHSP;
0.0001 eta_c eta pi+ pi- PHSP;
0.0001 eta_c eta pi0 pi0 PHSP;
0.0002 eta_c eta' pi+ pi- PHSP;
0.0002 eta_c eta' pi0 pi0 PHSP;
#
#
# etac(2s) = 0.18% Guess: CBX 97-65
0.0004 eta_c(2S) eta' PHSP;
0.0002 eta_c(2S) eta PHSP;
0.0006 phi eta_c(2S) SVS;
0.00012 eta_c(2S) K- K+ PHSP;
0.00012 eta_c(2S) anti-K0 K0 PHSP;
0.00012 eta_c(2S) anti-K0 K+ pi- PHSP;
0.00012 eta_c(2S) anti-K0 K0 pi0 PHSP;
0.00012 eta_c(2S) K- K+ pi0 PHSP;
#
#
# hc = 0.25% (100% of chic2)
# Bodwin et.al. Phys Rev D46 1992
#
0.000465 h_c eta' SVS;
0.000235 h_c eta SVS;
0.0010 h_c phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00016 h_c K- K+ PHSP;
0.00016 h_c anti-K0 K0 PHSP;
0.00016 h_c anti-K0 K+ pi- PHSP;
0.00016 h_c anti-K0 K0 pi0 PHSP;
0.00016 h_c K- K+ pi0 PHSP;
#
#
# b --> c (d u=)
# Exclusive Channels = 6.33%
# fkw 4/28/00 I rearanged this a bit after copying it from
# B0B decay list.
#
# first come the external W-emission decays:
#
0.0008 D_s1+ pi- SVS;
0.0021 D_s1+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0013 D_s2*+ pi- STS;
#0.0037 D_s2*+ rho- STV; # whb: model doesn't exist
#
0.0027 D_s*+ pi- SVS;
0.0026 D_s+ pi- PHSP;
0.0073 rho- D_s+ SVS;
0.0070 D_s*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.0085 a_1- D_s+ SVS;
0.0009 D_s+ rho0 pi- PHSP;
0.0009 D_s+ rho- pi0 PHSP;
0.0009 D_s+ pi+ pi- pi- PHSP;
0.0009 D_s+ pi0 pi- pi0 PHSP;
#
0.0122 D_s*+ a_1- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0010 D_s*+ rho0 pi- PHSP;
0.0010 D_s*+ rho- pi0 PHSP;
0.0077 D_s*+ pi+ pi- pi- PHSP;
0.0010 D_s*+ pi0 pi- pi0 PHSP;
#
# then the color suppressed decays:
#
# fkw 4/28/00 color suppressed modes bumped up by factor 2 from isospin
# i.e. Bs doesn't have the factor 2 suppression Bd has.
0.0002 D*0 K0 SVS;
0.0002 D0 K0 PHSP;
0.0002 K*0 D0 SVS;
0.0002 D*0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# PR LHCb Add p pbar mode
0.000000001 p+ anti-p- PHSP;
# fkw 4/28/00 ignore the internal W emission decays with additional
# q\bar q popping.
#
# Here come the various types of "inclusive unknown" decays:
#
# Start with B to baryons:
# fkw 3/28/01 I don't know what I'm doing here!!! This needs to be checked!!!
# Mark Whitehead 30/4/2010 Weighted PYHTIA to get total BF = 100%
0.01997 cs_0 anti-ud_0 PYTHIA 23;
0.03992 cs_1 anti-ud_1 PYTHIA 23;
#
# Next come external W-emission:
0.3073391615 anti-u d c anti-s PYTHIA 48;
0.049422 anti-u d c anti-s PYTHIA 25;
# Now the internal W-emission:
0.019472 anti-u c d anti-s PYTHIA 48;
# Then some b->u external W-emission with upper vertex charm
0.003992 anti-c s u anti-s PYTHIA 48;
# and finally some cabibbo suppressed external and internal W-emission
0.01498 anti-u s c anti-s PYTHIA 48;
0.0021956 anti-u s c anti-s PYTHIA 25;
0.0008982 anti-u c s anti-s PYTHIA 48;
# and some c cbar d stuff as well as c cbar s
0.00550 anti-c d c anti-s PYTHIA 13;
0.001498 anti-c d c anti-s PYTHIA 13;
# and some miscellaneous charmless stuff
0.0035928 anti-u u d anti-s PYTHIA 48;
0.0006986 anti-d d d anti-s PYTHIA 48;
0.0008982 anti-s s d anti-s PYTHIA 48;
0.001996 anti-u u s anti-s PYTHIA 48;
0.0015968 anti-d d s anti-s PYTHIA 48;
0.0012974 anti-s s s anti-s PYTHIA 48;
0.00499 s anti-s PYTHIA 32;
# fkw 5/10/00 the b->ulnu decays are loosely modelled according to B0 in EvtGen
-0.000200 K+ e- anti-nu_e PHOTOS ISGW2;
-0.000300 K*+ e- anti-nu_e PHOTOS ISGW2;
-0.000300 K_1+ e- anti-nu_e PHOTOS ISGW2;
-0.000200 K'_1+ e- anti-nu_e PHOTOS ISGW2;
+0.000200 K+ e- anti-nu_e FSR ISGW2;
+0.000300 K*+ e- anti-nu_e FSR ISGW2;
+0.000300 K_1+ e- anti-nu_e FSR ISGW2;
+0.000200 K'_1+ e- anti-nu_e FSR ISGW2;
#
#
-0.000200 K+ mu- anti-nu_mu PHOTOS ISGW2;
-0.000300 K*+ mu- anti-nu_mu PHOTOS ISGW2;
-0.000300 K_1+ mu- anti-nu_mu PHOTOS ISGW2;
-0.000200 K'_1+ mu- anti-nu_mu PHOTOS ISGW2;
+0.000200 K+ mu- anti-nu_mu FSR ISGW2;
+0.000300 K*+ mu- anti-nu_mu FSR ISGW2;
+0.000300 K_1+ mu- anti-nu_mu FSR ISGW2;
+0.000200 K'_1+ mu- anti-nu_mu FSR ISGW2;
# -------------
# 2e-3 for charmless semi-leptonic
#***********************************************************
#
# fkw 5/10/00
#
# ideas behind these (largely) made up Br's for charmless
# hadronic B decays:
# (1) any PP and PV modes that are used or calculated
# in globfit code by Hou,Smith,Wuerthwein are taken from
# the latest fit i.e. May2000
# (2) anything else is from Ali,Kramer,Lue
#
# None of this should be taken too serious!
#
#***********************************************************
# Mark Whitehead 30/4/2010 Updated K+K-
# PR LHCb 04/07/04 update BR
0.0000265 K- K+ PHSP;
# PR LHCb 04/07/04 split into KS/KL
0.0000000 anti-K0 K0 PHSP;
0.0000100 K_S0 K_S0 PHSP;
0.0000100 K_L0 K_L0 PHSP;
# PR LHCb 04/07/04 update BR
0.0000048 pi- K+ PHSP;
0.0000002 pi0 K0 PHSP;
# PR LHCb 04/07/04 add Bs->pi+ pi-
0.00000001 pi+ pi- PHSP;
#
0.0000012 omega eta SVS;
0.0000025 omega eta' SVS;
0.0000013 phi eta SVS;
0.0000025 phi eta' SVS;
0.00000008 omega anti-K0 SVS;
0.000000002 phi anti-K0 SVS;
#
#next is just twice PI- RHO0
0.0000250 K*+ pi- SVS;
0.0000120 rho- K+ SVS;
0.00000002 rho0 K0 SVS;
0.00000002 K*0 pi0 SVS;
#
0.0000046 K*- K+ SVS;
# PR LHCb 04/07/04 Split into KS/KL
0.0000000 anti-K*0 K0 SVS;
0.0000020 anti-K*0 K_S0 SVS;
0.0000020 anti-K*0 K_L0 SVS;
0.0000082 K*+ K- SVS;
# PR LHCb 04/07/04 Split into KS/KL
0.0000000 K*0 anti-K0 SVS;
0.0000020 K*0 K_S0 SVS;
0.0000020 K*0 K_L0 SVS;
#
0.0000580 eta' eta' PHSP;
0.0000250 eta' eta PHSP;
0.0000040 eta eta PHSP;
#### Already included above 0.0000200 phi eta SVS;
#### Already included above 0.0000100 phi eta' SVS;
#
#next comes stuff from Ali,Kramer,Lue PRD58, 094009 FOR NC=3
0.00000007 K0 eta' PHSP;
0.00000023 K0 eta PHSP;
0.000000021 K*0 eta' SVS;
0.00000007 K*0 eta SVS;
#
#next comes stuff from Ali,Kramer,Lue PRD58, 094009 FOR NC=3
# for vector-vector final states
0.000020 rho- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0000008 rho0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.000000005 omega K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.000006 K*- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
# PR LHCb 04/07/04 Update BR
0.000004 anti-K*0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.000008 phi phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.000000004 phi K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# decays that go via b->d penguins
#### Already included above 0.0000004 phi K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
# PR LHCb : add Bs -> mu+ mu-
0.0000000035 mu- mu+ PHSP;
#PR LHCb 04/08/2004 add Bs -> tau+ tau- (BR not to take too seriously)
0.0000000020 tau- tau+ PHSP;
# PR LHCb 04/05/2004 : add Bs -> phi gamma
0.000045 phi gamma SVP_HELAMP 1.0 0.0 1.0 0.0;
# PR LHCb 04/08/2004 : add Bs -> phi mu mu, phi e e
0.0000023 phi e- e+ BTOSLLALI;
0.0000023 phi mu- mu+ BTOSLLALI;
# PR LHCb 16 apr 2004 : add Bs -> gamma gamma
0.0000005 gamma gamma PHSP;
#--------------
# 257.122e-6 for all the charmless hadronic
#
Enddecay
#
# B_s decays.
# -------------------------------------------------------
# whb&fkw 3/28/01 Taken from fkw's QQ tables.
# most dubious part are the B to baryons.
# fkw 4/28/00 made the Bs parallel to the Bd as best as I could
# -------------------------------------------------------
Decay B_s0
-0.0210 D_s- e+ nu_e PHOTOS ISGW2;
-0.0490 D_s*- e+ nu_e PHOTOS ISGW2;
-0.0040 D_s1- e+ nu_e PHOTOS ISGW2;
-0.0040 D_s0*- e+ nu_e PHOTOS ISGW2;
-0.0070 D'_s1- e+ nu_e PHOTOS ISGW2;
-0.0070 D_s2*- e+ nu_e PHOTOS ISGW2;
-0.0210 D_s- mu+ nu_mu PHOTOS ISGW2;
-0.0490 D_s*- mu+ nu_mu PHOTOS ISGW2;
-0.0040 D_s1- mu+ nu_mu PHOTOS ISGW2;
-0.0040 D_s0*- mu+ nu_mu PHOTOS ISGW2;
-0.0070 D'_s1- mu+ nu_mu PHOTOS ISGW2;
-0.0070 D_s2*- mu+ nu_mu PHOTOS ISGW2;
+0.0210 D_s- e+ nu_e FSR ISGW2;
+0.0490 D_s*- e+ nu_e FSR ISGW2;
+0.0040 D_s1- e+ nu_e FSR ISGW2;
+0.0040 D_s0*- e+ nu_e FSR ISGW2;
+0.0070 D'_s1- e+ nu_e FSR ISGW2;
+0.0070 D_s2*- e+ nu_e FSR ISGW2;
+0.0210 D_s- mu+ nu_mu FSR ISGW2;
+0.0490 D_s*- mu+ nu_mu FSR ISGW2;
+0.0040 D_s1- mu+ nu_mu FSR ISGW2;
+0.0040 D_s0*- mu+ nu_mu FSR ISGW2;
+0.0070 D'_s1- mu+ nu_mu FSR ISGW2;
+0.0070 D_s2*- mu+ nu_mu FSR ISGW2;
#fkw 5/04/01 changed these to account for taking out non-res
#0.0070 D_s- tau+ nu_tau ISGW2;
#0.0150 D_s*- tau+ nu_tau ISGW2;
#0.0013 D_s1- tau+ nu_tau ISGW2;
#0.0013 D_s0*- tau+ nu_tau ISGW2;
#0.0023 D'_s1- tau+ nu_tau ISGW2;
#0.0023 D_s2*- tau+ nu_tau ISGW2;
0.0080 D_s- tau+ nu_tau ISGW2;
0.0160 D_s*- tau+ nu_tau ISGW2;
0.0018 D_s1- tau+ nu_tau ISGW2;
0.0018 D_s0*- tau+ nu_tau ISGW2;
0.0028 D'_s1- tau+ nu_tau ISGW2;
0.0028 D_s2*- tau+ nu_tau ISGW2;
#
# fkw 4/28/00 the next few are decays where a u\bar u or d\bar d is popped
# between the charm quark and the spectator. I can thus not
# just replace a D by a Ds as above when going from Bd to Bs.
#
# fkw 5/04/01 Had to take non-res out because it crashed EvtGen.
#0.0010 anti-D*0 K- tau+ nu_tau GOITY_ROBERTS;
#0.0010 D*- anti-K0 tau+ nu_tau GOITY_ROBERTS;
#0.0010 anti-D0 K- tau+ nu_tau GOITY_ROBERTS;
#0.0010 D- anti-K0 tau+ nu_tau GOITY_ROBERTS;
# fkw 4/28/00 B0 -> TAU D PI0 = 1/2 of TAU D PI- because of pi0 wave function
# However, the same factor of 1/2 doesn't apply to BS0 !!!
# fkw 3/28/01 There seem to be no semi-leptonic B to baryon decays in nature.
# I don't pretend to understand why. PDG 2000 has a limit of
# < 3.2e-3 where one might naively expect
# 10% * BR(B->/\c) = 0.1 * (6.4+-1.1)%
#0.0050 nu_e e+ B-Baryon
#0.0050 nu_mu mu+ B-Baryon
#
# b --> c (s c=)
# Sum = 11.44%
# 2-body = 4.72%
# more-body = 6.72%
0.0086 D_s- D_s+ PHSP;
0.0099 D_s*+ D_s- SVS;
0.0099 D_s*- D_s+ SVS;
0.0197 D_s*- D_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# fkw 4/28/00 more states with popped q\bar q.
# The one's here involve only popped and spectator.
# Popping stuff in the cs from the W comes further below.
# The same isospin comment applies here as above in the
# semi-leptonic decays with tau and popped q\bar q.
0.0096 D_s+ D- anti-K0 PHSP;
0.0096 D_s+ D0 K- PHSP;
0.0096 D_s*+ D- anti-K0 PHSP;
0.0096 D_s*+ anti-D0 K- PHSP;
#
0.0024 D_s+ D- pi0 anti-K0 PHSP;
0.0048 D_s+ anti-D0 pi- anti-K0 PHSP;
0.0048 D_s+ D- pi+ K- PHSP;
0.0024 D_s+ anti-D0 pi0 K- PHSP;
#
0.0024 D_s*+ D- pi0 anti-K0 PHSP;
0.0048 D_s*+ anti-D0 pi- anti-K0 PHSP;
0.0048 D_s*+ D- pi+ K- PHSP;
0.0024 D_s*+ anti-D0 pi0 K- PHSP;
#
#
# b --> (c ) (c ) (s )
# Sum = 8.0%
# DDK amplitudes R.A.Briere 10/97
# fkw 4/28/00 these are q\bar q popping that don't involve the spectator
# Bd->Bs just involves switching the c\bar d to c\bar s.
#
0.0150 D_s*- D*0 K+ PHSP;
0.0150 D_s*- D*+ K0 PHSP;
0.0050 D_s*- D0 K+ PHSP;
0.0050 D_s*- D+ K0 PHSP;
0.0050 D_s- D*0 K+ PHSP;
0.0050 D_s- D*+ K0 PHSP;
0.0020 D_s- D0 K+ PHSP;
0.0020 D_s- D+ K0 PHSP;
0.0030 D_s*- D*0 K*+ PHSP;
0.0030 D_s*- D*+ K*0 PHSP;
0.0050 D_s*- D0 K*+ PHSP;
0.0050 D_s*- D+ K*0 PHSP;
0.0025 D_s- D*0 K*+ PHSP;
0.0025 D_s- D*+ K*0 PHSP;
0.0025 D_s- D0 K*+ PHSP;
0.0025 D_s- D+ K*0 PHSP;
#
#
# b --> c (d c=)
# Sum = 1.36%
0.0017 D_s+ D- PHSP;
0.0017 D*- D_s+ SVS;
0.0017 D_s*+ D- SVS;
0.0017 D_s*+ D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# fkw 4/38/00 more popping at the lower vertex
# but with upper vertex cabbibo suppressed.
0.0007 D+ D- anti-K0 PHSP;
0.0007 D+ D0 K- PHSP;
0.0007 D*+ D- anti-K0 PHSP;
0.0007 D*+ anti-D0 K- PHSP;
#
0.0003 D+ D- pi0 anti-K0 PHSP;
0.0007 D+ anti-D0 pi- anti-K0 PHSP;
0.0003 D+ D- pi+ K- PHSP;
0.0007 D+ anti-D0 pi0 K- PHSP;
#
0.0003 D*+ D- pi0 anti-K0 PHSP;
0.0007 D*+ anti-D0 pi- anti-K0 PHSP;
0.0003 D*+ D- pi+ K- PHSP;
0.0007 D*+ anti-D0 pi0 K- PHSP;
#
# b --> c (u s=)
# exclusive
# Sum = 0.9%
0.00015 D_s*- K+ SVS;
0.00015 D_s- K+ PHSP;
0.00030 D_s*- K*+ SVV_HELAMP 0.0283 0.0 0.932 0.0 0.228 0.0;
0.00030 K*+ D_s- SVS;
#
# fkw 4/28/00 Strategy for charmonium modes:
# Take Bd BR's, replace spectator,
# assume etaprime = 2/3 ss
# and eta = 1/3 ss
#
# Note: Just for kicks I gave the c\bar c decays a small piece that is
# self tagging. See if you can find it. This is already in
# the B0 decays in cleo's version of decay.dec .
#
# B --> (c c=) (s s=)
# 2.65%
# should be: psi = 0.80% CLNS 94/1315 but isn't quite right.
0.00064 J/psi eta' SVS;
0.00032 J/psi eta SVS;
0.00135 J/psi phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00008 J/psi K0 SVS;
0.00070 J/psi K- K+ PHSP;
0.00070 J/psi anti-K0 K0 PHSP;
0.00070 J/psi K0 K- pi+ PHSP;
0.00070 J/psi anti-K0 K0 pi0 PHSP;
0.00070 J/psi K- K+ pi0 PHSP;
# LHCb PR 04/02/04 Add (cc) phi n pi(+/0)
0.00039 J/psi phi pi+ pi- PHSP;
0.00039 J/psi phi pi0 pi0 PHSP;
# LHCb PR Add (cc) phi eta(') + npi like in CDF QQ
0.0002 J/psi eta pi+ pi- PHSP;
0.0002 J/psi eta pi0 pi0 PHSP;
0.0004 J/psi eta' pi+ pi- PHSP;
0.0004 J/psi eta' pi0 pi0 PHSP;
0.0002 J/psi pi+ pi- PHSP;
0.0002 J/psi pi0 pi0 PHSP;
# psi' = 0.34% CLNS 94/1315
0.000465 psi(2S) eta' SVS;
0.000235 psi(2S) eta SVS;
0.0012 psi(2S) phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0003 psi(2S) K- K+ PHSP;
0.0003 psi(2S) anti-K0 K0 PHSP;
0.0003 psi(2S) K0 K- pi+ PHSP;
0.0003 psi(2S) anti-K0 K0 pi0 PHSP;
0.0003 psi(2S) K- K+ pi0 PHSP;
0.00034 psi(2S) phi pi+ pi- PHSP;
0.00034 psi(2S) phi pi0 pi0 PHSP;
0.0002 psi(2S) eta pi+ pi- PHSP;
0.0002 psi(2S) eta pi0 pi0 PHSP;
0.0004 psi(2S) eta' pi+ pi- PHSP;
0.0004 psi(2S) eta' pi0 pi0 PHSP;
0.0002 psi(2S) pi+ pi- PHSP;
0.0002 psi(2S) pi0 pi0 PHSP;
#
# chic0 = 0.05% (20% of chic2)
# Bodwin et.al. Phys Rev D46 1992
0.00010 chi_c0 eta' PHSP;
0.00005 chi_c0 eta PHSP;
0.00020 phi chi_c0 SVS;
0.00003 chi_c0 K- K+ PHSP;
0.00003 chi_c0 anti-K0 K0 PHSP;
0.00003 chi_c0 K0 K- pi+ PHSP;
0.00003 chi_c0 anti-K0 K0 pi0 PHSP;
0.00003 chi_c0 K- K+ pi0 PHSP;
#
#
# chic1 = 0.37% CLNS 94/1315
0.0007 chi_c1 eta' SVS;
0.0003 chi_c1 eta SVS;
0.0014 chi_c1 phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00026 chi_c1 K- K+ PHSP;
0.00026 chi_c1 anti-K0 K0 PHSP;
0.00026 chi_c1 K0 K- pi+ PHSP;
0.00026 chi_c1 anti-K0 K0 pi0 PHSP;
0.00026 chi_c1 K- K+ pi0 PHSP;
0.00040 chi_c1 phi pi+ pi- PHSP;
0.00040 chi_c1 phi pi0 pi0 PHSP;
0.0001 chi_c1 eta pi+ pi- PHSP;
0.0001 chi_c1 eta pi0 pi0 PHSP;
0.0002 chi_c1 eta' pi+ pi- PHSP;
0.0002 chi_c1 eta' pi0 pi0 PHSP;
#
#
# chic2 = 0.25% CLNS 94/1315
0.000465 chi_c2 eta' STS;
0.000235 chi_c2 eta STS;
#0.0010 chi_c2 phi STV; whb: doesn't exist
0.00016 chi_c2 K- K+ PHSP;
0.00016 chi_c2 anti-K0 K0 PHSP;
0.00016 chi_c2 K0 K- pi+ PHSP;
0.00016 chi_c2 anti-K0 K0 pi0 PHSP;
0.00016 chi_c2 K- K+ pi0 PHSP;
#
#
# etac(1s) = 0.41% Guess: CBX 97-65
0.0008 eta_c eta' PHSP;
0.0004 eta_c eta PHSP;
0.0015 phi eta_c SVS;
0.00028 eta_c K- K+ PHSP;
0.00028 eta_c K0 anti-K0 PHSP;
0.00028 eta_c K0 K- pi+ PHSP;
0.00028 eta_c K0 anti-K0 pi0 PHSP;
0.00028 eta_c K- K+ pi0 PHSP;
0.00040 eta_c phi pi+ pi- PHSP;
0.00040 eta_c phi pi0 pi0 PHSP;
0.0001 eta_c eta pi+ pi- PHSP;
0.0001 eta_c eta pi0 pi0 PHSP;
0.0002 eta_c eta' pi+ pi- PHSP;
0.0002 eta_c eta' pi0 pi0 PHSP;
#
#
# etac(2s) = 0.18% Guess: CBX 97-65
0.0004 eta_c(2S) eta' PHSP;
0.0002 eta_c(2S) eta PHSP;
0.0006 phi eta_c(2S) SVS;
0.00012 eta_c(2S) K- K+ PHSP;
0.00012 eta_c(2S) anti-K0 K0 PHSP;
0.00012 eta_c(2S) K0 K- pi+ PHSP;
0.00012 eta_c(2S) anti-K0 K0 pi0 PHSP;
0.00012 eta_c(2S) K- K+ pi0 PHSP;
#
#
# hc = 0.25% (100% of chic2)
# Bodwin et.al. Phys Rev D46 1992
0.000465 h_c eta' SVS;
0.000235 h_c eta SVS;
0.0010 h_c phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00016 h_c K- K+ PHSP;
0.00016 h_c anti-K0 K0 PHSP;
0.00016 h_c K0 K- pi+ PHSP;
0.00016 h_c anti-K0 K0 pi0 PHSP;
0.00016 h_c K- K+ pi0 PHSP;
#
#
# b --> c (d u=)
# Exclusive Channels = 6.33%
# fkw 4/28/00 I rearanged this a bit after copying it from
# B0B decay list.
#
# first come the external W-emission decays:
#
0.0008 D_s1- pi+ SVS;
0.0021 D_s1- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0013 D_s2*- pi+ STS;
#0.0037 D_s2*- rho+ STV; #whb: STV does not exist yet
#
0.0027 D_s*- pi+ SVS;
0.0026 D_s- pi+ PHSP;
0.0073 rho+ D_s- SVS;
0.0070 D_s*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.0085 a_1+ D_s- SVS;
0.0009 D_s- rho0 pi+ PHSP;
0.0009 D_s- rho+ pi0 PHSP;
0.0009 D_s- pi- pi+ pi+ PHSP;
0.0009 D_s- pi0 pi+ pi0 PHSP;
#
0.0122 D_s*- a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0010 D_s*- rho0 pi+ PHSP;
0.0010 D_s*- rho+ pi0 PHSP;
0.0077 D_s*- pi- pi+ pi+ PHSP;
0.0010 D_s*- pi0 pi+ pi0 PHSP;
#
# then the color suppressed decays:
#
# fkw 4/28/00 color suppressed modes bumped up by factor 2 from isospin
# i.e. Bs doesn't have the factor 2 suppression Bd has.
0.0002 anti-D*0 anti-K0 SVS;
0.0002 anti-D0 anti-K0 PHSP;
0.0002 anti-K*0 anti-D0 SVS;
0.0002 anti-D*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# PR LHCb : add p ppbar mode
0.000000001 p+ anti-p- PHSP;
# fkw 4/28/00 ignore the internal W emission decays with additional
# q\bar q popping.
#
# Here come the various types of "inclusive unknown" decays:
#
# Start with B to baryons:
# fkw 3/28/01 I don't know what I'm doing here!!! This needs to be checked!!!
# Mark Whitehead 30/4/2010 Weight PYTHIA to get Total BF=100%
0.01997 anti-cs_0 ud_0 PYTHIA 23;
0.03992 anti-cs_1 ud_1 PYTHIA 23;
#
# Next come external W-emission:
0.3073391615 u anti-d anti-c s PYTHIA 48;
0.049422 u anti-d anti-c s PYTHIA 25;
# Now the internal W-emission:
0.019472 u anti-c anti-d s PYTHIA 48;
# Then some b->u external W-emission with upper vertex charm
0.003992 c anti-s anti-u s PYTHIA 48;
# and finally some cabibbo suppressed external and internal W-emission
0.01498 u anti-s anti-c s PYTHIA 48;
0.0021956 u anti-s anti-c s PYTHIA 25;
0.0008982 u anti-c anti-s s PYTHIA 48;
# and some c cbar d stuff as well as c cbar s
0.00550 c anti-d anti-c s PYTHIA 13;
0.001498 c anti-d anti-c s PYTHIA 13;
# and some miscellaneous charmless stuff
0.0035928 u anti-u anti-d s PYTHIA 48;
0.0006986 d anti-d anti-d s PYTHIA 48;
0.0008982 s anti-s anti-d s PYTHIA 48;
0.001996 u anti-u anti-s s PYTHIA 48;
0.0015968 d anti-d anti-s s PYTHIA 48;
0.0012974 s anti-s anti-s s PYTHIA 48;
0.00499 anti-s s PYTHIA 32;
# fkw 5/10/00 the b->ulnu decays are loosely modelled according to B0 in EvtGen
-0.000200 K- e+ nu_e PHOTOS ISGW2;
-0.000300 K*- e+ nu_e PHOTOS ISGW2;
-0.000300 K_1- e+ nu_e PHOTOS ISGW2;
-0.000200 K'_1- e+ nu_e PHOTOS ISGW2;
+0.000200 K- e+ nu_e FSR ISGW2;
+0.000300 K*- e+ nu_e FSR ISGW2;
+0.000300 K_1- e+ nu_e FSR ISGW2;
+0.000200 K'_1- e+ nu_e FSR ISGW2;
#
#
-0.000200 K- mu+ nu_mu PHOTOS ISGW2;
-0.000300 K*- mu+ nu_mu PHOTOS ISGW2;
-0.000300 K_1- mu+ nu_mu PHOTOS ISGW2;
-0.000200 K'_1- mu+ nu_mu PHOTOS ISGW2;
+0.000200 K- mu+ nu_mu FSR ISGW2;
+0.000300 K*- mu+ nu_mu FSR ISGW2;
+0.000300 K_1- mu+ nu_mu FSR ISGW2;
+0.000200 K'_1- mu+ nu_mu FSR ISGW2;
# -------------
# 2e-3 for charmless semi-leptonic
#***********************************************************
#
# fkw 5/10/00
#
# ideas behind these (largely) made up Br's for charmless
# hadronic B decays:
# (1) any PP and PV modes that are used or calculated
# in globfit code by Hou,Smith,Wuerthwein are taken from
# the latest fit i.e. May2000
# (2) anything else is from Ali,Kramer,Lue
#
# None of this should be taken too serious!
#
#***********************************************************
# Mark Whitehead 30/4/2010 Update K+K-
# PR LHCb update Br Bs -> K- K+
0.0000265 K- K+ PHSP;
# PR LHCb 4/07/04 Split in KS/KL
0.0000000 anti-K0 K0 PHSP;
0.0000100 K_S0 K_S0 PHSP;
0.0000100 K_L0 K_L0 PHSP;
#
0.0000048 pi+ K- PHSP;
0.0000002 pi0 anti-K0 PHSP;
# PR LHCb 4/07/04 add Bs -> pi+ pi-
0.00000001 pi+ pi- PHSP;
#
0.0000012 omega eta SVS;
0.0000025 omega eta' SVS;
0.0000013 phi eta SVS;
0.0000025 phi eta' SVS;
0.00000008 omega K0 SVS;
0.000000002 phi K0 SVS;
#
0.0000250 K*- pi+ SVS;
0.0000120 rho+ K- SVS;
0.00000002 rho0 K0 SVS;
0.00000002 anti-K*0 pi0 SVS;
#
0.0000046 K*+ K- SVS;
# PR LHCb 4/07/04 split in KS/KL
0.0000000 K*0 anti-K0 SVS;
0.0000020 K*0 K_S0 SVS;
0.0000020 K*0 K_L0 SVS;
0.0000082 K*- K+ SVS;
# PR LHCb 4/07/04 split in KS/KL
0.0000000 anti-K*0 K0 SVS;
0.0000020 anti-K*0 K_S0 SVS;
0.0000020 anti-K*0 K_L0 SVS;
#
0.0000580 eta' eta' PHSP;
0.0000250 eta' eta PHSP;
0.0000040 eta eta PHSP;
### Already included above 0.0000200 phi eta SVS;
### Already included above 0.0000100 phi eta' SVS;
#
#next comes stuff from Ali,Kramer,Lue PRD58, 094009 FOR NC=3
0.00000007 anti-K0 eta' PHSP;
0.00000023 anti-K0 eta PHSP;
0.000000021 anti-K*0 eta' SVS;
0.00000007 anti-K*0 eta SVS;
#
#next comes stuff from Ali,Kramer,Lue PRD58, 094009 FOR NC=3
# for vector-vector final states
0.000020 rho+ K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0000008 rho0 anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.000000005 omega anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.000006 K*- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
# PR LHCb Update BR
0.000004 anti-K*0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.000008 phi phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.000000004 phi anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# decays that go via b->d penguins
#### Already included above 0.0000004 phi anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#PR LHCb add Bs -> mu+ mu-
0.0000000035 mu+ mu- PHSP;
#PR LHCb 04/08/2004 add Bs -> tau+ tau- (BR not to take too seriously)
0.0000000020 tau+ tau- PHSP;
# PR LHCb 04/05/2004 : add Bs -> phi gamma
0.000045 phi gamma SVP_HELAMP 1.0 0.0 1.0 0.0;
# PR LHCb 04/08/2004 : add Bs -> phi mu mu, phi e e
0.0000023 phi e+ e- BTOSLLALI;
0.0000023 phi mu+ mu- BTOSLLALI;
# PR LHCb 16 Apr 2004 : add Bs -> gamma gamma
0.0000005 gamma gamma PHSP;
#--------------
# 257.122e-6 for all the charmless hadronic
#
Enddecay
# whb: QQ B_c included- Near end of File
#Decay B_c-
#CHANNEL 0 0.0700 TAU- NUTB
#CHANNEL 1 0.1100 NUEB E- *CC*
#CHANNEL 1 0.1100 NUMB MU- *CC*
#CHANNEL 1 0.0300 NUTB TAU- *CC*
#CHANNEL 0 0.3400 *DU* *CC*
#CHANNEL 0 0.0700 *SC* *CC*
#CHANNEL 0 0.2700 *SC*
#0.0700 tau- anti-nu_tau PHSP;
#0.1100 anti-nu_e e- *CC* Simpleleptonic;
#0.1100 anti-nu_mu mu- *CC* Simple leptonic;
#0.0300 anti-nu_tau tau- *CC* Simple leptonic;
#0.3400 *DU* *CC* PHSP;
#0.0700 *SC* *CC* PHSP;
#0.2700 *SC* PHSP;
#Enddecay
#
#Decay B_c+
#CHANNEL 0 0.0700 TAU+ NUT
#CHANNEL 1 0.1100 NUE E+ *CC*
#CHANNEL 1 0.1100 NUM MU+ *CC*
#CHANNEL 1 0.0300 NUT TAU+ *CC*
#CHANNEL 0 0.3400 *UD* *CC*
#CHANNEL 0 0.0700 *CS* *CC*
#CHANNEL 0 0.2700 *CS*
#0.0700 tau+ nu_tau PHSP;
#0.1100 nu_e E+ *CC* Simple leptonic;
#0.1100 nu_mu mu+ *CC* Simple leptonic;
#0.0300 nu_tau tau+ *CC* Simple leptonic;
#0.3400 *UD* *CC* PHSP;
#0.0700 *CS* *CC* PHSP;
#0.2700 *CS* PHSP;
#Enddecay
#
# Updated to PDG 2008
#
Decay tau-
-0.1781 e- anti-nu_e nu_tau PHOTOS TAULNUNU;
-0.1732 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU;
+0.1781 e- anti-nu_e nu_tau FSR TAULNUNU;
+0.1732 mu- anti-nu_mu nu_tau FSR TAULNUNU;
0.1085 pi- nu_tau TAUSCALARNU;
0.00676 K- nu_tau TAUSCALARNU;
0.2544 pi- pi0 nu_tau TAUHADNU -0.108 0.775 0.149 1.364 0.400;
0.0013 nu_tau gamma pi- pi0 PYTHIA 41;
0.09171 pi0 pi0 pi- nu_tau TAUHADNU -0.108 0.775 0.149 1.364 0.400 1.23 0.4;
0.000446 nu_tau K- pi0 pi0 PYTHIA 41;
0.00984 nu_tau pi- pi0 pi0 pi0 PYTHIA 41;
0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP;
#0.2515 rho- nu_tau TAUVECTORNU;
#0.1790 a_1- nu_tau TAUVECTORNU;
# Modes with K0s
#
0.00037 nu_tau pi- anti-K0 PYTHIA 41;
0.00145 nu_tau K- K0 PYTHIA 41;
0.00138 nu_tau K0 pi- anti-K0 PYTHIA 41;
0.00142 nu_tau K- pi0 K0 PYTHIA 41;
0.00358 nu_tau pi- anti-K0 pi0 PYTHIA 41;
# 3 Charged Particles
#
0.09264 pi- pi- pi+ nu_tau TAUHADNU -0.108 0.775 0.149 1.364 0.400 1.23 0.4;
0.04562 nu_tau pi- pi+ pi- pi0 PYTHIA 41;
0.00058 nu_tau pi- pi- pi+ pi0 pi0 PHSP;
0.00018 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP;
0.00328 nu_tau K- pi+ pi- PYTHIA 41;
0.00124 nu_tau K- pi+ pi- pi0 PYTHIA 41;
0.00136 nu_tau K- pi- K+ PYTHIA 41;
0.000014 nu_tau K- K+ K- PYTHIA 41;
# 5 Charged Particles
#
0.00081 nu_tau pi- pi- pi- pi+ pi+ PHSP;
0.00015 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP;
# Misc other modes
#
0.01144 K*- nu_tau TAUVECTORNU;
0.00157 nu_tau eta pi- pi0 PYTHIA 41;
0.00370 nu_tau pi- omega pi0 PYTHIA 41;
0.00032 nu_tau K- omega PYTHIA 41;
0.00180 anti-K*0 pi- nu_tau PHSP;
0.00178 K*0 K- nu_tau PHSP;
0.00003 phi pi- nu_tau PHSP;
0.00003 phi K- nu_tau PHSP;
Enddecay
#
CDecay tau+
#
# Vector Mesons Updated PDG 2008
#
Decay D*+
0.6770 D0 pi+ VSS;
0.3070 D+ pi0 VSS;
0.0160 D+ gamma VSP_PWAVE;
Enddecay
Decay D*-
0.6770 anti-D0 pi- VSS;
0.3070 D- pi0 VSS;
0.0160 D- gamma VSP_PWAVE;
Enddecay
Decay D*0
0.6190 D0 pi0 VSS;
0.3810 D0 gamma VSP_PWAVE;
Enddecay
Decay anti-D*0
0.6190 anti-D0 pi0 VSS;
0.3810 anti-D0 gamma VSP_PWAVE;
Enddecay
#
Decay D_s*+
0.942 D_s+ gamma VSP_PWAVE;
0.058 D_s+ pi0 VSS;
Enddecay
Decay D_s*-
0.942 D_s- gamma VSP_PWAVE;
0.058 D_s- pi0 VSS;
Enddecay
#
#
# D+ Meson
#
Decay D+
-0.05423 anti-K*0 e+ nu_e PHOTOS ISGW2;
-0.08491 anti-K0 e+ nu_e PHOTOS ISGW2;
-0.00360 anti-K_10 e+ nu_e PHOTOS ISGW2;
-0.00380 anti-K_2*0 e+ nu_e PHOTOS ISGW2;
-0.00440 pi0 e+ nu_e PHOTOS ISGW2;
-0.00260 eta e+ nu_e PHOTOS ISGW2;
-0.00050 eta' e+ nu_e PHOTOS ISGW2;
-0.00211 rho0 e+ nu_e PHOTOS ISGW2;
-0.00147 omega e+ nu_e PHOTOS ISGW2;
-0.00440 K- pi+ e+ nu_e PHOTOS PHSP;
-0.00140 anti-K0 pi0 e+ nu_e PHOTOS PHSP;
-#
-0.05314 anti-K*0 mu+ nu_mu PHOTOS ISGW2;
-0.09126 anti-K0 mu+ nu_mu PHOTOS ISGW2;
-0.00360 anti-K_10 mu+ nu_mu PHOTOS ISGW2;
-0.00380 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2;
-0.00430 pi0 mu+ nu_mu PHOTOS ISGW2;
-0.00260 eta mu+ nu_mu PHOTOS ISGW2;
-0.00050 eta' mu+ nu_mu PHOTOS ISGW2;
-0.00231 rho0 mu+ nu_mu PHOTOS ISGW2;
-0.00280 omega mu+ nu_mu PHOTOS ISGW2;
-0.00210 K- pi+ mu+ nu_mu PHOTOS PHSP;
-0.00140 anti-K0 pi0 mu+ nu_mu PHOTOS PHSP;
-#
-#
-0.00042 mu+ nu_mu PHOTOS SLN;
+0.05423 anti-K*0 e+ nu_e FSR ISGW2;
+0.08491 anti-K0 e+ nu_e FSR ISGW2;
+0.00360 anti-K_10 e+ nu_e FSR ISGW2;
+0.00380 anti-K_2*0 e+ nu_e FSR ISGW2;
+0.00440 pi0 e+ nu_e FSR ISGW2;
+0.00260 eta e+ nu_e FSR ISGW2;
+0.00050 eta' e+ nu_e FSR ISGW2;
+0.00211 rho0 e+ nu_e FSR ISGW2;
+0.00147 omega e+ nu_e FSR ISGW2;
+0.00440 K- pi+ e+ nu_e FSR PHSP;
+0.00140 anti-K0 pi0 e+ nu_e FSR PHSP;
+#
+0.05314 anti-K*0 mu+ nu_mu FSR ISGW2;
+0.09126 anti-K0 mu+ nu_mu FSR ISGW2;
+0.00360 anti-K_10 mu+ nu_mu FSR ISGW2;
+0.00380 anti-K_2*0 mu+ nu_mu FSR ISGW2;
+0.00430 pi0 mu+ nu_mu FSR ISGW2;
+0.00260 eta mu+ nu_mu FSR ISGW2;
+0.00050 eta' mu+ nu_mu FSR ISGW2;
+0.00231 rho0 mu+ nu_mu FSR ISGW2;
+0.00280 omega mu+ nu_mu FSR ISGW2;
+0.00210 K- pi+ mu+ nu_mu FSR PHSP;
+0.00140 anti-K0 pi0 mu+ nu_mu FSR PHSP;
+#
+#
+0.00042 mu+ nu_mu FSR SLN;
0.00100 tau+ nu_tau SLN;
#
0.01440 K_S0 pi+ PHSP;
0.01449 K_L0 pi+ PHSP;
0.00000 anti-K0 pi+ PHSP;
#
0.03369 a_1+ K_S0 SVS;
0.03369 a_1+ K_L0 SVS;
0.00000 a_1+ anti-K0 SVS;
#
0.03517 anti-K'_10 pi+ SVS;
#0.0115 anti-K_0*0N pi+ PHSP;
0.01738 anti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# the Dalitz mode below includes K*bar(892)0 pi+,
# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances.
0.09174 K- pi+ pi+ D_DALITZ;
# the Dalitz mode below includes K0bar rho+,
# and K*bar(892)0 pi+ resonances
0.06691 K_S0 pi+ pi0 D_DALITZ;
0.06691 K_L0 pi+ pi0 D_DALITZ;
0.00000 anti-K0 pi+ pi0 D_DALITZ;
#0.0100 anti-K0 eta pi+ PHSP;
#
0.00162 K_S0 rho0 pi+ PHSP;
0.00162 K_L0 rho0 pi+ PHSP;
0.00000 anti-K0 rho0 pi+ PHSP;
#
0.00500 anti-K0 omega pi+ PHSP;
0.00913 K- rho+ pi+ PHSP;
0.01204 K*- pi+ pi+ PHSP;
0.06126 anti-K*0 pi0 pi+ PHSP;
#0.0100 anti-K*0 eta pi+ PHSP;
0.00143 anti-K*0 rho0 pi+ PHSP;
0.00500 anti-K*0 omega pi+ PHSP;
#0.0100 K*- rho+ pi+ PHSP;
#
0.0110 K- pi+ pi+ pi0 PHSP;
#
0.00321 K_S0 pi+ pi+ pi- PHSP;
0.00321 K_L0 pi+ pi+ pi- PHSP;
0.00000 anti-K0 pi+ pi+ pi- PHSP;
#
#0.0188 anti-K0 pi+ pi0 pi0 PHSP;
0.00330 K- pi+ pi+ pi+ pi- PHSP;
0.00500 K- pi+ pi+ pi0 pi0 PHSP;
0.00870 anti-K0 pi+ pi+ pi- pi0 PHSP;
0.00350 anti-K0 pi+ pi0 pi0 pi0 PHSP;
#
0.00404 K_S0 K_S0 K+ PHSP;
0.00404 K_L0 K_L0 K+ PHSP;
0.00000 anti-K0 anti-K0 K+ PHSP;
#
0.00605 phi pi+ SVS;
0.02082 phi pi+ pi0 PHSP;
#
0.00285 K_S0 K+ PHSP;
0.00285 K_L0 K+ PHSP;
0.00000 anti-K0 K+ PHSP;
#
0.00283 anti-K*0 K+ SVS;
#
0.01447 K*+ K_S0 SVS;
0.01447 K*+ K_L0 SVS;
0.00000 K*+ anti-K0 SVS;
#
#0.0180 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00367 K+ K- pi+ PHSP;
0.00100 K+ anti-K0 pi0 PHSP;
0.00000 anti-K0 K0 pi+ PHSP;
0.00100 K*+ K- pi+ PHSP;
0.00100 K+ K*- pi+ PHSP;
0.00100 K*+ anti-K0 pi0 PHSP;
0.00100 K+ anti-K*0 pi0 PHSP;
0.00100 anti-K*0 K0 pi+ PHSP;
0.00100 anti-K0 K*0 pi+ PHSP;
#
0.00123 pi0 pi+ PHSP;
0.00079 rho0 pi+ SVS;
0.00239 pi+ pi+ pi- PHSP;
0.00451 pi+ pi0 pi0 PHSP;
0.01132 pi+ pi+ pi- pi0 PHSP;
0.00500 pi+ pi0 pi0 pi0 PHSP;
0.00334 eta pi+ PHSP;
0.00488 eta' pi+ PHSP;
0.00300 eta pi+ pi0 PHSP;
0.00300 eta pi+ pi+ pi- PHSP;
0.00200 eta pi+ pi0 pi0 PHSP;
#lange jul22,2002
0.00160 pi+ pi+ pi+ pi- pi- PHSP;
#
# March 2009 New Modes
0.00870 anti-K*0 a_1+ PHSP;
0.01369 K+ K- pi+ pi0 PHSP;
#
0.00165 K+ K_S0 pi+ pi- PHSP;
0.00165 K+ K_L0 pi+ pi- PHSP;
0.00000 K+ anti-K0 pi+ pi- PHSP;
#
0.00228 K_S0 K- pi+ pi+ PHSP;
0.00228 K_L0 K- pi+ pi+ PHSP;
0.00000 K0 K- pi+ pi+ PHSP;
#
0.00021 K+ K- pi+ pi+ pi- PHSP;
#
0.00021 K+ K- K_S0 pi+ PHSP;
0.00021 K+ K- K_L0 pi+ PHSP;
0.00000 K+ K- anti-K0 pi+ PHSP;
# Doubly Cabibbo suppressed modes
0.00023 K+ pi0 PHSP;
0.00060 K+ pi+ pi- PHSP;
0.00009 K+ K+ K- PHSP;
Enddecay
#
#
Decay D-
-0.05423 K*0 e- anti-nu_e PHOTOS ISGW2;
-0.08491 K0 e- anti-nu_e PHOTOS ISGW2;
-0.00360 K_10 e- anti-nu_e PHOTOS ISGW2;
-0.00380 K_2*0 e- anti-nu_e PHOTOS ISGW2;
-0.00440 pi0 e- anti-nu_e PHOTOS ISGW2;
-0.00260 eta e- anti-nu_e PHOTOS ISGW2;
-0.00050 eta' e- anti-nu_e PHOTOS ISGW2;
-0.00211 rho0 e- anti-nu_e PHOTOS ISGW2;
-0.00147 omega e- anti-nu_e PHOTOS ISGW2;
-0.00440 K+ pi- e- anti-nu_e PHOTOS PHSP;
-0.00140 K0 pi0 e- anti-nu_e PHOTOS PHSP;
-#
-0.05314 K*0 mu- anti-nu_mu PHOTOS ISGW2;
-0.09126 K0 mu- anti-nu_mu PHOTOS ISGW2;
-0.00360 K_10 mu- anti-nu_mu PHOTOS ISGW2;
-0.00380 K_2*0 mu- anti-nu_mu PHOTOS ISGW2;
-0.00430 pi0 mu- anti-nu_mu PHOTOS ISGW2;
-0.00260 eta mu- anti-nu_mu PHOTOS ISGW2;
-0.00050 eta' mu- anti-nu_mu PHOTOS ISGW2;
-0.00231 rho0 mu- anti-nu_mu PHOTOS ISGW2;
-0.00280 omega mu- anti-nu_mu PHOTOS ISGW2;
-0.00210 K+ pi- mu- anti-nu_mu PHOTOS PHSP;
-0.00140 K0 pi0 mu- anti-nu_mu PHOTOS PHSP;
-#
-0.00042 mu- anti-nu_mu PHOTOS SLN;
+0.05423 K*0 e- anti-nu_e FSR ISGW2;
+0.08491 K0 e- anti-nu_e FSR ISGW2;
+0.00360 K_10 e- anti-nu_e FSR ISGW2;
+0.00380 K_2*0 e- anti-nu_e FSR ISGW2;
+0.00440 pi0 e- anti-nu_e FSR ISGW2;
+0.00260 eta e- anti-nu_e FSR ISGW2;
+0.00050 eta' e- anti-nu_e FSR ISGW2;
+0.00211 rho0 e- anti-nu_e FSR ISGW2;
+0.00147 omega e- anti-nu_e FSR ISGW2;
+0.00440 K+ pi- e- anti-nu_e FSR PHSP;
+0.00140 K0 pi0 e- anti-nu_e FSR PHSP;
+#
+0.05314 K*0 mu- anti-nu_mu FSR ISGW2;
+0.09126 K0 mu- anti-nu_mu FSR ISGW2;
+0.00360 K_10 mu- anti-nu_mu FSR ISGW2;
+0.00380 K_2*0 mu- anti-nu_mu FSR ISGW2;
+0.00430 pi0 mu- anti-nu_mu FSR ISGW2;
+0.00260 eta mu- anti-nu_mu FSR ISGW2;
+0.00050 eta' mu- anti-nu_mu FSR ISGW2;
+0.00231 rho0 mu- anti-nu_mu FSR ISGW2;
+0.00280 omega mu- anti-nu_mu FSR ISGW2;
+0.00210 K+ pi- mu- anti-nu_mu FSR PHSP;
+0.00140 K0 pi0 mu- anti-nu_mu FSR PHSP;
+#
+0.00042 mu- anti-nu_mu FSR SLN;
0.00100 tau- anti-nu_tau SLN;
#
0.01440 K_S0 pi- PHSP;
0.01449 K_L0 pi- PHSP;
0.00000 K0 pi- PHSP;
#
0.03369 a_1- K_S0 SVS;
0.03369 a_1- K_L0 SVS;
0.00000 a_1- K0 SVS;
#
0.03517 K'_10 pi- SVS;
#0.0115 K_0*0N pi- PHSP;
0.01738 K*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# the Dalitz mode below includes K*(892)0 pi-, K*(1430)0 pi-, and K*(1680)0 pi- resonances.
0.09174 K+ pi- pi- D_DALITZ;
# the Dalitz mode below includes K0 rho-, and K*(892)0 pi- resonances.
0.06691 K_S0 pi- pi0 D_DALITZ;
0.06691 K_L0 pi- pi0 D_DALITZ;
0.00000 K0 pi- pi0 D_DALITZ;
#
#0.0100 K0 eta pi- PHSP;
0.00162 K_S0 rho0 pi- PHSP;
0.00162 K_L0 rho0 pi- PHSP;
0.00000 K0 rho0 pi- PHSP;
#
0.00500 K0 omega pi- PHSP;
0.00913 K+ rho- pi- PHSP;
0.01204 K*+ pi- pi- PHSP;
0.06126 K*0 pi0 pi- PHSP;
#0.0100 K*0 eta pi- PHSP;
0.00143 K*0 rho0 pi- PHSP;
0.00500 K*0 omega pi- PHSP;
#0.0100 K*+ rho- pi- PHSP;
#
0.01100 K+ pi- pi- pi0 PHSP;
#
0.00321 K_S0 pi- pi- pi+ PHSP;
0.00321 K_L0 pi- pi- pi+ PHSP;
0.00000 K0 pi- pi- pi+ PHSP;
#
#0.0188 K0 pi- pi0 pi0 PHSP;
0.00330 K+ pi- pi- pi- pi+ PHSP;
0.00500 K+ pi- pi- pi0 pi0 PHSP;
0.00870 K0 pi- pi- pi+ pi0 PHSP;
0.00350 K0 pi- pi0 pi0 pi0 PHSP;
#
0.00404 K_S0 K_S0 K- PHSP;
0.00404 K_L0 K_L0 K- PHSP;
0.00000 K0 K0 K- PHSP;
#
0.00605 phi pi- SVS;
0.02082 phi pi- pi0 PHSP;
#
0.00285 K_S0 K- PHSP;
0.00285 K_L0 K- PHSP;
0.00000 K0 K- PHSP;
#
0.00283 K*0 K- SVS;
#
0.01447 K*- K_S0 SVS;
0.01447 K*- K_L0 SVS;
0.00000 K*- K0 SVS;
#
#0.0180 K*0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00367 K- K+ pi- PHSP;
0.00100 K- K0 pi0 PHSP;
0.00000 anti-K0 K0 pi- PHSP;
0.00100 K*- K+ pi- PHSP;
0.00100 K- K*+ pi- PHSP;
0.00100 K*- K0 pi0 PHSP;
0.00100 K- K*0 pi0 PHSP;
0.00100 K*0 anti-K0 pi- PHSP;
0.00100 K0 anti-K*0 pi- PHSP;
#
0.00123 pi0 pi- PHSP;
0.00079 rho0 pi- SVS;
0.00239 pi- pi+ pi- PHSP;
0.00451 pi- pi0 pi0 PHSP;
0.01132 pi- pi+ pi- pi0 PHSP;
0.00500 pi- pi0 pi0 pi0 PHSP;
0.00334 eta pi- PHSP;
0.00488 eta' pi- PHSP;
0.00300 eta pi- pi0 PHSP;
0.00300 eta pi- pi+ pi- PHSP;
0.00200 eta pi- pi0 pi0 PHSP;
#lange jul22,2002
0.00160 pi+ pi- pi+ pi- pi- PHSP;
#
# March 2009 New Modes
0.00870 K*0 a_1- PHSP;
0.01369 K+ K- pi- pi0 PHSP;
#
0.00165 K- K_S0 pi+ pi- PHSP;
0.00165 K- K_L0 pi+ pi- PHSP;
0.00000 K- K0 pi+ pi- PHSP;
#
0.00228 K_S0 K+ pi- pi- PHSP;
0.00228 K_L0 K+ pi- pi- PHSP;
0.00000 anti-K0 K+ pi- pi- PHSP;
#
0.00021 K+ K- pi+ pi- pi- PHSP;
#
0.00021 K+ K- K_S0 pi- PHSP;
0.00021 K+ K- K_L0 pi- PHSP;
0.00000 K+ K- K0 pi- PHSP;
# Doubly Cabibbo suppressed modes
0.00023 K- pi0 PHSP;
0.00060 K- pi+ pi- PHSP;
0.00009 K- K+ K- PHSP;
Enddecay
#
Decay K*BR
1.0000 anti-K0 pi0 VSS;
Enddecay
#
#
Decay D0
# updated according to suggestions by P. Roudeau,
# using PDG2004 measurements and imposing the equality
# of sl partial widths for D+ and D0.
# Include additional decay anti-K0 pi- e+ nu_e , K- pi0 e+ nu_e.
#
-0.02228 K*- e+ nu_e PHOTOS ISGW2;
-0.03598 K- e+ nu_e PHOTOS ISGW2;
-0.00089 K_1- e+ nu_e PHOTOS ISGW2;
-0.00150 K_2*- e+ nu_e PHOTOS ISGW2;
-0.00288 pi- e+ nu_e PHOTOS ISGW2;
-0.00202 rho- e+ nu_e PHOTOS ISGW2;
-0.02970 anti-K0 pi- e+ nu_e PHOTOS PHSP;
-0.01990 K- pi0 e+ nu_e PHOTOS PHSP;
-#
-0.02085 K*- mu+ nu_mu PHOTOS ISGW2;
-0.03350 K- mu+ nu_mu PHOTOS ISGW2;
-0.00089 K_1- mu+ nu_mu PHOTOS ISGW2;
-0.00150 K_2*- mu+ nu_mu PHOTOS ISGW2;
-0.00244 pi- mu+ nu_mu PHOTOS ISGW2;
-0.00220 rho- mu+ nu_mu PHOTOS ISGW2;
-0.00110 anti-K0 pi- mu+ nu_mu PHOTOS PHSP;
-0.00060 K- pi0 mu+ nu_mu PHOTOS PHSP;
+0.02228 K*- e+ nu_e FSR ISGW2;
+0.03598 K- e+ nu_e FSR ISGW2;
+0.00089 K_1- e+ nu_e FSR ISGW2;
+0.00150 K_2*- e+ nu_e FSR ISGW2;
+0.00288 pi- e+ nu_e FSR ISGW2;
+0.00202 rho- e+ nu_e FSR ISGW2;
+0.02970 anti-K0 pi- e+ nu_e FSR PHSP;
+0.01990 K- pi0 e+ nu_e FSR PHSP;
+#
+0.02085 K*- mu+ nu_mu FSR ISGW2;
+0.03350 K- mu+ nu_mu FSR ISGW2;
+0.00089 K_1- mu+ nu_mu FSR ISGW2;
+0.00150 K_2*- mu+ nu_mu FSR ISGW2;
+0.00244 pi- mu+ nu_mu FSR ISGW2;
+0.00220 rho- mu+ nu_mu FSR ISGW2;
+0.00110 anti-K0 pi- mu+ nu_mu FSR PHSP;
+0.00060 K- pi0 mu+ nu_mu FSR PHSP;
#
0.03900 K- pi+ PHSP;
#
0.01238 K_S0 pi0 PHSP;
0.01210 K_L0 pi0 PHSP;
0.00000 anti-K0 pi0 PHSP;
#
0.00415 K_S0 eta PHSP;
0.00415 K_L0 eta PHSP;
0.00000 anti-K0 eta PHSP;
#
0.00980 K_S0 eta' PHSP;
0.00980 K_L0 eta' PHSP;
0.00000 anti-K0 eta' PHSP;
#
0.01190 omega K_S0 SVS;
0.01190 omega K_L0 SVS;
0.00000 omega anti-K0 SVS;
#
0.00175 anti-K*0 eta SVS;
0.00100 anti-K*0 eta' SVS;
0.08130 a_1+ K- SVS;
0.07380 K*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.01685 anti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.01250 anti-K*0 omega SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
# the Dalitz mode below includes K*bar(892)0 pi0,
# K*(892)- pi+, and K- rho(770)+ resonances
0.14050 K- pi+ pi0 D_DALITZ;
0.00724 K*BR pi0 SVS;
0.01246 K_1- pi+ SVS;
0.00710 anti-K_10 pi0 SVS;
#
# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances
# LHCb PR 09 Apr 2004 split into KS/KL
0.03040 K_S0 pi+ pi- D_DALITZ;
0.03040 K_L0 pi+ pi- D_DALITZ;
0.00000 anti-K0 pi+ pi- D_DALITZ;
#
0.00483 K_S0 pi0 pi0 PHSP;
0.00483 K_L0 pi0 pi0 PHSP;
0.00000 anti-K0 pi0 pi0 PHSP;
#
0.02550 anti-K*0 pi+ pi- PHSP;
0.01160 anti-K*0 pi0 pi0 PHSP;
0.01000 K*- pi+ pi0 PHSP;
0.00680 K- rho+ pi0 PHSP;
0.00579 K- pi+ rho0 PHSP;
0.01900 K- pi+ omega PHSP;
0.01000 K- pi+ eta PHSP;
0.00807 K- pi+ eta' PHSP;
0.01958 K- pi+ pi+ pi- PHSP;
#
0.01100 K_S0 pi+ pi- pi0 PHSP;
0.01100 K_L0 pi+ pi- pi0 PHSP;
0.00000 anti-K0 pi+ pi- pi0 PHSP;
#
# K- pi+ pi0 pi0 is (15 +/- 5)% in the PDG, but we decrease it to
# have everything add to 1 and get enough neutral kaons:
#0.02575 K- pi+ pi0 pi0 PHSP;
#
#0.0143 anti-K0 pi0 pi0 pi0 PHSP;
0.00000 K- pi+ pi+ pi- pi0 PHSP;
0.00380 K- pi+ pi0 pi0 pi0 PHSP;
#
0.00293 K_S0 pi+ pi- pi+ pi- PHSP;
0.00293 K_L0 pi+ pi- pi+ pi- PHSP;
0.00000 anti-K0 pi+ pi- pi+ pi- PHSP;
#
#0.0638 anti-K0 pi+ pi- pi0 pi0 PHSP;
#0.0192 anti-K0 pi+ pi- pi0 pi0 pi0 PHSP;
#
0.00222 phi K_S0 SVS;
0.00222 phi K_L0 SVS;
0.00000 phi anti-K0 SVS;
#
0.00304 K_S0 K+ K- PHSP;
0.00304 K_L0 K+ K- PHSP;
0.00000 anti-K0 K+ K- PHSP;
#
0.00100 K_S0 K_S0 K_S0 PHSP;
0.00395 K+ K- PHSP;
0.00040 K_S0 K_S0 PHSP;
0.00040 K_L0 K_L0 PHSP;
0.00040 K*0 anti-K0 SVS;
#
0.00010 anti-K*0 K_S0 SVS;
0.00010 anti-K*0 K_L0 SVS;
0.00000 anti-K*0 K0 SVS;
#
0.00053 K*- K+ SVS;
0.00149 K*+ K- SVS;
0.00140 anti-K*0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00078 phi pi0 SVS;
0.00110 phi pi+ pi- PHSP;
0.00247 K+ K- pi+ pi- PHSP;
0.00300 K+ K- pi0 pi0 PHSP;
#
0.00137 K_S0 K_S0 pi+ pi- PHSP;
0.00137 K_L0 K_L0 pi+ pi- PHSP;
0.00000 anti-K0 K0 pi+ pi- PHSP;
#
0.00150 anti-K0 K0 pi0 pi0 PHSP;
#
0.00140 pi+ pi- PHSP;
0.00082 pi0 pi0 PHSP;
0.00060 eta pi0 PHSP;
0.00100 eta' pi0 PHSP;
0.00100 eta eta PHSP;
0.00992 rho+ pi- SVS;
0.00504 rho- pi+ SVS;
0.00380 rho0 pi0 SVS;
0.00132 pi+ pi- pi0 PHSP;
0.00010 pi0 pi0 pi0 PHSP;
0.00750 pi+ pi+ pi- pi- PHSP;
0.00917 pi+ pi- pi0 pi0 PHSP;
0.00435 pi+ pi- pi+ pi- pi0 PHSP;
0.00600 pi+ pi- pi0 pi0 pi0 PHSP;
0.00046 pi+ pi- pi+ pi- pi+ pi- PHSP;
#
# Doubly Cabibbo suppressed decays:
0.00015 pi- K+ PHSP;
0.00014 pi- K*+ PHSP;
0.00030 pi- K+ pi0 PHSP;
0.00027 K+ pi- pi+ pi- PHSP;
# PR LHCb - 19 Apr. 2004 Add D0 -> mu+ mu-
0.00000 mu+ mu- PHSP;
#
# March 2009 New Modes
0.00016 phi eta PHSP;
0.02160 anti-K*0 pi+ pi- pi0 PHSP;
0.00024 K- pi+ pi- pi+ pi- pi+ PHSP;
0.00070 K+ K- pi0 PHSP;
0.00370 K+ K- pi+ pi- pi0 PHSP;
0.00023 K+ K- K- pi+ PHSP;
#
0.00400 K_S0 eta pi0 PHSP;
0.00400 K_L0 eta pi0 PHSP;
0.00000 anti-K0 eta pi0 PHSP;
#
0.00260 K_S0 K+ pi- PHSP;
0.00260 K_L0 K+ pi- PHSP;
0.00000 anti-K0 K+ pi- PHSP;
#
0.00365 K_S0 K- pi+ PHSP;
0.00365 K_L0 K- pi+ PHSP;
0.00000 K0 K- pi+ PHSP;
#
0.00032 K_S0 K_S0 K+ pi- PHSP;
0.00032 K_L0 K_L0 K+ pi- PHSP;
0.00000 anti-K0 K0 K+ pi- PHSP;
#
0.00032 K_S0 K_S0 K- pi+ PHSP;
0.00032 K_L0 K_L0 K- pi+ PHSP;
0.00000 anti-K0 K0 K- pi+ PHSP;
Enddecay
#
#
Decay K*0R
1.0000 K0 pi0 VSS;
Enddecay
#
#
Decay anti-D0
-0.02228 K*+ e- anti-nu_e PHOTOS ISGW2;
-0.03598 K+ e- anti-nu_e PHOTOS ISGW2;
-0.00089 K_1+ e- anti-nu_e PHOTOS ISGW2;
-0.00150 K_2*+ e- anti-nu_e PHOTOS ISGW2;
-0.00288 pi+ e- anti-nu_e PHOTOS ISGW2;
-0.00202 rho+ e- anti-nu_e PHOTOS ISGW2;
-0.02970 K0 pi+ e- anti-nu_e PHOTOS PHSP;
-0.01990 K+ pi0 e- anti-nu_e PHOTOS PHSP;
-#
-0.02085 K*+ mu- anti-nu_mu PHOTOS ISGW2;
-0.03350 K+ mu- anti-nu_mu PHOTOS ISGW2;
-0.00089 K_1+ mu- anti-nu_mu PHOTOS ISGW2;
-0.00150 K_2*+ mu- anti-nu_mu PHOTOS ISGW2;
-0.00244 pi+ mu- anti-nu_mu PHOTOS ISGW2;
-0.00220 rho+ mu- anti-nu_mu PHOTOS ISGW2;
-0.00110 K0 pi+ mu- anti-nu_mu PHOTOS PHSP;
-0.00060 K+ pi0 mu- anti-nu_mu PHOTOS PHSP;
+0.02228 K*+ e- anti-nu_e FSR ISGW2;
+0.03598 K+ e- anti-nu_e FSR ISGW2;
+0.00089 K_1+ e- anti-nu_e FSR ISGW2;
+0.00150 K_2*+ e- anti-nu_e FSR ISGW2;
+0.00288 pi+ e- anti-nu_e FSR ISGW2;
+0.00202 rho+ e- anti-nu_e FSR ISGW2;
+0.02970 K0 pi+ e- anti-nu_e FSR PHSP;
+0.01990 K+ pi0 e- anti-nu_e FSR PHSP;
+#
+0.02085 K*+ mu- anti-nu_mu FSR ISGW2;
+0.03350 K+ mu- anti-nu_mu FSR ISGW2;
+0.00089 K_1+ mu- anti-nu_mu FSR ISGW2;
+0.00150 K_2*+ mu- anti-nu_mu FSR ISGW2;
+0.00244 pi+ mu- anti-nu_mu FSR ISGW2;
+0.00220 rho+ mu- anti-nu_mu FSR ISGW2;
+0.00110 K0 pi+ mu- anti-nu_mu FSR PHSP;
+0.00060 K+ pi0 mu- anti-nu_mu FSR PHSP;
#
0.03900 K+ pi- PHSP;
#
0.01238 K_S0 pi0 PHSP;
0.01210 K_L0 pi0 PHSP;
0.00000 K0 pi0 PHSP;
#
0.00415 K_S0 eta PHSP;
0.00415 K_L0 eta PHSP;
0.00000 K0 eta PHSP;
#
0.00980 K_S0 eta' PHSP;
0.00980 K_L0 eta' PHSP;
0.00000 K0 eta' PHSP;
#
0.01190 omega K_S0 SVS;
0.01190 omega K_L0 SVS;
0.00000 omega K0 SVS;
#
0.00175 K*0 eta SVS;
0.00100 K*0 eta' SVS;
0.08130 a_1- K+ SVS;
0.07380 K*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.01685 K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.01250 K*0 omega SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
# the Dalitz mode below includes K*(892)0 pi0, K*(892)+ pi-, and K+ rho(770)- resonances
0.14050 K+ pi- pi0 D_DALITZ;
0.00724 K*0R pi0 SVS;
0.01246 K_1+ pi- SVS;
0.00710 K_10 pi0 SVS;
# the Dalitz mode below includes K*(892)+ pi- and K0 rho(770)0 resonances
# LHCb PR 09 Apr 2004, split into KS/KL
0.00000 K0 pi+ pi- D_DALITZ;
0.03040 K_S0 pi+ pi- D_DALITZ;
0.03040 K_L0 pi+ pi- D_DALITZ;
#
0.00483 K_S0 pi0 pi0 PHSP;
0.00483 K_L0 pi0 pi0 PHSP;
0.00000 K0 pi0 pi0 PHSP;
#
0.02550 K*0 pi+ pi- PHSP;
0.01160 K*0 pi0 pi0 PHSP;
0.01000 K*+ pi- pi0 PHSP;
0.00680 K+ rho- pi0 PHSP;
0.00579 K+ pi- rho0 PHSP;
0.01900 K+ pi- omega PHSP;
0.01000 K+ pi- eta PHSP;
0.00807 K+ pi- eta' PHSP;
0.01958 K+ pi- pi+ pi- PHSP;
#
0.01100 K_S0 pi+ pi- pi0 PHSP;
0.01100 K_L0 pi+ pi- pi0 PHSP;
0.00000 K0 pi+ pi- pi0 PHSP;
#
# K+ pi- pi0 pi0 is (15 +/- 5)% in the PDG, but we decrease it to
# have everything add to 1 and get enough neutral kaons:
#0.02575 K+ pi- pi0 pi0 PHSP;
#
#0.0143 K0 pi0 pi0 pi0 PHSP;
0.00000 K+ pi- pi+ pi- pi0 PHSP;
0.00380 K+ pi- pi0 pi0 pi0 PHSP;
#
0.00293 K_S0 pi+ pi- pi+ pi- PHSP;
0.00293 K_L0 pi+ pi- pi+ pi- PHSP;
0.00000 K0 pi+ pi- pi+ pi- PHSP;
#
#0.0638 K0 pi- pi+ pi0 pi0 PHSP;
#0.0192 K0 pi- pi+ pi0 pi0 pi0 PHSP;
#
0.00222 phi K_S0 SVS;
0.00222 phi K_L0 SVS;
0.00000 phi K0 SVS;
#
0.00304 K_S0 K+ K- PHSP;
0.00304 K_L0 K+ K- PHSP;
0.00000 K0 K+ K- PHSP;
#
0.00100 K_S0 K_S0 K_S0 PHSP;
0.00395 K+ K- PHSP;
0.00040 K_S0 K_S0 PHSP;
0.00040 K_L0 K_L0 PHSP;
0.00040 anti-K*0 K0 SVS;
#
0.00010 K*0 K_S0 SVS;
0.00010 K*0 K_L0 SVS;
0.00000 K*0 anti-K0 SVS;
#
0.00053 K*+ K- SVS;
0.00149 K*- K+ SVS;
0.00140 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00078 phi pi0 SVS;
0.00110 phi pi+ pi- PHSP;
0.00247 K+ K- pi+ pi- PHSP;
0.00300 K+ K- pi0 pi0 PHSP;
#
0.00137 K_S0 K_S0 pi+ pi- PHSP;
0.00137 K_L0 K_L0 pi+ pi- PHSP;
0.00000 anti-K0 K0 pi+ pi- PHSP;
#
0.00150 anti-K0 K0 pi0 pi0 PHSP;
#
0.00140 pi+ pi- PHSP;
0.00082 pi0 pi0 PHSP;
0.00060 eta pi0 PHSP;
0.00100 eta' pi0 PHSP;
0.00100 eta eta PHSP;
0.00992 rho+ pi- SVS;
0.00504 rho- pi+ SVS;
0.00380 rho0 pi0 SVS;
0.00132 pi+ pi- pi0 PHSP;
0.00010 pi0 pi0 pi0 PHSP;
0.00750 pi+ pi+ pi- pi- PHSP;
0.00917 pi+ pi- pi0 pi0 PHSP;
0.00435 pi+ pi- pi+ pi- pi0 PHSP;
0.00600 pi+ pi- pi0 pi0 pi0 PHSP;
0.00046 pi+ pi- pi+ pi- pi+ pi- PHSP;
#
# Doubly Cabibbo suppressed decays:
0.00015 pi+ K- PHSP;
0.00014 pi+ K*- PHSP;
0.00030 pi+ K- pi0 PHSP;
0.00027 K- pi+ pi+ pi- PHSP;
# PR LHCb - 19 Apr. 2004 Add anti-D0 -> mu+ mu-
0.00000 mu- mu+ PHSP;
#
# March 2009 New Modes
0.00016 phi eta PHSP;
0.02160 K*0 pi+ pi- pi0 PHSP;
0.00024 K+ pi- pi- pi+ pi- pi+ PHSP;
0.00070 K+ K- pi0 PHSP;
0.00370 K+ K- pi+ pi- pi0 PHSP;
0.00023 K+ K+ K- pi- PHSP;
#
0.00400 K_S0 eta pi0 PHSP;
0.00400 K_L0 eta pi0 PHSP;
0.00000 K0 eta pi0 PHSP;
#
0.00260 K_S0 K- pi+ PHSP;
0.00260 K_L0 K- pi+ PHSP;
0.00000 K0 K- pi+ PHSP;
#
0.00365 K_S0 K+ pi- PHSP;
0.00365 K_L0 K+ pi- PHSP;
0.00000 anti-K0 K+ pi- PHSP;
#
0.00032 K_S0 K_S0 K+ pi- PHSP;
0.00032 K_L0 K_L0 K+ pi- PHSP;
0.00000 anti-K0 K0 K+ pi- PHSP;
#
0.00032 K_S0 K_S0 K- pi+ PHSP;
0.00032 K_L0 K_L0 K- pi+ PHSP;
0.00000 anti-K0 K0 K- pi+ PHSP;
Enddecay
#
# Updated to PDG 2008
Decay D_s+
-0.02402 phi e+ nu_e PHOTOS ISGW2;
-0.02997 eta e+ nu_e PHOTOS ISGW2;
-0.01074 eta' e+ nu_e PHOTOS ISGW2;
-0.00270 anti-K0 e+ nu_e PHOTOS ISGW2;
-0.00100 anti-K*0 e+ nu_e PHOTOS ISGW2;
-0.02402 phi mu+ nu_mu PHOTOS ISGW2;
-0.02997 eta mu+ nu_mu PHOTOS ISGW2;
-0.01074 eta' mu+ nu_mu PHOTOS ISGW2;
-0.00270 anti-K0 mu+ nu_mu PHOTOS ISGW2;
-0.00100 anti-K*0 mu+ nu_mu PHOTOS ISGW2;
-0.00630 mu+ nu_mu PHOTOS SLN;
+0.02402 phi e+ nu_e FSR ISGW2;
+0.02997 eta e+ nu_e FSR ISGW2;
+0.01074 eta' e+ nu_e FSR ISGW2;
+0.00270 anti-K0 e+ nu_e FSR ISGW2;
+0.00100 anti-K*0 e+ nu_e FSR ISGW2;
+0.02402 phi mu+ nu_mu FSR ISGW2;
+0.02997 eta mu+ nu_mu FSR ISGW2;
+0.01074 eta' mu+ nu_mu FSR ISGW2;
+0.00270 anti-K0 mu+ nu_mu FSR ISGW2;
+0.00100 anti-K*0 mu+ nu_mu FSR ISGW2;
+0.00630 mu+ nu_mu FSR SLN;
0.06697 tau+ nu_tau SLN;
### Lange Nov14, 2004 - average cleo + babar (prelim) using stat error only..
0.04437 phi pi+ SVS;
0.01614 eta pi+ PHSP;
0.03865 eta' pi+ PHSP;
0.00265 omega pi+ SVS;
0.00040 rho0 pi+ SVS;
0.00040 rho+ pi0 SVS;
#?
0.00010 pi+ pi0 PHSP;
0.01000 f_0 pi+ PHSP;
0.00120 f_2 pi+ PHSP;
0.04162 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.13357 rho+ eta SVS;
0.12525 rho+ eta' SVS;
0.01013 pi+ pi- pi+ PHSP;
0.00005 pi+ pi0 pi0 PHSP;
0.01000 phi pi+ pi0 PHSP;
0.01500 eta pi+ pi0 PHSP;
0.01500 eta' pi+ pi0 PHSP;
0.00608 phi pi+ pi- pi+ PHSP;
0.00500 phi pi+ pi0 pi0 PHSP;
0.00500 eta pi+ pi- pi+ PHSP;
0.00500 eta pi+ pi0 pi0 PHSP;
#
0.01505 K_S0 K+ PHSP;
0.01505 K_L0 K+ PHSP;
0.00000 anti-K0 K+ PHSP;
#
0.04000 anti-K*0 K+ SVS;
0.05495 K*+ anti-K0 SVS;
0.07406 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00300 anti-K0 K+ pi0 PHSP;
0.00120 anti-K*0 K+ pi0 PHSP;
0.00120 K*+ anti-K0 pi0 PHSP;
0.00400 anti-K*0 K*+ pi0 PHSP;
0.00500 K+ K- pi+ PHSP;
#
0.00980 K_S0 K+ pi+ pi- PHSP;
0.00980 K_L0 K+ pi+ pi- PHSP;
0.00000 anti-K0 K+ pi+ pi- PHSP;
#
0.00100 anti-K0 K+ pi0 pi0 PHSP;
0.00378 K+ K- pi+ pi- pi+ PHSP;
0.00020 phi K+ SVS;
0.00146 eta K+ PHSP;
0.00168 eta' K+ PHSP;
0.00020 eta K+ pi0 PHSP;
0.00020 eta K+ pi+ pi- PHSP;
0.00020 eta' K+ pi0 PHSP;
0.00020 eta' K+ pi+ pi- PHSP;
0.00031 K+ K- K+ PHSP;
#
0.00127 K_S0 pi+ PHSP;
0.00127 K_L0 pi+ PHSP;
0.00000 K0 pi+ PHSP;
#
0.00150 rho+ K0 SVS;
0.00278 rho0 K+ SVS;
0.00100 K0 pi+ pi0 PHSP;
0.00250 a_1+ K0 SVS;
0.00790 K*0 pi+ SVS;
0.00500 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00500 K*0 pi+ pi0 PHSP;
#
# March 2009 New Modes
0.00086 K+ pi0 PHSP;
0.00273 K+ pi+ pi- PHSP;
0.00815 pi+ pi+ pi+ pi- pi- PHSP;
0.01214 pi+ pi+ pi+ pi- pi- pi0 PHSP;
0.00136 p+ anti-n0 PHSP;
#
0.00090 K_S0 K_S0 pi+ pi+ pi- PHSP;
0.00090 K_L0 K_L0 pi+ pi+ pi- PHSP;
0.00000 anti-K0 K0 pi+ pi+ pi- PHSP;
#
0.00318 K_S0 pi+ pi+ pi- PHSP;
0.00318 K_L0 pi+ pi+ pi- PHSP;
0.00000 anti-K0 pi+ pi+ pi- PHSP;
# Doubly Cabibbo suppressed
0.00030 K+ K+ pi- PHSP;
Enddecay
#
# Updated to PDG 2008
Decay D_s-
-0.02402 phi e- anti-nu_e PHOTOS ISGW2;
-0.02997 eta e- anti-nu_e PHOTOS ISGW2;
-0.01074 eta' e- anti-nu_e PHOTOS ISGW2;
-0.00270 K0 e- anti-nu_e PHOTOS ISGW2;
-0.00100 K*0 e- anti-nu_e PHOTOS ISGW2;
-0.02402 phi mu- anti-nu_mu PHOTOS ISGW2;
-0.02997 eta mu- anti-nu_mu PHOTOS ISGW2;
-0.01074 eta' mu- anti-nu_mu PHOTOS ISGW2;
-0.00270 K0 mu- anti-nu_mu PHOTOS ISGW2;
-0.00100 K*0 mu- anti-nu_mu PHOTOS ISGW2;
-0.00630 mu- anti-nu_mu PHOTOS SLN;
+0.02402 phi e- anti-nu_e FSR ISGW2;
+0.02997 eta e- anti-nu_e FSR ISGW2;
+0.01074 eta' e- anti-nu_e FSR ISGW2;
+0.00270 K0 e- anti-nu_e FSR ISGW2;
+0.00100 K*0 e- anti-nu_e FSR ISGW2;
+0.02402 phi mu- anti-nu_mu FSR ISGW2;
+0.02997 eta mu- anti-nu_mu FSR ISGW2;
+0.01074 eta' mu- anti-nu_mu FSR ISGW2;
+0.00270 K0 mu- anti-nu_mu FSR ISGW2;
+0.00100 K*0 mu- anti-nu_mu FSR ISGW2;
+0.00630 mu- anti-nu_mu FSR SLN;
0.06697 tau- anti-nu_tau SLN;
0.04437 phi pi- SVS;
0.01614 eta pi- PHSP;
0.03865 eta' pi- PHSP;
0.00265 omega pi- SVS;
0.00040 rho0 pi- SVS;
0.00040 rho- pi0 SVS;
0.00010 pi- pi0 PHSP;
0.01000 f_0 pi- PHSP;
0.00120 f_2 pi- PHSP;
0.04162 phi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.13357 rho- eta SVS;
0.12525 rho- eta' SVS;
0.01013 pi- pi- pi+ PHSP;
0.00005 pi- pi0 pi0 PHSP;
0.01000 phi pi- pi0 PHSP;
0.01500 eta pi- pi0 PHSP;
0.01500 eta' pi- pi0 PHSP;
0.00608 phi pi- pi- pi+ PHSP;
0.00500 phi pi- pi0 pi0 PHSP;
0.00500 eta pi- pi- pi+ PHSP;
0.00500 eta pi- pi0 pi0 PHSP;
#
0.01505 K_S0 K- PHSP;
0.01505 K_L0 K- PHSP;
0.00000 K0 K- PHSP;
#
0.04000 K*0 K- SVS;
0.05495 K*- K0 SVS;
0.07406 K*0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00300 K0 K- pi0 PHSP;
0.00120 K*0 K- pi0 PHSP;
0.00120 K*- K0 pi0 PHSP;
0.00400 K*0 K*- pi0 PHSP;
0.00500 K+ K- pi- PHSP;
#
0.00980 K_S0 K- pi+ pi- PHSP;
0.00980 K_L0 K- pi+ pi- PHSP;
0.00000 K0 K- pi+ pi- PHSP;
#
0.00100 K0 K- pi0 pi0 PHSP;
0.00378 K- K+ pi- pi+ pi- PHSP;
0.00020 phi K- SVS;
0.00146 eta K- PHSP;
0.00168 eta' K- PHSP;
0.00020 eta K- pi0 PHSP;
0.00020 eta K- pi+ pi- PHSP;
0.00020 eta' K- pi0 PHSP;
0.00020 eta' K- pi+ pi- PHSP;
0.00031 K- K- K+ PHSP;
#
0.00127 K_S0 pi- PHSP;
0.00127 K_L0 pi- PHSP;
0.00000 anti-K0 pi- PHSP;
#
0.00150 rho- anti-K0 SVS;
0.00278 rho0 K- SVS;
0.00100 anti-K0 pi- pi0 PHSP;
0.00250 a_1- anti-K0 SVS;
0.00790 anti-K*0 pi- SVS;
0.00500 anti-K*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00500 anti-K*0 pi- pi0 PHSP;
#
# March 2009 New Modes
0.00086 K- pi0 PHSP;
0.00273 K- pi+ pi- PHSP;
0.00815 pi+ pi+ pi- pi- pi- PHSP;
0.01214 pi+ pi+ pi- pi- pi- pi0 PHSP;
0.00136 anti-p- n0 PHSP;
#
0.00090 K_S0 K_S0 pi+ pi- pi- PHSP;
0.00090 K_L0 K_L0 pi+ pi- pi- PHSP;
0.00000 anti-K0 K0 pi+ pi- pi- PHSP;
#
0.00318 K_S0 pi+ pi- pi- PHSP;
0.00318 K_L0 pi+ pi- pi- PHSP;
0.00000 K0 pi+ pi- pi- PHSP;
# Doubly Cabibbo suppressed
0.00030 K- K- pi+ PHSP;
Enddecay
#
# D**
#
Decay D_0*+
0.3333 D+ pi0 PHSP;
0.6667 D0 pi+ PHSP;
Enddecay
Decay D_0*-
0.3333 D- pi0 PHSP;
0.6667 anti-D0 pi- PHSP;
Enddecay
Decay D_0*0
0.3333 D0 pi0 PHSP;
0.6667 D+ pi- PHSP;
Enddecay
Decay anti-D_0*0
0.3333 anti-D0 pi0 PHSP;
0.6667 D- pi+ PHSP;
Enddecay
#
SetLineshapePW D_1+ D*+ pi0 2
SetLineshapePW D_1+ D*0 pi+ 2
SetLineshapePW D_1- D*- pi0 2
SetLineshapePW D_1- anti-D*0 pi- 2
SetLineshapePW D_10 D*0 pi0 2
SetLineshapePW D_10 D*+ pi- 2
SetLineshapePW anti-D_10 anti-D*0 pi0 2
SetLineshapePW anti-D_10 D*- pi+ 2
Decay D_1+
0.3333 D*+ pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.6667 D*0 pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay D_1-
0.3333 D*- pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.6667 anti-D*0 pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay D_10
0.3333 D*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.6667 D*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay anti-D_10
0.3333 anti-D*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.6667 D*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
#
Decay D'_1+
0.3333 D*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.6667 D*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay D'_1-
0.3333 D*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.6667 anti-D*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay D'_10
0.6667 D*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3333 D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay anti-D'_10
0.3333 anti-D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.6667 D*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
SetLineshapePW D_2*+ D*+ pi0 2
SetLineshapePW D_2*+ D*0 pi+ 2
SetLineshapePW D_2*- D*- pi0 2
SetLineshapePW D_2*- anti-D*0 pi- 2
SetLineshapePW D_2*0 D*0 pi0 2
SetLineshapePW D_2*0 D*+ pi- 2
SetLineshapePW anti-D_2*0 anti-D*0 pi0 2
SetLineshapePW anti-D_2*0 D*- pi+ 2
Decay D_2*+
0.1030 D*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2090 D*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2290 D+ pi0 TSS;
0.4590 D0 pi+ TSS;
Enddecay
Decay D_2*-
0.1030 D*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2090 anti-D*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2290 D- pi0 TSS;
0.4590 anti-D0 pi- TSS;
Enddecay
Decay D_2*0
0.2090 D*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1030 D*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2290 D0 pi0 TSS;
0.4590 D+ pi- TSS;
Enddecay
Decay anti-D_2*0
0.1030 anti-D*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2090 D*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2290 anti-D0 pi0 TSS;
0.4590 D- pi+ TSS;
Enddecay
#
# D_s **
#
Decay D_s0*+
# 0.5000 D+ K0 PHSP;
# 0.5000 D0 K+ PHSP;
1.000 D_s+ pi0 PHSP;
Enddecay
Decay D_s0*-
# 0.5000 D- anti-K0 PHSP;
# 0.5000 anti-D0 K- PHSP;
1.000 D_s- pi0 PHSP;
Enddecay
Decay D'_s1+
0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.0000 gamma D_s*+ PHSP;
0.0000 gamma D_s+ PHSP;
Enddecay
Decay D'_s1-
0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.0000 gamma D_s*- PHSP;
0.0000 gamma D_s- PHSP;
Enddecay
Decay D_s1+
0.80000 D_s*+ pi0 PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.20000 D_s+ gamma VSP_PWAVE;
Enddecay
Decay D_s1-
0.80000 D_s*- pi0 PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.20000 D_s- gamma VSP_PWAVE;
Enddecay
Decay D_s2*+
0.0500 D*+ K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0500 D*0 K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.4300 D+ K0 TSS;
0.4700 D0 K+ TSS;
Enddecay
Decay D_s2*-
0.0500 D*- anti-K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0500 anti-D*0 K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.4300 D- anti-K0 TSS;
0.4700 anti-D0 K- TSS;
Enddecay
#
#
# Charm Mesons: Radially Excited States
#
Decay D(2S)0
0.6667 D*+ pi- SVS;
0.3333 D*0 pi0 SVS;
Enddecay
Decay anti-D(2S)0
0.3333 anti-D*0 pi0 SVS;
0.6667 D*- pi+ SVS;
Enddecay
Decay D(2S)+
0.3333 D*+ pi0 SVS;
0.6667 D*0 pi+ SVS;
Enddecay
Decay D(2S)-
0.3333 D*- pi0 SVS;
0.6667 anti-D*0 pi- SVS;
Enddecay
Decay D*(2S)0
0.3333 D*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1667 D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1667 D0 pi0 VSS;
0.3333 D+ pi- VSS;
Enddecay
Decay anti-D*(2S)0
0.1667 anti-D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3333 D*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1667 anti-D0 pi0 VSS;
0.3333 D- pi+ VSS;
Enddecay
Decay D*(2S)+
0.1667 D*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3333 D*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1667 D+ pi0 VSS;
0.3333 D0 pi+ VSS;
Enddecay
Decay D*(2S)-
0.1667 D*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3333 anti-D*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1667 D- pi0 VSS;
0.3333 anti-D0 pi- VSS;
Enddecay
#
#
# Strange Mesons updated to PDG 2008
#
#
Decay K_S0
0.6925 pi+ pi- PHSP;
0.3075 pi0 pi0 PHSP;
Enddecay
#
# K_L0 is decayed in GEANT
#
Decay K0
0.500 K_L0 PHSP;
0.500 K_S0 PHSP;
Enddecay
Decay anti-K0
0.500 K_L0 PHSP;
0.500 K_S0 PHSP;
Enddecay
#
Decay K*0
0.6657 K+ pi- VSS;
0.3323 K0 pi0 VSS;
0.0020 K0 gamma VSP_PWAVE;
Enddecay
#
Decay anti-K*0
0.6657 K- pi+ VSS;
0.3323 anti-K0 pi0 VSS;
0.0020 anti-K0 gamma VSP_PWAVE;
Enddecay
#
Decay K*+
0.6657 K0 pi+ VSS;
0.3323 K+ pi0 VSS;
0.0020 K+ gamma VSP_PWAVE;
Enddecay
#
Decay K*-
0.6657 anti-K0 pi- VSS;
0.3323 K- pi0 VSS;
0.0020 K- gamma VSP_PWAVE;
Enddecay
#
# The decays below are for particle aliases and used when
# generating CP violating decays that depends on the decay
# of the neutral K*
#
Decay K*L
1.0000 pi0 K_L0 VSS;
Enddecay
Decay K*S
1.0000 pi0 K_S0 VSS;
Enddecay
Decay K*BL
1.0000 pi0 K_L0 VSS;
Enddecay
Decay K*BS
1.0000 pi0 K_S0 VSS;
Enddecay
Decay K*0T
1.0000 pi- K+ VSS;
Enddecay
Decay anti-K*0T
1.0000 pi+ K- VSS;
Enddecay
#
#
Decay K_0*+
0.6667 K0 pi+ PHSP;
0.3333 K+ pi0 PHSP;
Enddecay
#
Decay K_0*-
0.6667 anti-K0 pi- PHSP;
0.3333 K- pi0 PHSP;
Enddecay
#
Decay K_0*0
0.6667 K+ pi- PHSP;
0.3333 K0 pi0 PHSP;
Enddecay
#
Decay K_0*0N
1.0000 K0 pi0 PHSP;
Enddecay
#
Decay anti-K_0*0
0.6667 K- pi+ PHSP;
0.3333 anti-K0 pi0 PHSP;
Enddecay
#
Decay anti-K_0*0N
1.0000 anti-K0 pi0 PHSP;
Enddecay
#
Decay K_10
0.2800 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1400 rho0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1067 K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0533 K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
#To large masses can cause infinit loops
0.1100 omega K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1444 K0 pi+ pi- PHSP;
0.1244 K+ pi- pi0 PHSP;
0.0412 K0 pi0 pi0 PHSP;
Enddecay
#
Decay anti-K_10
0.2800 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1400 rho0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1067 K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0533 anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
#To large masses can cause infinit loops
0.1100 omega anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1444 anti-K0 pi+ pi- PHSP;
0.1244 K- pi+ pi0 PHSP;
0.0412 anti-K0 pi0 pi0 PHSP;
Enddecay
#
Decay K_1+
0.2800 rho+ K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1067 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0533 K*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
#To large masses can cause infinit loops
0.1100 omega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1444 K+ pi+ pi- PHSP;
0.1244 K0 pi+ pi0 PHSP;
0.0412 K+ pi0 pi0 PHSP;
Enddecay
#
Decay K_1-
0.2800 rho- anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1067 anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0533 K*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
#To large masses can cause infinit loops
0.1100 omega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1444 K- pi+ pi- PHSP;
0.1244 anti-K0 pi- pi0 PHSP;
0.0412 K- pi0 pi0 PHSP;
Enddecay
#
Decay K'_1+
0.6300 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3100 K*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0200 rho+ K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 omega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0133 K+ pi+ pi- PHSP;
0.0067 K+ pi0 pi0 PHSP;
Enddecay
#
Decay K'_1-
0.6300 anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3100 K*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0200 rho- anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 omega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0133 K- pi+ pi- PHSP;
0.0067 K- pi0 pi0 PHSP;
Enddecay
#
Decay K'_10
0.6300 K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3100 K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0200 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 rho0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 omega K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0133 K0 pi+ pi- PHSP;
0.0067 K0 pi0 pi0 PHSP;
Enddecay
#
Decay anti-K'_10
0.6300 K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3100 anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0200 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 rho0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 omega anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0133 anti-K0 pi+ pi- PHSP;
0.0067 anti-K0 pi0 pi0 PHSP;
Enddecay
#
Decay K_2*+
0.3340 K0 pi+ TSS;
0.1670 K+ pi0 TSS;
0.1645 K*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0835 K*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0450 K*0 pi+ pi0 PHSP;
0.0450 K*+ pi+ pi- PHSP;
0.0450 K*+ pi0 pi0 PHSP;
0.0580 rho+ K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 rho0 K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 omega K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
#
Decay K_2*-
0.3340 anti-K0 pi- TSS;
0.1670 K- pi0 TSS;
0.1645 anti-K*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0835 K*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0450 anti-K*0 pi- pi0 PHSP;
0.0450 K*- pi+ pi- PHSP;
0.0450 K*- pi0 pi0 PHSP;
0.0580 rho- K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 rho0 K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 omega K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
#
Decay K_2*0
0.3340 K+ pi- TSS;
0.1670 K0 pi0 TSS;
0.1645 K*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0835 K*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0450 K*0 pi+ pi- PHSP;
0.0450 K*0 pi0 pi0 PHSP;
0.0450 K*+ pi- pi0 PHSP;
0.0580 rho- K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 rho0 K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 omega K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
#
Decay anti-K_2*0
0.3340 K- pi+ TSS;
0.1670 anti-K0 pi0 TSS;
0.1645 K*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0835 anti-K*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0450 anti-K*0 pi+ pi- PHSP;
0.0450 anti-K*0 pi0 pi0 PHSP;
0.0450 K*- pi+ pi0 PHSP;
0.0580 rho+ K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 rho0 anti-K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 omega anti-K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
# Decay K*(1410)
Decay K'*0
0.0467 K+ pi- VSS;
0.0233 K0 pi0 VSS;
0.5760 K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2880 K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0440 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0220 rho0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay anti-K'*0
0.0467 K- pi+ VSS;
0.0233 anti-K0 pi0 VSS;
0.5760 K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2880 anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0440 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0220 rho0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay K'*+
0.0467 K0 pi+ VSS;
0.0233 K+ pi0 VSS;
0.5760 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2880 K*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0440 rho+ K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0220 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay K'*-
0.0467 anti-K0 pi- VSS;
0.0233 K- pi0 VSS;
0.5760 anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2880 K*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0440 rho- K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0220 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
# Decay K*(1680)
Decay K''*0
0.2580 K+ pi- VSS;
0.1290 K0 pi0 VSS;
0.2093 K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1047 K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1993 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0997 rho0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay anti-K''*0
0.2580 K- pi+ VSS;
0.1290 anti-K0 pi0 VSS;
0.2093 K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1047 anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1993 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0997 rho0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay K''*+
0.2580 K0 pi+ VSS;
0.1290 K+ pi0 VSS;
0.2093 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1047 K*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1993 rho+ K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0997 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay K''*-
0.2580 anti-K0 pi- VSS;
0.1290 K- pi0 VSS;
0.2093 anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1047 K*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1993 rho- K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0997 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay Xsd
1.00000 d anti-s PYTHIA 11;
Enddecay
Decay anti-Xsd
1.00000 anti-d s PYTHIA 11;
Enddecay
Decay Xsu
1.00000 u anti-s PYTHIA 11;
Enddecay
Decay anti-Xsu
1.00000 anti-u s PYTHIA 11;
Enddecay
# Xss decays can be uncommented when Jst74/lucomp.F recognizes Xss
Decay Xss
1.00000 s anti-s PYTHIA 11;
Enddecay
Decay anti-Xss
1.00000 anti-s s PYTHIA 11;
Enddecay
#
# Light Mesons Updated to PDG 2008
#
Decay pi0
0.9880 gamma gamma PHSP;
0.0120 e+ e- gamma PI0_DALITZ;
Enddecay
#
Decay eta
0.39311 gamma gamma PHSP;
0.32561 pi0 pi0 pi0 PHSP;
0.22731 pi- pi+ pi0 ETA_DALITZ;
0.04600 gamma pi- pi+ PHSP;
0.00680 gamma e+ e- PHSP;
0.00031 gamma mu+ mu- PHSP;
0.00044 gamma gamma pi0 PHSP;
0.00042 pi+ pi- e+ e- PHSP;
Enddecay
#
Decay rho0
1.000 pi+ pi- VSS;
Enddecay
Decay rho+
1.000 pi+ pi0 VSS;
Enddecay
Decay rho-
1.000 pi- pi0 VSS;
Enddecay
#
Decay omega
0.89210 pi- pi+ pi0 OMEGA_DALITZ;
0.08920 pi0 gamma VSP_PWAVE;
0.01530 pi- pi+ VSS;
0.00046 eta gamma VSP_PWAVE;
-0.00077 pi0 e+ e- PHOTOS PHSP;
-0.00010 pi0 mu+ mu- PHOTOS PHSP;
+0.00077 pi0 e+ e- FSR PHSP;
+0.00010 pi0 mu+ mu- FSR PHSP;
0.00150 pi+ pi- gamma PHSP;
0.00007 pi0 pi0 gamma PHSP;
0.00050 pi+ pi- pi+ pi- PHSP;
Enddecay
#
Decay eta'
0.4460 pi+ pi- eta PHSP;
0.2070 pi0 pi0 eta PHSP;
0.2940 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0;
0.0304 omega gamma SVP_HELAMP 1.0 0.0 1.0 0.0;
0.0210 gamma gamma PHSP;
0.0015 pi0 pi0 pi0 PHSP;
-0.0001 gamma mu- mu+ PHOTOS PHSP;
+0.0001 gamma mu- mu+ FSR PHSP;
Enddecay
#
Decay phi
0.4920 K+ K- VSS;
0.3400 K_L0 K_S0 VSS;
0.0425 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0425 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0425 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0250 pi+ pi- pi0 PHSP;
0.0131 eta gamma VSP_PWAVE;
0.00126 pi0 gamma VSP_PWAVE;
-0.000297 e+ e- PHOTOS VLL;
-0.000299 mu+ mu- PHOTOS VLL;
+0.000297 e+ e- FSR VLL;
+0.000299 mu+ mu- FSR VLL;
0.000115 pi0 pi0 gamma PHSP;
0.000107 eta e+ e- PHSP;
0.000322 f_0 gamma PHSP;
Enddecay
#
Decay a_1+
0.4920 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5080 rho+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay a_10
0.5000 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5000 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay a_1-
0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay a_2+
0.3500 rho0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.3500 rho+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1430 eta pi+ TSS;
0.1000 omega pi+ pi0 PHSP;
0.0490 anti-K0 K+ TSS;
0.0027 pi+ gamma PHSP;
0.0053 eta' pi+ TSS;
Enddecay
#
Decay a_2-
0.3500 rho0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.3500 rho- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1430 eta pi- TSS;
0.1000 omega pi- pi0 PHSP;
0.0490 anti-K0 K- TSS;
0.0027 pi- gamma PHSP;
0.0053 eta' pi- TSS;
Enddecay
#
Decay a_20
0.3500 rho+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.3500 rho- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1430 eta pi0 TSS;
0.1000 omega pi+ pi- PHSP;
0.0245 K+ K- TSS;
0.01225 K_L0 K_L0 TSS;
0.01225 K_S0 K_S0 TSS;
0.0027 pi0 gamma PHSP;
0.0053 eta' pi0 TSS;
Enddecay
#
Decay b_1+
0.9984 omega pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0016 pi+ gamma VSP_PWAVE;
Enddecay
Decay b_1-
0.9984 omega pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0016 pi- gamma VSP_PWAVE;
Enddecay
Decay b_10
0.9984 omega pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0016 pi0 gamma VSP_PWAVE;
Enddecay
#
Decay a_00
0.9000 eta pi0 PHSP;
0.0500 K+ K- PHSP;
0.0250 K_S0 K_S0 PHSP;
0.0250 K_L0 K_L0 PHSP;
Enddecay
Decay a_0+
0.9000 eta pi+ PHSP;
0.1000 anti-K0 K+ PHSP;
Enddecay
Decay a_0-
0.9000 eta pi- PHSP;
0.1000 K0 K- PHSP;
Enddecay
#
Decay f_0
0.6667 pi+ pi- PHSP;
0.3333 pi0 pi0 PHSP;
#0.1100 K+ K- PHSP;
#0.0550 K_S0 K_S0 PHSP;
#0.0550 K_L0 K_L0 PHSP;
Enddecay
#
Decay f'_0
0.5200 pi+ pi- PHSP;
0.2600 pi0 pi0 PHSP;
0.0750 pi+ pi+ pi- pi- PHSP;
0.0750 pi+ pi- pi0 pi0 PHSP;
0.0350 K+ K- PHSP;
0.0175 K_S0 K_S0 PHSP;
0.0175 K_L0 K_L0 PHSP;
Enddecay
#
Decay f_1
0.1655 rho0 pi+ pi- PHSP;
0.0551 rho0 pi0 pi0 PHSP;
0.0552 rho+ pi- pi0 PHSP;
0.0552 rho- pi+ pi0 PHSP;
0.1200 a_00 pi0 VSS;
0.1200 a_0+ pi- VSS;
0.1200 a_0- pi+ VSS;
0.1100 eta pi+ pi- PHSP;
0.0550 eta pi0 pi0 PHSP;
0.0257 K+ K- pi0 PHSP;
0.0129 K0 anti-K0 pi0 PHSP;
0.0257 anti-K0 K+ pi- PHSP;
0.0257 K0 K- pi+ PHSP;
0.0540 gamma rho0 PHSP;
Enddecay
#
Decay f'_1
0.2500 K+ K- pi0 PHSP;
0.2500 K0 anti-K0 pi0 PHSP;
0.2500 anti-K0 K+ pi- PHSP;
0.2500 K0 K- pi+ PHSP;
Enddecay
#
Decay f_2
0.5650 pi+ pi- TSS;
0.2820 pi0 pi0 TSS;
0.0280 pi+ pi- pi+ pi- PHSP;
0.0720 pi+ pi- pi0 pi0 PHSP;
0.0030 pi0 pi0 pi0 pi0 PHSP;
0.0230 K+ K- TSS;
0.0115 K_S0 K_S0 TSS;
0.0115 K_L0 K_L0 TSS;
0.0040 eta eta TSS;
Enddecay
#
Decay f_0(1500)
0.0190 eta eta' PHSP;
0.0510 eta eta PHSP;
0.1410 pi0 pi0 pi0 pi0 PHSP;
0.3540 pi+ pi- pi+ pi- PHSP;
0.2330 pi+ pi- PHSP;
0.1160 pi0 pi0 PHSP;
0.0430 K+ K- PHSP;
0.0215 K_S0 K_S0 PHSP;
0.0215 K_L0 K_L0 PHSP;
Enddecay
#
Decay f'_2
0.4444 K+ K- TSS;
0.2222 K_S0 K_S0 TSS;
0.2222 K_L0 K_L0 TSS;
0.1030 eta eta TSS;
0.0055 pi+ pi- TSS;
0.0027 pi0 pi0 TSS;
Enddecay
#
Decay h_1
0.3333 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3333 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3334 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay h'_1
0.2500 K*+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2500 K*- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2500 anti-K*0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2500 K*0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay rho(2S)+
0.4000 pi+ pi0 PHSP;
0.4000 pi+ pi+ pi- pi0 PHSP;
0.2000 pi+ pi0 pi0 pi0 PHSP;
Enddecay
Decay rho(2S)-
0.4000 pi- pi0 PHSP;
0.4000 pi- pi+ pi- pi0 PHSP;
0.2000 pi- pi0 pi0 pi0 PHSP;
Enddecay
Decay rho(2S)0
0.4000 pi+ pi- PHSP;
0.3500 pi+ pi- pi+ pi- PHSP;
0.1500 pi+ pi- pi0 pi0 PHSP;
0.1000 pi0 pi0 pi0 pi0 PHSP;
Enddecay
Decay phi(1680)
0.08 pi+ pi- PHSP;
0.05 pi+ pi+ pi- pi- PHSP;
0.10 pi0 pi+ pi- PHSP;
0.10 pi0 pi+ pi+ pi- pi- PHSP;
0.12 pi0 pi0 pi+ pi- PHSP;
0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.05 pi0 pi0 pi0 pi+ pi- PHSP;
0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.04 K+ K- pi+ pi- PHSP;
0.02 K0 K- pi+ PHSP;
0.02 anti-K0 K+ pi- PHSP;
0.02 K0 K- pi+ pi+ pi- PHSP;
0.02 anti-K0 K+ pi- pi- pi+ PHSP;
0.02 K0 K- pi0 pi+ PHSP;
0.02 anti-K0 K+ pi0 pi- PHSP;
0.02 eta pi0 pi+ pi- PHSP;
0.01 eta rho- pi0 pi+ PHSP;
0.01 eta rho+ pi0 pi- PHSP;
Enddecay
Decay rho(3S)0
0.08 pi+ pi- PHSP;
0.05 pi+ pi+ pi- pi- PHSP;
0.10 pi0 pi+ pi- PHSP;
0.10 pi0 pi+ pi+ pi- pi- PHSP;
0.12 pi0 pi0 pi+ pi- PHSP;
0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.05 pi0 pi0 pi0 pi+ pi- PHSP;
0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.04 K+ K- pi+ pi- PHSP;
0.02 K0 K- pi+ PHSP;
0.02 anti-K0 K+ pi- PHSP;
0.02 K0 K- pi+ pi+ pi- PHSP;
0.02 anti-K0 K+ pi- pi- pi+ PHSP;
0.02 K0 K- pi0 pi+ PHSP;
0.02 anti-K0 K+ pi0 pi- PHSP;
0.02 eta pi0 pi+ pi- PHSP;
0.01 eta rho- pi0 pi+ PHSP;
0.01 eta rho+ pi0 pi- PHSP;
Enddecay
Decay omega(1650)
0.08 pi+ pi- PHSP;
0.05 pi+ pi+ pi- pi- PHSP;
0.10 pi0 pi+ pi- PHSP;
0.10 pi0 pi+ pi+ pi- pi- PHSP;
0.12 pi0 pi0 pi+ pi- PHSP;
0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.05 pi0 pi0 pi0 pi+ pi- PHSP;
0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.04 K+ K- pi+ pi- PHSP;
0.02 K0 K- pi+ PHSP;
0.02 anti-K0 K+ pi- PHSP;
0.02 K0 K- pi+ pi+ pi- PHSP;
0.02 anti-K0 K+ pi- pi- pi+ PHSP;
0.02 K0 K- pi0 pi+ PHSP;
0.02 anti-K0 K+ pi0 pi- PHSP;
0.02 eta pi0 pi+ pi- PHSP;
0.01 eta rho- pi0 pi+ PHSP;
0.01 eta rho+ pi0 pi- PHSP;
Enddecay
#Decay rho(1900)
#0.08 pi+ pi- PHSP;
#0.05 pi+ pi+ pi- pi- PHSP;
#0.10 pi0 pi+ pi- PHSP;
#0.10 pi0 pi+ pi+ pi- pi- PHSP;
#0.12 pi0 pi0 pi+ pi- PHSP;
#0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.05 pi0 pi0 pi0 pi+ pi- PHSP;
#0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.04 K+ K- pi+ pi- PHSP;
#0.02 K0 K- pi+ PHSP;
#0.02 anti-K0 K+ pi- PHSP;
#0.02 K0 K- pi+ pi+ pi- PHSP;
#0.02 anti-K0 K+ pi- pi- pi+ PHSP;
#0.02 K0 K- pi0 pi+ PHSP;
#0.02 anti-K0 K+ pi0 pi- PHSP;
#0.02 eta pi0 pi+ pi- PHSP;
#0.01 eta rho- pi0 pi+ PHSP;
#0.01 eta rho+ pi0 pi- PHSP;
#Enddecay
Decay omega(2S)
0.08 pi+ pi- PHSP;
0.05 pi+ pi+ pi- pi- PHSP;
0.10 pi0 pi+ pi- PHSP;
0.10 pi0 pi+ pi+ pi- pi- PHSP;
0.12 pi0 pi0 pi+ pi- PHSP;
0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.05 pi0 pi0 pi0 pi+ pi- PHSP;
0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.04 K+ K- pi+ pi- PHSP;
0.02 K0 K- pi+ PHSP;
0.02 anti-K0 K+ pi- PHSP;
0.02 K0 K- pi+ pi+ pi- PHSP;
0.02 anti-K0 K+ pi- pi- pi+ PHSP;
0.02 K0 K- pi0 pi+ PHSP;
0.02 anti-K0 K+ pi0 pi- PHSP;
0.02 eta pi0 pi+ pi- PHSP;
0.01 eta rho- pi0 pi+ PHSP;
0.01 eta rho+ pi0 pi- PHSP;
Enddecay
#Decay rho(2150)
#0.08 pi+ pi- PHSP;
#0.05 pi+ pi+ pi- pi- PHSP;
#0.10 pi0 pi+ pi- PHSP;
#0.10 pi0 pi+ pi+ pi- pi- PHSP;
#0.12 pi0 pi0 pi+ pi- PHSP;
#0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.05 pi0 pi0 pi0 pi+ pi- PHSP;
#0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.04 K+ K- pi+ pi- PHSP;
#0.02 K0 K- pi+ PHSP;
#0.02 anti-K0 K+ pi- PHSP;
#0.02 K0 K- pi+ pi+ pi- PHSP;
#0.02 anti-K0 K+ pi- pi- pi+ PHSP;
#0.02 K0 K- pi0 pi+ PHSP;
#0.02 anti-K0 K+ pi0 pi- PHSP;
#0.02 eta pi0 pi+ pi- PHSP;
#0.01 eta rho- pi0 pi+ PHSP;
#0.01 eta rho+ pi0 pi- PHSP;
#Enddecay
#Decay omega(1960)
#0.08 pi+ pi- PHSP;
#0.05 pi+ pi+ pi- pi- PHSP;
#0.10 pi0 pi+ pi- PHSP;
#0.10 pi0 pi+ pi+ pi- pi- PHSP;
#0.12 pi0 pi0 pi+ pi- PHSP;
#0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.05 pi0 pi0 pi0 pi+ pi- PHSP;
#0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.04 K+ K- pi+ pi- PHSP;
#0.02 K0 K- pi+ PHSP;
#0.02 anti-K0 K+ pi- PHSP;
#0.02 K0 K- pi+ pi+ pi- PHSP;
#0.02 anti-K0 K+ pi- pi- pi+ PHSP;
#0.02 K0 K- pi0 pi+ PHSP;
#0.02 anti-K0 K+ pi0 pi- PHSP;
#0.02 eta pi0 pi+ pi- PHSP;
#0.01 eta rho- pi0 pi+ PHSP;
#0.01 eta rho+ pi0 pi- PHSP;
#Enddecay
#Decay rho(1965)
#0.08 pi+ pi- PHSP;
#0.05 pi+ pi+ pi- pi- PHSP;
#0.10 pi0 pi+ pi- PHSP;
#0.10 pi0 pi+ pi+ pi- pi- PHSP;
#0.12 pi0 pi0 pi+ pi- PHSP;
#0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.05 pi0 pi0 pi0 pi+ pi- PHSP;
#0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.04 K+ K- pi+ pi- PHSP;
#0.02 K0 K- pi+ PHSP;
#0.02 anti-K0 K+ pi- PHSP;
#0.02 K0 K- pi+ pi+ pi- PHSP;
#0.02 anti-K0 K+ pi- pi- pi+ PHSP;
#0.02 K0 K- pi0 pi+ PHSP;
#0.02 anti-K0 K+ pi0 pi- PHSP;
#0.02 eta pi0 pi+ pi- PHSP;
#0.01 eta rho- pi0 pi+ PHSP;
#0.01 eta rho+ pi0 pi- PHSP;
#Enddecay
#
#
# cc= mesons Updated to PDG 2008
#
Decay eta_c
0.0013 p+ anti-p- PHSP;
0.0027 phi phi SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0;
0.0029 phi K+ K- PHSP;
0.0067 rho0 rho0 SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0;
0.0133 rho+ rho- SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0;
0.0120 pi+ pi- pi+ pi- PHSP;
0.0015 K+ K- K+ K- PHSP;
0.0150 K+ K- pi+ pi- PHSP;
0.0327 eta pi+ pi- PHSP;
0.0163 eta pi0 pi0 PHSP;
0.0273 eta' pi+ pi- PHSP;
0.0137 eta' pi0 pi0 PHSP;
0.0117 pi0 K+ K- PHSP;
0.0233 K+ anti-K0 pi- PHSP;
0.0233 K- K0 pi+ PHSP;
0.0117 K0 anti-K0 pi0 PHSP;
0.0046 K*+ K*- SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0;
0.0046 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0 ;
0.01 K*0 K- pi+ PHSP;
0.01 anti-K*0 K+ pi- PHSP;
#
#March 2009 New Modes
0.01500 K*0 anti-K*0 pi+ pi- PHSP;
0.01000 K+ K- pi+ pi- pi+ pi- PHSP;
0.02000 pi+ pi- pi+ pi- pi+ pi- PHSP;
0.00104 Lambda0 anti-Lambda0 PHSP;
0.01000 f_2 f_2 PHSP;
0.00800 f_2 f'_2 PHSP;
#
0.69136 rndmflav anti-rndmflav PYTHIA 12;
Enddecay
#
Decay eta_c(2S)
0.019 K+ anti-K0 pi- PHSP;
0.019 K- K0 pi+ PHSP;
0.0095 pi0 K+ K- PHSP;
0.0095 K0 anti-K0 pi0 PHSP;
0.943 rndmflav anti-rndmflav PYTHIA 12;
Enddecay
#
Decay J/psi
-0.05940 e+ e- PHOTOS VLL;
-0.05930 mu+ mu- PHOTOS VLL;
+0.05940 e+ e- FSR VLL;
+0.05930 mu+ mu- FSR VLL;
0.00564 rho0 pi0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.00563 rho+ pi- PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.00563 rho- pi+ PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.00400 omega pi+ pi- pi0 PHSP;
0.00364 a_20 rho0 PHSP;
0.00363 a_2+ rho- PHSP;
0.00363 a_2- rho+ PHSP;
0.00850 omega pi+ pi- pi+ pi- PHSP;
0.00430 omega f_2 PHSP;
0.00430 omega pi+ pi- PHSP;
0.00300 K*0 anti-K_2*0 PHSP;
0.00300 anti-K*0 K_2*0 PHSP;
0.00305 omega K*0 anti-K0 PHSP;
0.00305 omega anti-K*0 K0 PHSP;
0.00256 K*+ K- PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.00256 K*- K+ PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.002195 K*0 anti-K0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.002195 anti-K*0 K0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.00190 K_1+ K- PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.00190 K_1- K+ PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.00340 omega pi0 pi0 PHSP;
0.00150 b_1+ pi- PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.00150 b_1- pi+ PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
#
0.0017 omega pi- K+ K_S0 PHSP;
0.0017 omega pi- K+ K_L0 PHSP;
0.0017 omega pi+ K- K_S0 PHSP;
0.0017 omega pi+ K- K_L0 PHSP;
0.0000 omega pi- K+ K0 PHSP;
0.0000 omega pi- K+ anti-K0 PHSP;
0.0000 omega pi+ K- K0 PHSP;
0.0000 omega pi+ K- anti-K0 PHSP;
#
0.0023 b_10 pi0 PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.00226 eta pi+ pi- pi+ pi- PHSP;
0.000545 phi K*0 anti-K0 PHSP;
0.000545 phi anti-K*0 K0 PHSP;
0.000545 phi K*+ K- PHSP;
0.000545 phi K*- K+ PHSP;
0.0008 omega K0 anti-K0 PHSP;
0.0008 omega K+ K- PHSP;
0.00166 phi pi+ pi- pi+ pi- PHSP;
0.0016 Delta++ anti-p- pi- PHSP;
0.0016 anti-Delta-- p+ pi+ PHSP;
0.00174 omega eta PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000915 phi K0 anti-K0 PHSP;
0.000915 phi K+ K- PHSP;
0.0011 omega p+ anti-p- PHSP;
0.0011 Delta++ anti-Delta-- PHSP;
0.000515 Sigma- anti-Sigma+ PHSP;
0.000515 Sigma+ anti-Sigma- PHSP;
0.00072 eta pi+ pi- pi+ pi- pi+ pi- PHSP;
0.00015 pi+ pi- PHSP;
0.0130 gamma eta_c PHSP;
0.0083 gamma pi+ pi- pi0 pi0 PHSP;
0.0061 gamma eta pi+ pi- PHSP;
0.00225 gamma rho+ rho- PHSP;
0.00225 gamma rho0 rho0 PHSP;
0.00471 gamma eta' PHSP;
0.0028 gamma pi+ pi- pi+ pi- PHSP;
0.0021 gamma K+ K- pi+ pi- PHSP;
0.00161 gamma omega omega PHSP;
0.00143 gamma f_2 PHSP;
0.0040 gamma K*0 anti-K*0 PHSP;
#
# March 2009 New Modes
0.0011 eta pi- K+ K_S0 PHSP;
0.0011 eta pi- K+ K_L0 PHSP;
0.0011 eta pi+ K- K_S0 PHSP;
0.0011 eta pi+ K- K_L0 PHSP;
0.0000 eta pi- K+ K0 PHSP;
0.0000 eta pi- K+ anti-K0 PHSP;
0.0000 eta pi+ K- K0 PHSP;
0.0000 eta pi+ K- anti-K0 PHSP;
#
0.0410 pi+ pi- pi+ pi- pi0 PHSP;
0.0290 pi+ pi- pi+ pi- pi+ pi- pi0 PHSP;
0.0207 pi+ pi- pi0 PHSP;
0.0179 pi+ pi- pi0 K+ K- PHSP;
0.0162 pi+ pi- pi+ pi- pi0 pi0 PHSP;
0.0090 pi+ pi- pi+ pi- pi+ pi- pi+ pi- pi0 PHSP;
0.0066 pi+ pi- K+ K- PHSP;
0.00184 pi+ pi- K+ K- eta PHSP;
0.00245 pi0 pi0 K+ K- PHSP;
0.0047 pi+ pi- pi+ pi- K+ K- PHSP;
0.00102 K+ K- pi0 PHSP;
0.00102 K0 anti-K0 pi0 PHSP;
0.00203 K+ anti-K0 pi- PHSP;
0.00203 K- K0 pi+ PHSP;
0.00355 pi+ pi- pi+ pi- PHSP;
#### Already included above 0.00229 pi+ pi- pi+ pi- eta PHSP;
0.00430 pi+ pi- pi+ pi- pi+ pi- PHSP;
0.00217 p+ anti-p- PHSP;
0.00109 p+ anti-p- pi0 PHSP;
0.00600 p+ anti-p- pi+ pi- PHSP;
0.00230 p+ anti-p- pi+ pi- pi0 PHSP;
0.00209 p+ anti-p- eta PHSP;
0.00220 n0 anti-n0 PHSP;
0.00400 n0 anti-n0 pi+ pi- PHSP;
0.00129 Sigma0 anti-Sigma0 PHSP;
0.00212 p+ anti-n0 pi- PHSP;
0.00090 Xi0 anti-Xi0 PHSP;
0.00090 Xi- anti-Xi+ PHSP;
0.00161 Lambda0 anti-Lambda0 PHSP;
#
0.092624 rndmflav anti-rndmflav PYTHIA 12;
0.399790 g g g PYTHIA 4;
0.035110 gamma g g PYTHIA 4;
0.0 K0 anti-K0 PHSP;
0.0 K_S0 K_S0 PHSP;
0.0 K_L0 K_L0 PHSP;
0.000146 K_S0 K_L0 PHSP;
Enddecay
#
Decay psi(2S)
-0.00752 e+ e- PHOTOS VLL;
-0.00750 mu+ mu- PHOTOS VLL;
-0.00300 tau+ tau- PHOTOS VLL;
+0.00752 e+ e- FSR VLL;
+0.00750 mu+ mu- FSR VLL;
+0.00300 tau+ tau- FSR VLL;
0.32600 J/psi pi+ pi- VVPIPI;
0.16840 J/psi pi0 pi0 VVPIPI;
0.03160 J/psi eta PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.00126 J/psi pi0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.09400 gamma chi_c0 PHSP;
0.08800 gamma chi_c1 PHSP;
0.08300 gamma chi_c2 PHSP;
0.00300 gamma eta_c PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000136 gamma eta' PHSP;
0.00021 gamma f_2 PHSP;
0.00350 pi+ pi- pi+ pi- pi+ pi- pi0 PHSP;
0.00035 pi+ pi- pi+ pi- pi+ pi- PHSP;
0.00290 pi+ pi- pi+ pi- pi0 PHSP;
0.00020 b_1+ pi- PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.00020 b_1- pi+ PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.00024 b_10 pi0 PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.000168 pi+ pi- pi0 PHSP;
0.0000545 K*0 anti-K0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0000545 anti-K*0 K0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000022 rho0 eta PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000021 omega pi0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000028 phi eta PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000008 rho+ pi- PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000008 rho- pi+ PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000008 rho0 pi0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000001 phi pi0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000001 omega eta PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0000085 K*+ K- PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0000085 K*- K+ PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000185 omega K+ K- PHSP;
0.00075 K+ K- pi+ pi- PHSP;
0.00060 p+ anti-p- pi+ pi- PHSP;
0.000133 p+ anti-p- pi0 PHSP;
0.000274 p+ anti-p- PHSP;
0.00050 K_1+ K- PHSP;
0.00050 K_1- K+ PHSP;
0.00022 rho0 pi+ pi- PHSP;
0.00028 Lambda0 anti-Lambda0 PHSP;
0.000128 Delta++ anti-Delta-- PHSP;
0.00022 Sigma0 anti-Sigma0 PHSP;
0.00026 Sigma*+ anti-Sigma*- PHSP;
0.00018 Xi- anti-Xi+ PHSP;
0.00008 pi+ pi- PHSP;
0.000063 K+ K- PHSP;
0.00007 phi K- K+ PHSP;
0.000117 phi pi- pi+ PHSP;
0.00022 pi+ pi- K_S0 K_S0 PHSP;
0.0008 h_c pi0 PHSP;
0.0 K0 anti-K0 PHSP;
0.0 K_S0 K_S0 PHSP;
0.0 K_L0 K_L0 PHSP;
0.000052 K_S0 K_L0 PHSP;
#
# March 2009 New Modes
0.00470 pi+ pi- pi+ pi- pi0 pi0 PHSP;
0.00120 pi+ pi- pi+ pi- eta PHSP;
0.00130 K+ K- pi+ pi- eta PHSP;
0.00100 K+ K- pi+ pi- pi+ pi- pi0 PHSP;
0.00180 K+ K- pi+ pi- pi+ pi- PHSP;
0.00126 K+ K- pi+ pi- pi0 PHSP;
#
0.017661 rndmflav anti-rndmflav PYTHIA 12;
0.134480 g g g PYTHIA 4;
0.009560 gamma g g PYTHIA 4;
Enddecay
Decay psi(4040)
-0.000014 e+ e- PHOTOS VLL;
-0.000014 mu+ mu- PHOTOS VLL;
+0.000014 e+ e- FSR VLL;
+0.000014 mu+ mu- FSR VLL;
0.000005 tau+ tau- VLL;
0.0021 D0 anti-D0 VSS;
0.0009 D+ D- VSS;
0.1679 D*0 anti-D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1679 anti-D*0 D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1815 D*+ D- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1815 D*- D+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1597 D*0 anti-D*0 PHSP;
0.0982 D*+ D*- PHSP;
0.0000 D0 anti-D0 pi0 PHSP;
0.0000 D+ D- pi0 PHSP;
0.0000 D0 D- pi+ PHSP;
0.0000 anti-D0 D+ pi- PHSP;
0.0000 D*+ D- pi0 PHSP;
0.0000 D*- D+ pi0 PHSP;
0.0000 D*+ anti-D0 pi- PHSP;
0.0000 D*- D0 pi+ PHSP;
0.0000 D+ anti-D*0 pi- PHSP;
0.0000 D- D*0 pi+ PHSP;
0.0403 D_s+ D_s- VSS;
Enddecay
#
Decay psi(4160)
-0.00001 e+ e- PHOTOS VLL;
-0.00001 mu+ mu- PHOTOS VLL;
+0.00001 e+ e- FSR VLL;
+0.00001 mu+ mu- FSR VLL;
0.000006 tau+ tau- VLL;
0.0397 D0 anti-D0 VSS;
0.0387 D+ D- VSS;
0.0520 D*0 anti-D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0520 anti-D*0 D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0515 D*+ D- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0515 D*- D+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.29863 D*0 anti-D*0 PHSP;
0.3082 D*+ D*- PHSP;
0.0000 D0 anti-D0 pi0 PHSP;
0.0000 D+ D- pi0 PHSP;
0.0000 D0 D- pi+ PHSP;
0.0000 anti-D0 D+ pi- PHSP;
0.0000 D*+ D- pi0 PHSP;
0.0000 D*- D+ pi0 PHSP;
0.0000 D*+ anti-D0 pi- PHSP;
0.0000 D*- D0 pi+ PHSP;
0.0000 D+ anti-D*0 pi- PHSP;
0.0000 D- D*0 pi+ PHSP;
0.0100 D_s+ D_s- VSS;
0.0489 D_s*+ D_s- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0489 D_s*- D_s+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0000 D_s+ D_s- pi0 PHSP;
Enddecay
#
Decay psi(4415)
-0.000011 e+ e- PHOTOS VLL;
-0.000011 mu+ mu- PHOTOS VLL;
+0.000011 e+ e- FSR VLL;
+0.000011 mu+ mu- FSR VLL;
0.000007 tau+ tau- VLL;
0.0244 D0 anti-D0 VSS;
0.0219 D+ D- VSS;
0.0320 D*0 anti-D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0320 anti-D*0 D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0343 D*+ D- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0343 D*- D+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3451 D*0 anti-D*0 PHSP;
0.3539 D*+ D*- PHSP;
0.0000 D0 anti-D0 pi0 PHSP;
0.0000 D+ D- pi0 PHSP;
0.0000 D0 D- pi+ PHSP;
0.0000 anti-D0 D+ pi- PHSP;
0.0000 D*+ D- pi0 PHSP;
0.0000 D*- D+ pi0 PHSP;
0.0000 D*+ anti-D0 pi- PHSP;
0.0000 D*- D0 pi+ PHSP;
0.0000 D+ anti-D*0 pi- PHSP;
0.0000 D- D*0 pi+ PHSP;
0.0118 D_s+ D_s- VSS;
0.0420 D_s*+ D_s- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0420 D_s*- D_s+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0263 D_s*+ D_s*- PHSP;
0.0000 D_s+ D_s- pi0 PHSP;
0.0000 D_s*+ D_s- pi0 PHSP;
0.0000 D_s+ D_s*- pi0 PHSP;
0.0000 D_s+ D- anti-K0 PHSP;
0.0000 D_s- D+ anti-K0 PHSP;
0.0000 D0 D_s- K+ PHSP;
0.0000 anti-D0 D_s+ K- PHSP;
Enddecay
#
Decay chi_c0
0.01280 gamma J/psi PHSP;
0.000215 p+ anti-p- PHSP;
0.000235 gamma gamma PHSP;
0.00243 pi0 pi0 PHSP;
0.00487 pi+ pi- PHSP;
0.02161 pi+ pi- pi+ pi- PHSP;
0.00281 K+ K- K+ K- PHSP;
0.0120 pi+ pi- pi+ pi- pi+ pi- PHSP;
0.0087 rho0 pi+ pi- PHSP;
0.0100 rho+ pi- pi0 PHSP;
0.0100 rho- pi+ pi0 PHSP;
0.00057 K+ K- PHSP;
0.00093 phi phi PHSP;
0.0018 anti-K*0 K*0 PHSP;
0.0036 anti-K*0 K+ pi- PHSP;
0.0036 K*0 K- pi+ PHSP;
0.0043 K*+ anti-K0 pi- PHSP;
0.0043 K*- K0 pi+ PHSP;
0.01773 pi+ pi- K+ K- PHSP;
0.0021 pi+ pi- p+ anti-p- PHSP;
0.0024 eta eta PHSP;
0.00044 Lambda0 anti-Lambda0 PHSP;
0.00086 f_0 f_0 PHSP;
0.0 K0 anti-K0 PHSP;
0.00282 K_S0 K_S0 PHSP;
0.00282 K_L0 K_L0 PHSP;
0.0 K_S0 K_L0 PHSP;
#
# March 2009 New Modes
0.00170 eta' eta' PHSP;
0.00230 omega omega PHSP;
0.00325 K_1+ K- PHSP;
0.00325 K_1- K+ PHSP;
0.00101 K+ K- phi PHSP;
0.00117 p+ anti-n0 pi- PHSP;
0.000525 K+ anti-p- Lambda0 PHSP;
0.000525 K- p+ Lambda0 PHSP;
0.00590 K_S0 K_S0 pi+ pi- PHSP;
0.00590 K_L0 K_L0 pi+ pi- PHSP;
0.00000 K0 anti-K0 pi+ pi- PHSP;
0.00150 K+ K- K_S0 K_S0 PHSP;
0.00150 K+ K- K_L0 K_L0 PHSP;
0.00000 K+ K- K0 anti-K0 PHSP;
#
0.83753 rndmflav anti-rndmflav PYTHIA 12;
Enddecay
#
Decay chi_c1
0.3600 J/psi gamma VVP 1.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0;
0.0076 pi+ pi- pi+ pi- PHSP;
0.000066 p+ anti-p- PHSP;
0.0058 pi+ pi- pi+ pi- pi+ pi- PHSP;
0.0045 pi+ pi- K+ K- PHSP;
0.0039 rho0 pi+ pi- PHSP;
0.0020 rho+ pi- pi0 PHSP;
0.0020 rho- pi+ pi0 PHSP;
0.0016 anti-K*0 K+ pi- PHSP;
0.0016 K*0 K- pi+ PHSP;
0.0016 anti-K*0 K*0 PHSP;
0.0009 K*+ anti-K0 pi- PHSP;
0.0009 K*- K0 pi+ PHSP;
0.0005 pi+ pi- p+ anti-p- PHSP;
0.00076 pi+ pi- K_S0 K_S0 PHSP;
0.0003 K+ K- K_S0 K_S0 PHSP;
0.00024 Lambda0 anti-Lambda0 PHSP;
0.00385 K+ anti-K0 pi- PHSP;
0.00385 K- K0 pi+ PHSP;
0.00058 K+ K- K+ K- PHSP;
0.00000 K0 anti-K0 PHSP;
0.00001 K_S0 K_S0 PHSP;
0.00001 K_L0 K_L0 PHSP;
0.00000 K_S0 K_L0 PHSP;
#
# March 2009 New Modes
0.0052 pi+ pi- eta PHSP;
0.0025 pi+ pi- eta' PHSP;
0.00201 K+ K- pi0 PHSP;
#
0.587724 rndmflav anti-rndmflav PYTHIA 12;
Enddecay
#
Decay chi_c2
0.2000 gamma J/psi PHSP;
0.000243 gamma gamma PHSP;
0.000067 p+ anti-p- PHSP;
0.00072 pi0 pi0 TSS;
0.00145 pi+ pi- TSS;
0.0114 pi+ pi- pi+ pi- PHSP;
0.00184 K+ K- K+ K- PHSP;
0.0086 pi+ pi- pi+ pi- pi+ pi- PHSP;
0.0094 pi+ pi- K+ K- PHSP;
0.0041 rho0 pi+ pi- PHSP;
0.0046 rho+ pi- pi0 PHSP;
0.0046 rho- pi+ pi0 PHSP;
0.00079 K+ K- TSS;
0.0025 pi+ pi- K_S0 K_S0 PHSP;
0.0003 K+ K- K_S0 K_S0 PHSP;
0.00154 phi phi PHSP;
0.00115 anti-K*0 K+ pi- PHSP;
0.00115 K*0 K- pi+ PHSP;
0.0026 anti-K*0 K*0 PHSP;
0.0016 K*+ anti-K0 pi- PHSP;
0.0016 K*- K0 pi+ PHSP;
0.00132 pi+ pi- p+ anti-p- PHSP;
0.00027 Lambda0 anti-Lambda0 PHSP;
0.00000 K0 anti-K0 PHSP;
0.00065 K_S0 K_S0 PHSP;
0.00065 K_L0 K_L0 PHSP;
0.00000 K_S0 K_L0 PHSP;
#
# March 2009 New Modes
0.0020 omega omega PHSP;
0.0007 anti-K0 K+ pi- PHSP;
0.0007 K0 K- pi+ PHSP;
0.00163 K+ K- phi PHSP;
0.0012 p+ anti-n0 pi- PHSP;
#
0.73063 rndmflav anti-rndmflav PYTHIA 12;
Enddecay
#
Decay psi(3770)
0.3610 D+ D- VSS;
0.4870 D0 anti-D0 VSS;
0.00193 J/psi pi+ pi- PHSP;
0.0008 J/psi pi0 pi0 PHSP;
0.0073 gamma chi_c0 PHSP;
0.0029 gamma chi_c1 PHSP;
0.13907 rndmflav anti-rndmflav PYTHIA 12;
Enddecay
#
# Dummy decay
Decay X_1(3872)
1.000 mu+ mu- PHSP;
Enddecay
#
#
# bb= Mesons Updated to PDG 2008
#
Decay eta_b
1.000 rndmflav anti-rndmflav PYTHIA 12;
Enddecay
#
Decay Upsilon
-0.0238 e+ e- PHOTOS VLL;
-0.0248 mu+ mu- PHOTOS VLL;
+0.0238 e+ e- FSR VLL;
+0.0248 mu+ mu- FSR VLL;
0.0260 tau+ tau- VLL;
0.01500 d anti-d PYTHIA 32;
0.04500 u anti-u PYTHIA 32;
0.01500 s anti-s PYTHIA 32;
0.04500 c anti-c PYTHIA 32;
0.77640 g g g PYTHIA 4;
0.02900 gamma g g PYTHIA 4;
Enddecay
#
Decay Upsilon(2S)
-0.0191 e+ e- PHOTOS VLL;
-0.0193 mu+ mu- PHOTOS VLL;
+0.0191 e+ e- FSR VLL;
+0.0193 mu+ mu- FSR VLL;
0.0200 tau+ tau- VLL;
0.1880 Upsilon pi+ pi- PHSP;
0.0900 Upsilon pi0 pi0 PHSP;
# V-> gamma S Partial wave (L,S)=(0,1)
0.0430 gamma chi_b0 HELAMP 1. 0. +1. 0.;
# V-> gamma V Partial wave (L,S)=(0,1)
0.0660 gamma chi_b1 HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
# V-> gamma T Partial wave (L,S)=(0,1)
0.0670 gamma chi_b2 HELAMP 2.4494897 0. 1.7320508 0. 1. 0.
1. 0. 1.7320508 0. 2.4494897 0.;
0.00500 d anti-d PYTHIA 32;
0.02000 u anti-u PYTHIA 32;
0.00500 s anti-s PYTHIA 32;
0.02000 c anti-c PYTHIA 32;
0.42160 g g g PYTHIA 4;
0.01600 gamma g g PYTHIA 4;
Enddecay
#
Decay Upsilon(3S)
-0.0181 e+ e- PHOTOS VLL;
-0.0218 mu+ mu- PHOTOS VLL;
+0.0181 e+ e- FSR VLL;
+0.0218 mu+ mu- FSR VLL;
0.0229 tau+ tau- VLL;
0.0448 Upsilon pi+ pi- PHSP;
0.0206 Upsilon pi0 pi0 PHSP;
0.0280 Upsilon(2S) pi+ pi- PHSP;
0.0200 Upsilon(2S) pi0 pi0 PHSP;
0.0500 Upsilon(2S) gamma gamma PHSP;
# V-> gamma S Partial wave (L,S)=(0,1)
0.0590 gamma chi_b0(2P) HELAMP 1. 0. 1. 0.;
# V-> gamma V Partial wave (L,S)=(0,1)
0.1260 gamma chi_b1(2P) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
# V-> gamma T Partial wave (L,S)=(0,1)
0.1310 gamma chi_b2(2P) HELAMP 2.4494897 0. 1.7320508 0. 1. 0.
1. 0. 1.7320508 0. 2.4494897 0.;
0.00700 d anti-d PYTHIA 32;
0.02800 u anti-u PYTHIA 32;
0.00700 s anti-s PYTHIA 32;
0.02800 c anti-c PYTHIA 32;
0.37780 g g g PYTHIA 4;
0.01000 gamma g g PYTHIA 4;
Enddecay
#
Decay Upsilon(5S)
0.5 B+ B- PHSP;
0.5 g g g PYTHIA 4;
Enddecay
Decay chi_b0
# S-> gamma V Partial wave (L,S)=(0,0)
0.0500 gamma Upsilon HELAMP 1. 0. 1. 0.;
0.9500 rndmflav anti-rndmflav PYTHIA 12;
Enddecay
#
Decay chi_b1
# V-> gamma V Partial wave (L,S)=(0,1)
0.3500 gamma Upsilon HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
0.6500 g g PYTHIA 32;
Enddecay
#
Decay chi_b2
# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP.
0.2200 gamma Upsilon PHSP;
#0.2200 gamma Upsilon HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
0.7800 g g PYTHIA 32;
Enddecay
#
Decay chi_b0(2P)
# S-> gamma V Partial wave (L,S)=(0,0)
0.0090 gamma Upsilon HELAMP 1. 0. 1. 0.;
0.0460 gamma Upsilon(2S) HELAMP 1. 0. 1. 0.;
# S-> gamma V Partial wave (L,S)=(0,0)
0.00150 gamma Upsilon_1(1D) HELAMP 1. 0. 1. 0.;
0.94350 g g PYTHIA 32;
Enddecay
#
Decay chi_b1(2P)
# V-> gamma V Partial wave (L,S)=(0,1)
0.0850 gamma Upsilon HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
0.2100 gamma Upsilon(2S) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
# V-> gamma V Partial wave (L,S)=(0,1)
0.0097 gamma Upsilon_1(1D) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
# V-> gamma T Partial wave (L,S)=(0,1)
0.0236 gamma Upsilon_2(1D) HELAMP 2.4494897 0. 1.7320508 0. 1. 0.
1. 0. 1.7320508 0. 2.4494897 0.;
0.6717 g g PYTHIA 32;
Enddecay
#
Decay chi_b2(2P)
# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP.
0.0710 gamma Upsilon PHSP;
#0.0710 gamma Upsilon HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
0.1620 gamma Upsilon(2S) PHSP;
#0.1620 gamma Upsilon(2S) HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP.
0.00023 gamma Upsilon_1(1D) PHSP;
#0.00023 gamma Upsilon_1(1D) HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
# T -> gamma T Partial wave (L,S)=(0,2)
0.00290 gamma Upsilon_2(1D) PHSP;
#0.00290 gamma Upsilon_2(1D) HELAMP -1. 0. -1.2247449 0.
# -1.2247449 0. -1. 0.
# 1. 0. 1.2247449 0.
# 1.2247449 0. 1. 0.;
# spin 3 not yet in HELAMP.
0.01420 gamma Upsilon_3(1D) PYTHIA 0;
# T-> gamma 3 Partial wave (L,S)=(0,2)
#0.01420 gamma Upsilon_3(1D) HELAMP 3.8729833 0. 3.1622777 0.
# 2.4494897 0. 1.7320508. 0. 1. 0.
# 1. 0. 1.7320508 0. 2.4494897 0.
# 3.1622777 0. 3.8729833 0.;
0.74967 g g PYTHIA 32;
Enddecay
#
Decay h_b
1.00000 g g PYTHIA 32;
Enddecay
Decay chi_b0(3P)
#see Kwong and Rosner, PRD 38,279 (1988)
# S-> gamma V Partial wave (L,S)=(0,0)
0.01700 gamma Upsilon(3S) HELAMP 1. 0. 1. 0.;
# S-> gamma V Partial wave (L,S)=(0,0)
0.00400 gamma Upsilon_1(2D) HELAMP 1. 0. 1. 0.;
0.97900 g g PYTHIA 32;
Enddecay
Decay chi_b1(3P)
#see Kwong and Rosner, PRD 38,279 (1988)
# V-> gamma V Partial wave (L,S)=(0,1)
0.15000 gamma Upsilon(3S) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
# V-> gamma T Partial wave (L,S)=(0,1)
0.03100 gamma Upsilon_2(2D) HELAMP 2.4494897 0. 1.7320508 0. 1. 0.
1. 0. 1.7320508 0. 2.4494897 0.;
# V-> gamma V Partial wave (L,S)=(0,1)
0.01300 gamma Upsilon_1(2D) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
0.80600 g g PYTHIA 32;
Enddecay
Decay chi_b2(3P)
#see Kwong and Rosner, PRD 38,279 (1988)
# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP.
0.08700 gamma Upsilon(3S) PHSP;
0.00000 gamma Upsilon(2S) PHSP;
0.00000 gamma Upsilon PHSP;
#0.08700 gamma Upsilon(3S) HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
#0.00000 gamma Upsilon(2S) HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
#0.00000 gamma Upsilon HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
# spin 3 not yet in HELAMP
0.02200 Upsilon_3(2D) gamma PHSP;
# T -> gamma 3 Partial wave (L,S)=(0,2)
#0.02200 gamma Upsilon_3(2D) HELAMP 3.8729833 0. 3.1622777 0.
# 2.4494897 0. 1.7320508. 0. 1. 0.
# 1. 0. 1.7320508 0. 2.4494897 0.
# 3.1622777 0. 3.8729833 0.;
# T -> gamma T Partial wave (L,S)=(0,2)
0.00400 gamma Upsilon_2(2D) PHSP;
#0.00400 gamma Upsilon_2(2D) HELAMP -1. 0. -1.2247449 0.
# -1.2247449 0. -1. 0.
# 1. 0. 1.2247449 0.
# 1.2247449 0. 1. 0.;
# T-> gamma V Partial wave (L,S)=(0,2)
0.00040 gamma Upsilon_1(2D) PHSP;
#0.00040 gamma Upsilon_1(2D) HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
0.88660 g g PYTHIA 32;
Enddecay
Decay Upsilon_1(1D)
#see Kwong and Rosner, PRD 38,279 (1988)
0.00140 Upsilon pi+ pi- PHSP;
0.00070 Upsilon pi0 pi0 PHSP;
# V-> gamma S Partial wave (L,S)=(0,1)
0.60200 gamma chi_b0 HELAMP 1. 0. +1. 0.;
# V-> gamma V Partial wave (L,S)=(0,1)
0.31800 gamma chi_b1 HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
# V-> gamma T Partial wave (L,S)=(0,1)
0.02600 gamma chi_b2 HELAMP 2.4494897 0. 1.7320508 0. 1. 0.
1. 0. 1.7320508 0. 2.4494897 0.;
0.05190 g g g PYTHIA 4;
Enddecay
Decay Upsilon_2(1D)
#see Kwong and Rosner, PRD 38,279 (1988)
0.00140 Upsilon pi+ pi- PHSP;
0.00070 Upsilon pi0 pi0 PHSP;
# T-> gamma T Partial wave (L,S)=(0,2)
0.20300 gamma chi_b2 PHSP;
#0.20300 gamma chi_b2 HELAMP -1. 0. -1.2247449 0.
# -1.2247449 0. -1. 0.
# 1. 0. 1.2247449 0.
# 1.2247449 0. 1. 0.;
# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP.
0.78500 gamma chi_b1 PHSP;
#0.78500 gamma chi_b1 HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
0.00990 g g g PYTHIA 4;
Enddecay
Decay Upsilon_3(1D)
#see Kwong and Rosner, PRD 38,279 (1988)
0.00200 Upsilon pi+ pi- PHSP;
0.00100 Upsilon pi0 pi0 PHSP;
0.95400 chi_b2 gamma PHSP;
0.04300 g g g PYTHIA 4;
Enddecay
Decay Upsilon_1(2D)
#see Kwong and Rosner, PRD 38,279 (1988)
0.00000 Upsilon pi+ pi- PHSP;
0.00000 Upsilon pi0 pi0 PHSP;
0.00000 Upsilon(2S) pi+ pi- PHSP;
0.00000 Upsilon(2S) pi0 pi0 PHSP;
# V-> gamma S Partial wave (L,S)=(0,1)
0.51000 gamma chi_b0(2P) HELAMP 1. 0. +1. 0.;
# V-> gamma V Partial wave (L,S)=(0,1)
0.26000 gamma chi_b1(2P) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
# V-> gamma T Partial wave (L,S)=(0,1)
0.01400 gamma chi_b2(2P) HELAMP 2.4494897 0. 1.7320508 0. 1. 0.
1. 0. 1.7320508 0. 2.4494897 0.;
0.21600 g g g PYTHIA 4;
Enddecay
Decay Upsilon_2(2D)
#see Kwong and Rosner, PRD 38,279 (1988)
0.00000 Upsilon pi+ pi- PHSP;
0.00000 Upsilon pi0 pi0 PHSP;
0.00000 Upsilon(2S) pi+ pi- PHSP;
0.00000 Upsilon(2S) pi0 pi0 PHSP;
# T-> gamma T Partial wave (L,S)=(0,2)
0.04000 gamma chi_b2(2P) PHSP;
#0.04000 gamma chi_b2(2P) HELAMP -1. 0. -1.2247449 0.
# -1.2247449 0. -1. 0.
# 1. 0. 1.2247449 0.
# 1.2247449 0. 1. 0.;
# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP.
0.13000 gamma chi_b1(2P) PHSP;
#0.13000 gamma chi_b1(2P) HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
0.83000 g g g PYTHIA 4;
Enddecay
Decay Upsilon_3(2D)
#see Kwong and Rosner, PRD 38,279 (1988)
0.00000 Upsilon pi+ pi- PHSP;
0.00000 Upsilon pi0 pi0 PHSP;
0.00000 Upsilon(2S) pi+ pi- PHSP;
0.00000 Upsilon(2S) pi0 pi0 PHSP;
0.72000 chi_b2(2P) gamma PHSP;
0.28000 g g g PYTHIA 4;
Enddecay
Decay h_b(2P)
1.00000 g g PYTHIA 32;
Enddecay
Decay h_b(3P)
1.00000 g g PYTHIA 32;
Enddecay
Decay eta_b2(1D)
1.00000 g g PYTHIA 32;
Enddecay
Decay eta_b2(2D)
1.00000 g g PYTHIA 32;
Enddecay
#
# Charm Baryons
#
Decay Lambda_c+
0.01800 e+ nu_e Lambda0 PYTHIA 42;
0.00500 e+ nu_e Sigma0 PYTHIA 42;
0.00500 e+ nu_e Sigma*0 PYTHIA 42;
0.00300 e+ nu_e n0 PYTHIA 42;
0.00200 e+ nu_e Delta0 PYTHIA 42;
0.00600 e+ nu_e p+ pi- PYTHIA 42;
0.00600 e+ nu_e n0 pi0 PYTHIA 42;
0.01800 mu+ nu_mu Lambda0 PYTHIA 42;
0.00500 mu+ nu_mu Sigma0 PYTHIA 42;
0.00500 mu+ nu_mu Sigma*0 PYTHIA 42;
0.00300 mu+ nu_mu n0 PYTHIA 42;
0.00200 mu+ nu_mu Delta0 PYTHIA 42;
0.00600 mu+ nu_mu p+ pi- PYTHIA 42;
0.00600 mu+ nu_mu n0 pi0 PYTHIA 42;
0.00660 Delta++ K- PYTHIA 0;
0.02500 Delta++ K*- PYTHIA 0;
0.02300 p+ anti-K0 PYTHIA 0;
0.04000 p+ anti-K*0 PYTHIA 0;
0.00500 Delta+ anti-K0 PYTHIA 0;
0.00500 Delta+ anti-K*0 PYTHIA 0;
0.00580 Lambda0 pi+ PYTHIA 0;
0.00500 Lambda0 rho+ PYTHIA 0;
0.00550 Sigma0 pi+ PYTHIA 0;
0.00400 Sigma0 rho+ PYTHIA 0;
0.00400 Sigma*0 pi+ PYTHIA 0;
0.00400 Sigma*0 rho+ PYTHIA 0;
0.00400 Sigma+ pi0 PYTHIA 0;
0.00200 Sigma+ eta PYTHIA 0;
0.00200 Sigma+ eta' PYTHIA 0;
0.00400 Sigma+ rho0 PYTHIA 0;
0.00400 Sigma+ omega PYTHIA 0;
0.00300 Sigma*+ pi0 PYTHIA 0;
0.00200 Sigma*+ eta PYTHIA 0;
0.00300 Sigma*+ rho0 PYTHIA 0;
0.00300 Sigma*+ omega PYTHIA 0;
0.00200 Xi0 K+ PYTHIA 0;
0.00200 Xi0 K*+ PYTHIA 0;
0.00200 Xi*0 K+ PYTHIA 0;
0.00100 Delta++ pi- PYTHIA 0;
0.00100 Delta++ rho- PYTHIA 0;
0.00200 p+ pi0 PYTHIA 0;
0.00100 p+ eta PYTHIA 0;
0.00100 p+ eta' PYTHIA 0;
0.00200 p+ rho0 PYTHIA 0;
0.00200 p+ omega PYTHIA 0;
0.00130 p+ phi PYTHIA 0;
0.00180 p+ f_0 PYTHIA 0;
0.00100 Delta+ pi0 PYTHIA 0;
0.00100 Delta+ eta PYTHIA 0;
0.00100 Delta+ eta' PYTHIA 0;
0.00100 Delta+ rho0 PYTHIA 0;
0.00100 Delta+ omega PYTHIA 0;
0.00300 n0 pi+ PYTHIA 0;
0.00300 n0 rho+ PYTHIA 0;
0.00300 Delta0 pi+ PYTHIA 0;
0.00300 Delta0 rho+ PYTHIA 0;
0.00500 Lambda0 K+ PYTHIA 0;
0.00500 Lambda0 K*+ PYTHIA 0;
0.00200 Sigma0 K+ PYTHIA 0;
0.00200 Sigma0 K*+ PYTHIA 0;
0.00100 Sigma*0 K+ PYTHIA 0;
0.00100 Sigma*0 K*+ PYTHIA 0;
0.00200 Sigma+ K0 PYTHIA 0;
0.00200 Sigma+ K*0 PYTHIA 0;
0.00100 Sigma*+ K0 PYTHIA 0;
0.00100 Sigma*+ K*0 PYTHIA 0;
0.13000 u anti-d d su_0 PYTHIA 13;
0.05700 u anti-d d su_1 PYTHIA 13;
0.03500 u anti-s d su_0 PYTHIA 13;
0.03500 u anti-d d ud_0 PYTHIA 13;
0.09500 s uu_1 PYTHIA 13;
0.14000 u su_0 PYTHIA 13;
0.14000 u su_1 PYTHIA 13;
0.03000 d uu_1 PYTHIA 13;
0.01500 u ud_0 PYTHIA 13;
0.01500 u ud_1 PYTHIA 13;
Enddecay
CDecay anti-Lambda_c-
#
Decay Xi_c0
1.000 PYTHIA 84;
Enddecay
Decay anti-Xi_c0
1.000 PYTHIA 84;
Enddecay
#
Decay c-hadron
0.08000 e+ nu_e s specflav PYTHIA 42;
0.08000 mu+ nu_mu s specflav PYTHIA 42;
0.76000 u anti-d s specflav PYTHIA 11;
0.08000 u anti-s s specflav PYTHIA 11;
Enddecay
CDecay anti-c-hadron
#
Decay Sigma_c0
1.0000 Lambda_c+ pi- PHSP;
Enddecay
Decay anti-Sigma_c0
1.0000 anti-Lambda_c- pi+ PHSP;
Enddecay
#
Decay Sigma_c+
1.0000 Lambda_c+ pi0 PHSP;
Enddecay
Decay anti-Sigma_c-
1.0000 anti-Lambda_c- pi0 PHSP;
Enddecay
#
Decay Xi_c+
1.000 PYTHIA 84;
Enddecay
Decay anti-Xi_c-
1.000 PYTHIA 84;
Enddecay
#
Decay Sigma_c++
1.0000 Lambda_c+ pi+ PHSP;
Enddecay
Decay anti-Sigma_c--
1.0000 anti-Lambda_c- pi- PHSP;
Enddecay
#
Decay Xi'_c+
0.1000 Lambda0 K- pi+ pi+ PHSP;
0.0800 Sigma0 K- pi+ pi+ PHSP;
0.8200 gamma Xi_c+ PHSP;
Enddecay
Decay anti-Xi'_c-
0.1000 anti-Lambda0 K+ pi- pi- PHSP;
0.0800 anti-Sigma0 K+ pi- pi- PHSP;
0.8200 gamma anti-Xi_c- PHSP;
Enddecay
#
Decay Xi'_c0
1.0000 gamma Xi_c0 PHSP;
Enddecay
Decay anti-Xi'_c0
1.0000 gamma anti-Xi_c0 PHSP;
Enddecay
#
# Light Baryons
# Lambda0 updated Feb 2009
Decay Lambda0
0.638710 p+ pi- PHSP;
0.357710 n0 pi0 PHSP;
0.001750 n0 gamma PHSP;
0.000840 p+ pi- gamma PHSP;
-0.000832 p+ e- anti-nu_e PHOTOS PHSP;
-0.000158 p+ mu- anti-nu_mu PHOTOS PHSP;
+0.000832 p+ e- anti-nu_e FSR PHSP;
+0.000158 p+ mu- anti-nu_mu FSR PHSP;
Enddecay
#
Decay anti-Lambda0
0.638710 anti-p- pi+ PHSP;
0.357710 anti-n0 pi0 PHSP;
0.001750 anti-n0 gamma PHSP;
0.000840 anti-p- pi+ gamma PHSP;
-0.000832 anti-p- e+ nu_e PHOTOS PHSP;
-0.000158 anti-p- mu+ nu_mu PHOTOS PHSP;
+0.000832 anti-p- e+ nu_e FSR PHSP;
+0.000158 anti-p- mu+ nu_mu FSR PHSP;
Enddecay
#
Decay Lambda(1405)0
0.3333 Sigma+ pi- PHSP;
0.3333 Sigma- pi+ PHSP;
0.3333 Sigma0 pi0 PHSP;
Enddecay
#
Decay anti-Lambda(1405)0
0.3333 anti-Sigma+ pi- PHSP;
0.3333 anti-Sigma- pi+ PHSP;
0.3333 anti-Sigma0 pi0 PHSP;
Enddecay
#
Decay Lambda(1520)0
0.23 p+ K- PHSP;
0.23 n0 anti-K0 PHSP;
0.14 Sigma+ pi- PHSP;
0.14 Sigma- pi+ PHSP;
0.14 Sigma0 pi0 PHSP;
0.0333 Lambda0 pi0 pi0 PHSP;
0.0667 Lambda0 pi+ pi- PHSP;
0.003 Sigma+ pi- pi0 PHSP;
0.003 Sigma- pi+ pi0 PHSP;
0.001 Sigma0 pi0 pi0 PHSP;
0.002 Sigma0 pi+ pi- PHSP;
0.011 Lambda0 gamma PHSP;
Enddecay
#
Decay anti-Lambda(1520)0
0.23 anti-p- K+ PHSP;
0.23 anti-n0 K0 PHSP;
0.14 anti-Sigma- pi+ PHSP;
0.14 anti-Sigma+ pi- PHSP;
0.14 anti-Sigma0 pi0 PHSP;
0.0333 anti-Lambda0 pi0 pi0 PHSP;
0.0667 anti-Lambda0 pi+ pi- PHSP;
0.003 anti-Sigma+ pi- pi0 PHSP;
0.003 anti-Sigma- pi+ pi0 PHSP;
0.001 anti-Sigma0 pi0 pi0 PHSP;
0.002 anti-Sigma0 pi+ pi- PHSP;
0.011 anti-Lambda0 gamma PHSP;
Enddecay
#
Decay Lambda(1600)0
0.176 p+ K- PHSP;
0.176 n0 anti-K0 PHSP;
0.216 Sigma+ pi- PHSP;
0.216 Sigma- pi+ PHSP;
0.216 Sigma0 pi0 PHSP;
Enddecay
#
Decay anti-Lambda(1600)0
0.176 anti-p- K+ PHSP;
0.176 anti-n0 K0 PHSP;
0.216 anti-Sigma+ pi- PHSP;
0.216 anti-Sigma- pi+ PHSP;
0.216 anti-Sigma0 pi0 PHSP;
Enddecay
#
Decay Lambda(1670)0
0.10 p+ K- PHSP;
0.10 n0 anti-K0 PHSP;
0.16 Sigma+ pi- PHSP;
0.16 Sigma- pi+ PHSP;
0.16 Sigma0 pi0 PHSP;
0.32 Lambda0 eta PHSP;
Enddecay
#
Decay anti-Lambda(1670)0
0.10 anti-p- K+ PHSP;
0.10 anti-n0 K0 PHSP;
0.16 anti-Sigma+ pi- PHSP;
0.16 anti-Sigma- pi+ PHSP;
0.16 anti-Sigma0 pi0 PHSP;
0.32 anti-Lambda0 eta PHSP;
Enddecay
#
Decay Lambda(1690)0
0.125 p+ K- PHSP;
0.125 n0 anti-K0 PHSP;
0.10 Sigma+ pi- PHSP;
0.10 Sigma- pi+ PHSP;
0.10 Sigma0 pi0 PHSP;
0.0833 Lambda0 pi0 pi0 PHSP;
0.1667 Lambda0 pi+ pi- PHSP;
0.067 Sigma+ pi- pi0 PHSP;
0.067 Sigma- pi+ pi0 PHSP;
0.022 Sigma0 pi0 pi0 PHSP;
0.044 Sigma0 pi+ pi- PHSP;
Enddecay
#
Decay anti-Lambda(1690)0
0.125 anti-p- K+ PHSP;
0.125 anti-n0 K0 PHSP;
0.10 anti-Sigma+ pi- PHSP;
0.10 anti-Sigma- pi+ PHSP;
0.10 anti-Sigma0 pi0 PHSP;
0.0833 anti-Lambda0 pi0 pi0 PHSP;
0.1667 anti-Lambda0 pi+ pi- PHSP;
0.067 anti-Sigma+ pi- pi0 PHSP;
0.067 anti-Sigma- pi+ pi0 PHSP;
0.022 anti-Sigma0 pi0 pi0 PHSP;
0.044 anti-Sigma0 pi+ pi- PHSP;
Enddecay
#
Decay Lambda(1800)0
0.165 p+ K- PHSP;
0.165 n0 anti-K0 PHSP;
0.08 Sigma+ pi- PHSP;
0.08 Sigma- pi+ PHSP;
0.08 Sigma0 pi0 PHSP;
0.003 Sigma*+ pi- PHSP;
0.003 Sigma*- pi+ PHSP;
0.004 Sigma*0 pi0 PHSP;
0.21 p+ K*- PHSP;
0.21 n0 anti-K*0 PHSP;
Enddecay
#
Decay anti-Lambda(1800)0
0.165 anti-p- K+ PHSP;
0.165 anti-n0 K0 PHSP;
0.08 anti-Sigma+ pi- PHSP;
0.08 anti-Sigma- pi+ PHSP;
0.08 anti-Sigma0 pi0 PHSP;
0.003 anti-Sigma*+ pi- PHSP;
0.003 anti-Sigma*- pi+ PHSP;
0.004 anti-Sigma*0 pi0 PHSP;
0.21 anti-p- K*+ PHSP;
0.21 anti-n0 K*0 PHSP;
Enddecay
#
Decay Lambda(1810)0
0.165 p+ K- PHSP;
0.165 n0 anti-K0 PHSP;
0.08 Sigma+ pi- PHSP;
0.08 Sigma- pi+ PHSP;
0.08 Sigma0 pi0 PHSP;
0.003 Sigma*+ pi- PHSP;
0.003 Sigma*- pi+ PHSP;
0.004 Sigma*0 pi0 PHSP;
0.21 p+ K*- PHSP;
0.21 n0 anti-K*0 PHSP;
Enddecay
#
Decay anti-Lambda(1810)0
0.165 anti-p- K+ PHSP;
0.165 anti-n0 K0 PHSP;
0.08 anti-Sigma+ pi- PHSP;
0.08 anti-Sigma- pi+ PHSP;
0.08 anti-Sigma0 pi0 PHSP;
0.003 anti-Sigma*+ pi- PHSP;
0.003 anti-Sigma*- pi+ PHSP;
0.004 anti-Sigma*0 pi0 PHSP;
0.21 anti-p- K*+ PHSP;
0.21 anti-n0 K*0 PHSP;
Enddecay
#
Decay Lambda(1820)0
0.34 p+ K- PHSP;
0.34 n0 anti-K0 PHSP;
0.06 Sigma+ pi- PHSP;
0.06 Sigma- pi+ PHSP;
0.06 Sigma0 pi0 PHSP;
0.04 Sigma*+ pi- PHSP;
0.04 Sigma*- pi+ PHSP;
0.04 Sigma*0 pi0 PHSP;
0.01 Lambda0 eta PHSP;
0.003 Sigma+ pi- pi0 PHSP;
0.004 Sigma- pi+ pi0 PHSP;
0.001 Sigma0 pi0 pi0 PHSP;
0.002 Sigma0 pi+ pi- PHSP;
Enddecay
#
Decay anti-Lambda(1820)0
0.34 anti-p- K+ PHSP;
0.34 anti-n0 K0 PHSP;
0.06 anti-Sigma+ pi- PHSP;
0.06 anti-Sigma- pi+ PHSP;
0.06 anti-Sigma0 pi0 PHSP;
0.04 anti-Sigma*+ pi- PHSP;
0.04 anti-Sigma*- pi+ PHSP;
0.04 anti-Sigma*0 pi0 PHSP;
0.01 anti-Lambda0 eta PHSP;
0.003 anti-Sigma+ pi- pi0 PHSP;
0.004 anti-Sigma- pi+ pi0 PHSP;
0.001 anti-Sigma0 pi0 pi0 PHSP;
0.002 anti-Sigma0 pi+ pi- PHSP;
Enddecay
#
Decay Lambda(1830)0
0.05 p+ K- PHSP;
0.05 n0 anti-K0 PHSP;
0.24 Sigma+ pi- PHSP;
0.24 Sigma- pi+ PHSP;
0.24 Sigma0 pi0 PHSP;
0.06 Sigma*+ pi- PHSP;
0.06 Sigma*- pi+ PHSP;
0.06 Sigma*0 pi0 PHSP;
Enddecay
#
Decay anti-Lambda(1830)0
0.05 anti-p- K+ PHSP;
0.05 anti-n0 K0 PHSP;
0.24 anti-Sigma+ pi- PHSP;
0.24 anti-Sigma- pi+ PHSP;
0.24 anti-Sigma0 pi0 PHSP;
0.06 anti-Sigma*+ pi- PHSP;
0.06 anti-Sigma*- pi+ PHSP;
0.06 anti-Sigma*0 pi0 PHSP;
Enddecay
#
#
Decay Sigma(1660)0
0.07 p+ K- PHSP;
0.07 n0 anti-K0 PHSP;
0.16 Lambda0 pi0 PHSP;
0.35 Sigma+ pi- PHSP;
0.35 Sigma- pi+ PHSP;
Enddecay
#
Decay anti-Sigma(1660)0
0.07 anti-p- K+ PHSP;
0.07 anti-n0 K0 PHSP;
0.16 anti-Lambda0 pi0 PHSP;
0.35 anti-Sigma+ pi- PHSP;
0.35 anti-Sigma- pi+ PHSP;
Enddecay
#
Decay Sigma(1670)0
0.07 p+ K- PHSP;
0.07 n0 anti-K0 PHSP;
0.16 Lambda0 pi0 PHSP;
0.35 Sigma+ pi- PHSP;
0.35 Sigma- pi+ PHSP;
Enddecay
#
Decay anti-Sigma(1670)0
0.07 anti-p- K+ PHSP;
0.07 anti-n0 K0 PHSP;
0.16 anti-Lambda0 pi0 PHSP;
0.35 anti-Sigma+ pi- PHSP;
0.35 anti-Sigma- pi+ PHSP;
Enddecay
#
Decay Sigma(1775)0
0.215 p+ K- PHSP;
0.215 n0 anti-K0 PHSP;
0.20 Lambda0 pi0 PHSP;
0.02 Sigma+ pi- PHSP;
0.02 Sigma- pi+ PHSP;
0.055 Sigma*+ pi- PHSP;
0.055 Sigma*- pi+ PHSP;
0.22 Lambda(1520)0 pi0 PHSP;
Enddecay
#
Decay anti-Sigma(1775)0
0.215 anti-p- K+ PHSP;
0.215 anti-n0 K0 PHSP;
0.20 anti-Lambda0 pi0 PHSP;
0.02 anti-Sigma+ pi- PHSP;
0.02 anti-Sigma- pi+ PHSP;
0.055 anti-Sigma*+ pi- PHSP;
0.055 anti-Sigma*- pi+ PHSP;
0.22 anti-Lambda(1520)0 pi0 PHSP;
Enddecay
Decay Sigma+
0.5157 p+ pi0 PHSP;
0.4831 n0 pi+ PHSP;
0.0012 p+ gamma PHSP;
Enddecay
Decay anti-Sigma-
0.5157 anti-p- pi0 PHSP;
0.4831 anti-n0 pi- PHSP;
0.0012 anti-p- gamma PHSP;
Enddecay
#
Decay Delta+
0.6630 p+ pi0 PHSP;
0.3310 n0 pi+ PHSP;
0.0060 p+ gamma PHSP;
Enddecay
Decay anti-Delta-
0.6630 anti-p- pi0 PHSP;
0.3310 anti-n0 pi- PHSP;
0.0060 anti-p- gamma PHSP;
Enddecay
#
Decay Delta++
1.0000 p+ pi+ PHSP;
Enddecay
Decay anti-Delta--
1.0000 anti-p- pi- PHSP;
Enddecay
#
Decay Xi*0
0.3330 Xi0 pi0 PHSP;
0.6670 Xi- pi+ PHSP;
Enddecay
Decay anti-Xi*0
0.3330 anti-Xi0 pi0 PHSP;
0.6670 anti-Xi+ pi- PHSP;
Enddecay
#
Decay Delta0
0.3310 p+ pi- PHSP;
0.6630 n0 pi0 PHSP;
0.0060 n0 gamma PHSP;
Enddecay
Decay anti-Delta0
0.3310 anti-p- pi+ PHSP;
0.6630 anti-n0 pi0 PHSP;
0.0060 anti-n0 gamma PHSP;
Enddecay
#
Decay Delta-
1.0000 n0 pi- PHSP;
Enddecay
Decay anti-Delta+
1.0000 anti-n0 pi+ PHSP;
Enddecay
#
Decay Sigma-
0.484 n0 pi- PHSP;
0.516 anti-p- pi0 PHSP;
Enddecay
Decay anti-Sigma+
0.484 anti-n0 pi+ PHSP;
0.516 p+ pi0 PHSP;
Enddecay
#
Decay Sigma0
1.0000 gamma Lambda0 PHSP;
Enddecay
Decay anti-Sigma0
1.0000 gamma anti-Lambda0 PHSP;
Enddecay
#
Decay Sigma*-
0.8800 Lambda0 pi- PHSP;
0.0600 Sigma0 pi- PHSP;
0.0600 Sigma- pi0 PHSP;
Enddecay
Decay anti-Sigma*+
0.8800 anti-Lambda0 pi+ PHSP;
0.0600 anti-Sigma0 pi+ PHSP;
0.0600 anti-Sigma+ pi0 PHSP;
Enddecay
#
Decay Sigma*+
0.8800 Lambda0 pi+ PHSP;
0.0600 Sigma+ pi0 PHSP;
0.0600 Sigma0 pi+ PHSP;
Enddecay
Decay anti-Sigma*-
0.8800 anti-Lambda0 pi- PHSP;
0.0600 anti-Sigma- pi0 PHSP;
0.0600 anti-Sigma0 pi- PHSP;
Enddecay
#
Decay Sigma*0
0.8800 Lambda0 pi0 PHSP;
0.0600 Sigma+ pi- PHSP;
0.0600 Sigma- pi+ PHSP;
Enddecay
Decay anti-Sigma*0
0.8800 anti-Lambda0 pi0 PHSP;
0.0600 anti-Sigma- pi+ PHSP;
0.0600 anti-Sigma+ pi- PHSP;
Enddecay
#
Decay Xi0
1.0000 Lambda0 pi0 PHSP;
Enddecay
Decay anti-Xi0
1.0000 anti-Lambda0 pi0 PHSP;
Enddecay
#
Decay Xi-
1.0000 Lambda0 pi- PHSP;
Enddecay
Decay anti-Xi+
1.0000 anti-Lambda0 pi+ PHSP;
Enddecay
#
Decay Xi*-
0.6670 Xi0 pi- PHSP;
0.3330 Xi- pi0 PHSP;
Enddecay
Decay anti-Xi*+
0.6670 anti-Xi0 pi+ PHSP;
0.3330 anti-Xi+ pi0 PHSP;
Enddecay
#
Decay Omega-
0.6780 Lambda0 K- PHSP;
0.2360 Xi0 pi- PHSP;
0.0860 Xi- pi0 PHSP;
Enddecay
Decay anti-Omega+
0.6780 anti-Lambda0 K+ PHSP;
0.2360 anti-Xi0 pi+ PHSP;
0.0860 anti-Xi+ pi0 PHSP;
Enddecay
#
#
Decay Sigma_c*0
1.0000 Lambda_c+ pi- PHSP;
Enddecay
CDecay anti-Sigma_c*0
#
Decay Sigma_c*+
1.0000 Lambda_c+ pi0 PHSP;
Enddecay
CDecay anti-Sigma_c*-
#
Decay Sigma_c*++
1.0000 Lambda_c+ pi+ PHSP;
Enddecay
CDecay anti-Sigma_c*--
#
Decay Xi_c*0
0.5000 Xi_c0 pi0 PHSP;
0.5000 Xi_c0 gamma PHSP;
Enddecay
CDecay anti-Xi_c*0
#
Decay Xi_c*+
0.5000 Xi_c+ pi0 PHSP;
0.5000 Xi_c+ gamma PHSP;
Enddecay
CDecay anti-Xi_c*-
#
Decay Omega_c0
1.00000 PYTHIA 84;
Enddecay
#
CDecay anti-Omega_c0
#
Decay Omega_c*0
1.0000 Omega_c0 gamma PHSP;
Enddecay
#
CDecay anti-Omega_c*0
#
Decay Xu0
# X_u^0 -> u anti-u
#
1.0 u anti-u PYTHIA 11;
Enddecay
Decay Xu+
# X_u^+ -> u anti-d
#
1.0 u anti-d PYTHIA 11;
Enddecay
CDecay Xu-
#lange - PYTHIA is making h_c mesons - better add a decay
# channel for them.
Decay h_c
0.01 J/psi pi0 PHSP;
0.5 eta_c gamma PHSP;
0.49 rndmflav anti-rndmflav PYTHIA 12;
Enddecay
# 12/08/03 RJT Update b-baryon decays...
Decay Lambda_b0
# SemiLeptonic Decays (inclusive BR = 7.7 +/- 1.8%)
0.05460 Lambda_c+ e- anti-nu_e PHSP;
0.01280 Lambda_c(2593)+ e- anti-nu_e PHSP;
0.00960 Lambda_c(2625)+ e- anti-nu_e PHSP;
0.00000 Sigma_c0 pi+ e- anti-nu_e PHSP;
0.00000 Sigma_c+ pi0 e- anti-nu_e PHSP;
0.00000 Sigma_c++ pi- e- anti-nu_e PHSP;
0.00000 Sigma_c*0 pi+ e- anti-nu_e PHSP;
0.00000 Sigma_c*+ pi0 e- anti-nu_e PHSP;
0.00000 Sigma_c*++ pi- e- anti-nu_e PHSP;
#
0.05460 Lambda_c+ mu- anti-nu_mu PHSP;
0.01280 Lambda_c(2593)+ mu- anti-nu_mu PHSP;
0.00960 Lambda_c(2625)+ mu- anti-nu_mu PHSP;
0.00000 Sigma_c0 pi+ mu- anti-nu_mu PHSP;
0.00000 Sigma_c+ pi0 mu- anti-nu_mu PHSP;
0.00000 Sigma_c++ pi- mu- anti-nu_mu PHSP;
0.00000 Sigma_c*0 pi+ mu- anti-nu_mu PHSP;
0.00000 Sigma_c*+ pi0 mu- anti-nu_mu PHSP;
0.00000 Sigma_c*++ pi- mu- anti-nu_mu PHSP;
#
0.01720 Lambda_c+ tau- anti-nu_tau PHSP;
0.00430 Lambda_c(2593)+ tau- anti-nu_tau PHSP;
0.00320 Lambda_c(2625)+ tau- anti-nu_tau PHSP;
0.00000 Sigma_c0 pi+ tau- anti-nu_tau PHSP;
0.00000 Sigma_c+ pi0 tau- anti-nu_tau PHSP;
0.00000 Sigma_c++ pi- tau- anti-nu_tau PHSP;
0.00000 Sigma_c*0 pi+ tau- anti-nu_tau PHSP;
0.00000 Sigma_c*+ pi0 tau- anti-nu_tau PHSP;
0.00000 Sigma_c*++ pi- tau- anti-nu_tau PHSP;
# Hadronic Decays with Lambda_c+
0.04000 Lambda_c+ pi- PHSP;
0.02200 Lambda_c+ pi- pi+ pi- PHSP;
0.00055 Lambda_c+ K- PHSP;
0.02200 Lambda_c+ D_s- PHSP;
0.04400 Lambda_c+ D_s*- PHSP;
0.01000 Lambda_c+ rho- PHSP;
0.02000 Lambda_c+ a_1- PHSP;
0.02000 Lambda0 K0 pi+ pi+ pi- pi- PHSP;
# Addition PR LHCb 09 Apr 2004, Lambda_b -> Lambda D0b
0.00080 Lambda0 anti-D0 PHSP;
# Addition PR LHCb 04/07/04
0.0000185 p+ K- PHSP;
0.0000048 p+ pi- PHSP;
# Addition PR LHCb 09 Apr 2004, Lambda_b -> Lambda rho0 and -> Lambda phi
0.0000050 Lambda0 rho0 PHSP;
0.0000200 Lambda0 phi PHSP;
#
0.00047 Lambda0 J/psi PHSP;
0.00038 Lambda0 psi(2S) PHSP;
0.00100 Lambda0 eta_c PHSP;
0.00080 n0 D0 PHSP;
#
# Additional decays from hep-ph/9709372 scaled to the Lambda_c0 pi rate
0.00060 Sigma_c+ pi- PHSP;
0.00060 Sigma_c0 pi0 PHSP;
0.00040 Sigma_c0 eta PHSP;
0.00050 Sigma_c0 eta' PHSP;
0.00030 Xi_c0 K0 PHSP;
0.00050 Xi'_c0 K0 PHSP;
# PR LHCb 27 Apr 2004, addition of Pythia decays
0.44111 anti-u d c ud_0 PYTHIA 48;
0.09100 anti-u c d ud_0 PYTHIA 13;
0.08000 anti-c s c ud_0 PYTHIA 13;
0.01200 anti-u d u ud_0 PYTHIA 42;
0.01200 anti-c s u ud_0 PYTHIA 42;
# PR LHCb 2 Dec 2004, add Lambda gamma decay mode
0.000065 Lambda0 gamma HELAMP 1. 0. 0. 0. ;
0.000059 Lambda(1520)0 gamma PHSP ;
0.000056 Lambda(1670)0 gamma HELAMP 1. 0. 0. 0. ;
0.000057 Lambda(1600)0 gamma HELAMP 1. 0. 0. 0. ;
Enddecay
Decay anti-Lambda_b0
# SemiLeptonic Decays (inclusive BR = 7.7 +/- 1.8%)
0.05460 anti-Lambda_c- e+ nu_e PHSP;
0.01280 anti-Lambda_c(2593)- e+ nu_e PHSP;
0.00960 anti-Lambda_c(2625)- e+ nu_e PHSP;
0.00000 anti-Sigma_c0 pi- e+ nu_e PHSP;
0.00000 anti-Sigma_c- pi0 e+ nu_e PHSP;
0.00000 anti-Sigma_c-- pi+ e+ nu_e PHSP;
0.00000 anti-Sigma_c*0 pi- e+ nu_e PHSP;
0.00000 anti-Sigma_c*- pi0 e+ nu_e PHSP;
0.00000 anti-Sigma_c*-- pi+ e+ nu_e PHSP;
#
0.05460 anti-Lambda_c- mu+ nu_mu PHSP;
0.01280 anti-Lambda_c(2593)- mu+ nu_mu PHSP;
0.00960 anti-Lambda_c(2625)- mu+ nu_mu PHSP;
0.00000 anti-Sigma_c0 pi- mu+ nu_mu PHSP;
0.00000 anti-Sigma_c- pi0 mu+ nu_mu PHSP;
0.00000 anti-Sigma_c-- pi+ mu+ nu_mu PHSP;
0.00000 anti-Sigma_c*0 pi- mu+ nu_mu PHSP;
0.00000 anti-Sigma_c*- pi0 mu+ nu_mu PHSP;
0.00000 anti-Sigma_c*-- pi+ mu+ nu_mu PHSP;
#
0.01720 anti-Lambda_c- tau+ nu_tau PHSP;
0.00430 anti-Lambda_c(2593)- tau+ nu_tau PHSP;
0.00320 anti-Lambda_c(2625)- tau+ nu_tau PHSP;
0.00000 anti-Sigma_c0 pi- tau+ nu_tau PHSP;
0.00000 anti-Sigma_c- pi0 tau+ nu_tau PHSP;
0.00000 anti-Sigma_c-- pi+ tau+ nu_tau PHSP;
0.00000 anti-Sigma_c*0 pi- tau+ nu_tau PHSP;
0.00000 anti-Sigma_c*- pi0 tau+ nu_tau PHSP;
0.00000 anti-Sigma_c*-- pi+ tau+ nu_tau PHSP;
# Hadronic Decays with anti-Lambda_c-
0.04000 anti-Lambda_c- pi+ PHSP;
0.02200 anti-Lambda_c- pi+ pi+ pi- PHSP;
0.00055 anti-Lambda_c- K+ PHSP;
0.02200 anti-Lambda_c- D_s+ PHSP;
0.04400 anti-Lambda_c- D_s*+ PHSP;
0.01000 anti-Lambda_c- rho+ PHSP;
0.02000 anti-Lambda_c- a_1+ PHSP;
0.02000 Lambda0 anti-K0 pi- pi- pi+ pi+ PHSP;
# Addition LHCb PR 09 Apr 2004 Lambda_b -> Lambda D0b
0.00080 anti-Lambda0 D0 PHSP;
# PR LHCb 04/07/04 Addition
0.0000185 anti-p- K+ PHSP;
0.0000048 anti-p- pi+ PHSP;
# Addition PR LHCb 09 Apr 2004, Lambda_b -> Lambda rho0 and -> Lambda phi
0.0000050 anti-Lambda0 rho0 PHSP;
0.0000200 anti-Lambda0 phi PHSP;
#
0.00047 anti-Lambda0 J/psi PHSP;
0.00038 anti-Lambda0 psi(2S) PHSP;
0.001000 anti-Lambda0 eta_c PHSP;
0.00080 anti-n0 anti-D0 PHSP;
#
# Additional decays from hep-ph/9709372 scaled to the Lambda_c0 pi rate
0.00060 anti-Sigma_c- pi+ PHSP;
0.00060 anti-Sigma_c0 pi0 PHSP;
0.00040 anti-Sigma_c0 eta PHSP;
0.00050 anti-Sigma_c0 eta' PHSP;
0.00030 anti-Xi_c0 anti-K0 PHSP;
0.00050 anti-Xi'_c0 anti-K0 PHSP;
# PR LHCb 27 Apr 2004, addition of Pythia decays
0.44111 u anti-d anti-c anti-ud_0 PYTHIA 48;
0.09100 u anti-c anti-d anti-ud_0 PYTHIA 13;
0.08000 c anti-s anti-c anti-ud_0 PYTHIA 13;
0.01200 u anti-d anti-u anti-ud_0 PYTHIA 42;
0.01200 c anti-s anti-u anti-ud_0 PYTHIA 42;
# PR LHCb 2 Dec 2004 add Lambda gamma
0.000065 anti-Lambda0 gamma HELAMP 0. 0. 1. 0. ;
0.000059 anti-Lambda(1520)0 gamma PHSP ;
0.000056 anti-Lambda(1670)0 gamma HELAMP 0. 0. 1. 0. ;
0.000057 anti-Lambda(1600)0 gamma HELAMP 0. 0. 1. 0. ;
Enddecay
Decay Xi_b-
# SemiLeptonic Decays
0.05460 Xi_c0 e- anti-nu_e PHSP;
0.05460 Xi_c0 mu- anti-nu_mu PHSP;
0.02000 Xi_c0 tau- anti-nu_tau PHSP;
# Hadronic Decays with Xi_c0
0.00600 Xi_c0 pi- PHSP;
0.02200 Xi_c0 pi- pi+ pi- PHSP;
0.00055 Xi_c0 K- PHSP;
0.02200 Xi_c0 D_s- PHSP;
0.00047 Xi- J/psi PHSP;
# added by D.Litvintsev 12/8/03:
0.00038 Xi- psi(2S) PHSP;
0.00018 D0 Lambda0 pi- PHSP;
0.00020 Sigma_c0 K- PHSP;
0.00020 Omega_c0 K- PHSP;
#
# aaa 10/19/05 Do not if this is correct but filling out with inclusives
0.38757 d anti-u d cs_0 PYTHIA 13;
0.16995 d anti-u d cs_1 PYTHIA 13;
0.06335 s anti-u d cs_0 PYTHIA 13;
0.00568 d anti-u s cs_1 PYTHIA 13;
0.00797 d anti-u s cs_0 PYTHIA 13;
0.06148 s anti-c d cs_0 PYTHIA 13;
0.06918 d anti-u d cd_0 PYTHIA 13;
0.03999 s anti-c d cd_0 PYTHIA 13;
0.00865 d anti-u d su_0 PYTHIA 13;
0.00500 s anti-c d su_0 PYTHIA 13;
Enddecay
Decay anti-Xi_b+
# SemiLeptonic Decays
0.05460 anti-Xi_c0 e+ nu_e PHSP;
0.05460 anti-Xi_c0 mu+ nu_mu PHSP;
0.02000 anti-Xi_c0 tau+ nu_tau PHSP;
# Hadronic Decays with anti-Xi_c0
0.00600 anti-Xi_c0 pi+ PHSP;
0.02200 anti-Xi_c0 pi+ pi+ pi- PHSP;
0.00055 anti-Xi_c0 K+ PHSP;
0.02200 anti-Xi_c0 D_s+ PHSP;
0.00047 anti-Xi+ J/psi PHSP;
# added by D.Litvintsev 12/8/03:
0.00038 anti-Xi+ psi(2S) PHSP;
0.00018 anti-D0 anti-Lambda0 pi+ PHSP;
0.00020 anti-Sigma_c0 K+ PHSP;
0.00020 anti-Omega_c0 K+ PHSP;
# aaa 10/19/05 Do not if this is correct but filling out with inclusives
0.38757 u anti-d anti-d anti-cs_0 PYTHIA 13;
0.16995 u anti-d anti-d anti-cs_1 PYTHIA 13;
0.06335 u anti-s anti-d anti-cs_0 PYTHIA 13;
0.00568 u anti-d anti-s anti-cs_1 PYTHIA 13;
0.00797 u anti-d anti-s anti-cs_0 PYTHIA 13;
0.06148 c anti-s anti-d anti-cs_0 PYTHIA 13;
0.06918 u anti-d anti-d anti-cd_0 PYTHIA 13;
0.03999 c anti-s anti-d anti-cd_0 PYTHIA 13;
0.00865 u anti-d anti-d anti-su_0 PYTHIA 13;
0.00500 c anti-s anti-d anti-su_0 PYTHIA 13;
Enddecay
Decay Xi_b0
# SemiLeptonic Decays
0.05460 Xi_c+ e- anti-nu_e PHSP;
0.05460 Xi_c+ mu- anti-nu_mu PHSP;
0.02000 Xi_c+ tau- anti-nu_tau PHSP;
# Hadronic Decays with Xi_c+
0.00600 Xi_c+ pi- PHSP;
0.02200 Xi_c+ pi- pi+ pi- PHSP;
0.00055 Xi_c+ K- PHSP;
0.02200 Xi_c+ D_s- PHSP;
0.00047 Xi0 J/psi PHSP;
# added by D.Litvintsev 12/8/03:
0.00020 D0 Lambda0 PHSP;
0.00010 Lambda_c+ K- PHSP;
0.00020 Sigma_c0 anti-K0 PHSP;
0.00020 Omega_c0 K0 PHSP;
#
# Additional decays from hep-ph/9709372 scaled to the Lambda_c0 pi rate
0.00020 Xi'_c+ pi- PHSP;
0.00003 Xi_c0 pi0 PHSP;
0.00015 Xi_c0 eta PHSP;
0.00004 Xi_c0 eta' PHSP;
0.00020 Xi'_c0 pi0 PHSP;
0.00020 Xi'_c0 eta PHSP;
0.00030 Xi'_c0 eta' PHSP;
0.00040 Sigma_c+ K- PHSP;
# aaa 10/19/05 Do not if this is correct but filling out with inclusives
0.58591 d anti-u s cu_0 PYTHIA 13;
0.01363 s anti-u s cu_1 PYTHIA 13;
0.09539 s anti-u s cc_1 PYTHIA 13;
0.10900 s anti-u d cu_1 PYTHIA 13;
0.01363 d anti-u d uu_1 PYTHIA 13;
Enddecay
Decay anti-Xi_b0
0.05460 anti-Xi_c- e+ nu_e PHSP;
0.05460 anti-Xi_c- mu+ nu_mu PHSP;
0.02000 anti-Xi_c- tau+ nu_tau PHSP;
# Hadronic Decays with anti-Xi_c-
0.00600 anti-Xi_c- pi+ PHSP;
0.02200 anti-Xi_c- pi+ pi+ pi- PHSP;
0.00055 anti-Xi_c- K+ PHSP;
0.02200 anti-Xi_c- D_s+ PHSP;
0.00047 anti-Xi0 J/psi PHSP;
# added by D.Litvintsev 12/8/03:
0.00020 anti-D0 anti-Lambda0 PHSP;
0.00010 anti-Lambda_c- K+ PHSP;
0.00020 anti-Sigma_c0 K0 PHSP;
0.00020 anti-Omega_c0 anti-K0 PHSP;
#
# Additional decays from hep-ph/9709372 scaled to the Lambda_c0 pi rate
0.00020 anti-Xi'_c- pi+ PHSP;
0.00003 anti-Xi_c0 pi0 PHSP;
0.00015 anti-Xi_c0 eta PHSP;
0.00004 anti-Xi_c0 eta' PHSP;
0.00020 anti-Xi'_c0 pi0 PHSP;
0.00020 anti-Xi'_c0 eta PHSP;
0.00030 anti-Xi'_c0 eta' PHSP;
0.00040 anti-Sigma_c- K+ PHSP;
# aaa 10/19/05 Do not if this is correct but filling out with inclusives
0.58591 u anti-d anti-s anti-cu_0 PYTHIA 13;
0.01363 u anti-s anti-s anti-cu_1 PYTHIA 13;
0.09539 u anti-s anti-s anti-cc_1 PYTHIA 13;
0.10900 u anti-s anti-d anti-cu_1 PYTHIA 13;
0.01363 u anti-d anti-d anti-uu_1 PYTHIA 13;
Enddecay
# added by D.Litvintsev 12/8/03:
Decay Omega_b-
# SemiLeptonic Decays
0.05460 Omega_c0 e- anti-nu_e PHSP;
0.05460 Omega_c0 mu- anti-nu_mu PHSP;
0.02000 Omega_c0 tau- anti-nu_tau PHSP;
# Hadronic Decays with Xi_c+
0.00600 Omega_c0 pi- PHSP;
0.02200 Omega_c0 pi- pi+ pi- PHSP;
0.00055 Omega_c0 K- PHSP;
0.02200 Omega_c0 D_s- PHSP;
0.0011 D0 Xi- PHSP;
#
0.00047 Omega- J/psi PHSP;
0.00038 Omega- psi(2S) PHSP;
# aaa 10/19/05 Do not if this is correct but filling out with inclusives
0.68192 d anti-u s cs_0 PYTHIA 13;
0.10910 d anti-u d cs_0 PYTHIA 13;
0.02728 d anti-u s su_0 PYTHIA 13;
Enddecay
Decay anti-Omega_b+
# SemiLeptonic Decays
0.05460 anti-Omega_c0 e+ nu_e PHSP;
0.05460 anti-Omega_c0 mu+ nu_mu PHSP;
0.02000 anti-Omega_c0 tau+ nu_tau PHSP;
# Hadronic Decays with Xi_c+
0.00600 anti-Omega_c0 pi+ PHSP;
0.02200 anti-Omega_c0 pi+ pi+ pi- PHSP;
0.00055 anti-Omega_c0 K+ PHSP;
0.02200 anti-Omega_c0 D_s+ PHSP;
0.0011 anti-D0 anti-Xi+ PHSP;
#
0.00047 anti-Omega+ J/psi PHSP;
0.00038 anti-Omega+ psi(2S) PHSP;
# aaa 10/19/05 Do not if this is correct but filling out with inclusives
0.68192 u anti-d anti-s anti-cs_0 PYTHIA 13;
0.10910 u anti-d anti-d anti-cs_0 PYTHIA 13;
0.02728 u anti-d anti-s anti-su_0 PYTHIA 13;
Enddecay
Decay Sigma_b+
1.00000 Lambda_b0 pi+ PHSP;
Enddecay
Decay anti-Sigma_b-
1.00000 anti-Lambda_b0 pi- PHSP;
Enddecay
Decay Sigma_b-
1.00000 Lambda_b0 pi- PHSP;
Enddecay
Decay anti-Sigma_b+
1.00000 anti-Lambda_b0 pi+ PHSP;
Enddecay
Decay Sigma_b0
- 1.00000 Lambda_b0 gamma PHOTOS PHSP;
+ 1.00000 Lambda_b0 gamma FSR PHSP;
Enddecay
Decay anti-Sigma_b0
- 1.00000 anti-Lambda_b0 gamma PHOTOS PHSP;
+ 1.00000 anti-Lambda_b0 gamma FSR PHSP;
Enddecay
#
# B_c Mesons
#
Decay B_c-
0.01600 tau- anti-nu_tau SLN;
#
# SemiLeptonic Decays
-0.01900 J/psi e- anti-nu_e PHOTOS PHSP;
-0.00094 psi(2S) e- anti-nu_e PHOTOS PHSP;
-0.00750 eta_c e- anti-nu_e PHOTOS PHSP;
-0.00020 eta_c(2S) e- anti-nu_e PHOTOS PHSP;
-0.00004 anti-D0 e- anti-nu_e PHOTOS PHSP;
-0.00018 anti-D*0 e- anti-nu_e PHOTOS PHSP;
-0.04030 anti-B_s0 e- anti-nu_e PHOTOS PHSP;
-0.05060 anti-B_s*0 e- anti-nu_e PHOTOS PHSP;
-0.00340 anti-B0 e- anti-nu_e PHOTOS PHSP;
-0.00580 anti-B*0 e- anti-nu_e PHOTOS PHSP;
-#
-0.01900 J/psi mu- anti-nu_mu PHOTOS PHSP;
-0.00094 psi(2S) mu- anti-nu_mu PHOTOS PHSP;
-0.00750 eta_c mu- anti-nu_mu PHOTOS PHSP;
-0.00020 eta_c(2S) mu- anti-nu_mu PHOTOS PHSP;
-0.00004 anti-D0 mu- anti-nu_mu PHOTOS PHSP;
-0.00018 anti-D*0 mu- anti-nu_mu PHOTOS PHSP;
-0.04030 anti-B_s0 mu- anti-nu_mu PHOTOS PHSP;
-0.05060 anti-B_s*0 mu- anti-nu_mu PHOTOS PHSP;
-0.00340 anti-B0 mu- anti-nu_mu PHOTOS PHSP;
-0.00580 anti-B*0 mu- anti-nu_mu PHOTOS PHSP;
+0.01900 J/psi e- anti-nu_e FSR PHSP;
+0.00094 psi(2S) e- anti-nu_e FSR PHSP;
+0.00750 eta_c e- anti-nu_e FSR PHSP;
+0.00020 eta_c(2S) e- anti-nu_e FSR PHSP;
+0.00004 anti-D0 e- anti-nu_e FSR PHSP;
+0.00018 anti-D*0 e- anti-nu_e FSR PHSP;
+0.04030 anti-B_s0 e- anti-nu_e FSR PHSP;
+0.05060 anti-B_s*0 e- anti-nu_e FSR PHSP;
+0.00340 anti-B0 e- anti-nu_e FSR PHSP;
+0.00580 anti-B*0 e- anti-nu_e FSR PHSP;
+#
+0.01900 J/psi mu- anti-nu_mu FSR PHSP;
+0.00094 psi(2S) mu- anti-nu_mu FSR PHSP;
+0.00750 eta_c mu- anti-nu_mu FSR PHSP;
+0.00020 eta_c(2S) mu- anti-nu_mu FSR PHSP;
+0.00004 anti-D0 mu- anti-nu_mu FSR PHSP;
+0.00018 anti-D*0 mu- anti-nu_mu FSR PHSP;
+0.04030 anti-B_s0 mu- anti-nu_mu FSR PHSP;
+0.05060 anti-B_s*0 mu- anti-nu_mu FSR PHSP;
+0.00340 anti-B0 mu- anti-nu_mu FSR PHSP;
+0.00580 anti-B*0 mu- anti-nu_mu FSR PHSP;
#
0.00480 J/psi tau- anti-nu_tau PHSP;
0.00008 psi(2S) tau- anti-nu_tau PHSP;
0.00230 eta_c tau- anti-nu_tau PHSP;
0.000016 eta_c(2S) tau- anti-nu_tau PHSP;
0.00002 anti-D0 tau- anti-nu_tau PHSP;
0.00008 anti-D*0 tau- anti-nu_tau PHSP;
#
#
# Hadronic Decays
0.00200 eta_c pi- PHSP;
0.00420 rho- eta_c SVS;
0.00013 eta_c K- PHSP;
0.00020 K*- eta_c SVS;
0.00130 J/psi pi- SVS;
0.00400 J/psi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00011 J/psi K- SVS;
0.00022 J/psi K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.000053 D- D0 PHSP;
0.000075 D*0 D- SVS;
0.000049 D*- D0 SVS;
0.00033 D*- D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0000048 D_s- D0 PHSP;
0.0000071 D*0 D_s- SVS;
0.0000045 D_s*- D0 SVS;
0.000026 D_s*- D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.0000003 D- anti-D0 PHSP;
0.0000003 anti-D*0 D- SVS;
0.0000004 D*- anti-D0 SVS;
0.0000016 anti-D*0 D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0000066 D_s- anti-D0 PHSP;
0.0000063 anti-D*0 D_s- SVS;
0.0000085 D_s*- anti-D0 SVS;
0.0000404 D_s*- anti-D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.00280 eta_c D_s- PHSP;
0.00270 D_s*- eta_c SVS;
0.00015 eta_c D- PHSP;
0.00010 D*- eta_c SVS;
0.00170 J/psi D_s- SVS;
0.00670 J/psi D_s*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00009 J/psi D- SVS;
0.00028 J/psi D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.16400 anti-B_s0 pi- PHSP;
0.07200 rho- anti-B_s0 SVS;
0.01060 anti-B_s0 K- PHSP;
0.00000 K*- anti-B_s0 SVS;
0.06500 anti-B_s*0 pi- SVS;
0.20200 anti-B_s*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00370 anti-B_s*0 K- SVS;
0.00000 anti-B_s*0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.01060 anti-B0 pi- PHSP;
0.00960 rho- anti-B0 SVS;
0.00070 anti-B0 K- PHSP;
0.00015 K*- anti-B0 SVS;
0.00950 anti-B*0 pi- SVS;
0.02570 anti-B*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00055 anti-B*0 K- SVS;
0.00058 anti-B*0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00037 B- pi0 PHSP;
0.00034 rho0 B- SVS;
0.01980 B- K0 PHSP;
0.00430 K*0 B- SVS;
0.00033 B*- pi0 SVS;
0.00090 B*- rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.01600 B*- K0 SVS;
0.01670 B*- K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
# PR LHCb 09 Apr 2004 Add B_c+ -> rho0 pi+
0.00002 rho0 pi- SVS;
0.06005 anti-c s PYTHIA 11;
# PR LHCb 27 Apr 2004 Add Pythia Modes
#
# ash 10/27/03 Do not if this is correct but filling out with unknown cs
#0.0200235 cs_0 anti-uu_0 PYTHIA 23;
#0.0400470 cs_1 anti-uu_1 PYTHIA 23;
#
Enddecay
# 09/15/03 A. Sanchez: Using BR's from hep-ph/0308214
#
# Total Br = 0.939865 + .06135 cs
Decay B_c+
0.01600 tau+ nu_tau SLN;
#
# SemiLeptonic Decays
-0.01900 J/psi e+ nu_e PHOTOS PHSP;
-0.00094 psi(2S) e+ nu_e PHOTOS PHSP;
-0.00750 eta_c e+ nu_e PHOTOS PHSP;
-0.00020 eta_c(2S) e+ nu_e PHOTOS PHSP;
-0.00004 D0 e+ nu_e PHOTOS PHSP;
-0.00018 D*0 e+ nu_e PHOTOS PHSP;
-0.04030 B_s0 e+ nu_e PHOTOS PHSP;
-0.05060 B_s*0 e+ nu_e PHOTOS PHSP;
-0.00340 B0 e+ nu_e PHOTOS PHSP;
-0.00580 B*0 e+ nu_e PHOTOS PHSP;
-#
-0.01900 J/psi mu+ nu_mu PHOTOS PHSP;
-0.00094 psi(2S) mu+ nu_mu PHOTOS PHSP;
-0.00750 eta_c mu+ nu_mu PHOTOS PHSP;
-0.00020 eta_c(2S) mu+ nu_mu PHOTOS PHSP;
-0.00004 D0 mu+ nu_mu PHOTOS PHSP;
-0.00018 D*0 mu+ nu_mu PHOTOS PHSP;
-0.04030 B_s0 mu+ nu_mu PHOTOS PHSP;
-0.05060 B_s*0 mu+ nu_mu PHOTOS PHSP;
-0.00340 B0 mu+ nu_mu PHOTOS PHSP;
-0.00580 B*0 mu+ nu_mu PHOTOS PHSP;
+0.01900 J/psi e+ nu_e FSR PHSP;
+0.00094 psi(2S) e+ nu_e FSR PHSP;
+0.00750 eta_c e+ nu_e FSR PHSP;
+0.00020 eta_c(2S) e+ nu_e FSR PHSP;
+0.00004 D0 e+ nu_e FSR PHSP;
+0.00018 D*0 e+ nu_e FSR PHSP;
+0.04030 B_s0 e+ nu_e FSR PHSP;
+0.05060 B_s*0 e+ nu_e FSR PHSP;
+0.00340 B0 e+ nu_e FSR PHSP;
+0.00580 B*0 e+ nu_e FSR PHSP;
+#
+0.01900 J/psi mu+ nu_mu FSR PHSP;
+0.00094 psi(2S) mu+ nu_mu FSR PHSP;
+0.00750 eta_c mu+ nu_mu FSR PHSP;
+0.00020 eta_c(2S) mu+ nu_mu FSR PHSP;
+0.00004 D0 mu+ nu_mu FSR PHSP;
+0.00018 D*0 mu+ nu_mu FSR PHSP;
+0.04030 B_s0 mu+ nu_mu FSR PHSP;
+0.05060 B_s*0 mu+ nu_mu FSR PHSP;
+0.00340 B0 mu+ nu_mu FSR PHSP;
+0.00580 B*0 mu+ nu_mu FSR PHSP;
#
0.00480 J/psi tau+ nu_tau PHSP;
0.00008 psi(2S) tau+ nu_tau PHSP;
0.00230 eta_c tau+ nu_tau PHSP;
0.000016 eta_c(2S) tau+ nu_tau PHSP;
0.00002 D0 tau+ nu_tau PHSP;
0.00008 D*0 tau+ nu_tau PHSP;
#
# Hadronic Decays
0.00200 eta_c pi+ PHSP;
0.00420 rho+ eta_c SVS;
0.00013 eta_c K+ PHSP;
0.00020 K*+ eta_c SVS;
0.00130 J/psi pi+ SVS;
0.00400 J/psi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00011 J/psi K+ SVS;
0.00022 J/psi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.000053 D+ anti-D0 PHSP;
0.000075 anti-D*0 D+ SVS;
0.000049 D*+ anti-D0 SVS;
0.00033 D*+ anti-D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0000048 D_s+ anti-D0 PHSP;
0.0000071 anti-D*0 D_s+ SVS;
0.0000045 D_s*+ anti-D0 SVS;
0.000026 D_s*+ anti-D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.0000003 D+ D0 PHSP;
0.0000003 D*0 D+ SVS;
0.0000004 D*+ D0 SVS;
0.0000016 D*0 D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0000066 D_s+ D0 PHSP;
0.0000063 D*0 D_s+ SVS;
0.0000085 D_s*+ D0 SVS;
0.0000404 D_s*+ D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.00280 eta_c D_s+ PHSP;
0.00270 D_s*+ eta_c SVS;
0.00015 eta_c D+ PHSP;
0.00010 D*+ eta_c SVS;
0.00170 J/psi D_s+ SVS;
0.00670 J/psi D_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00009 J/psi D+ SVS;
0.00028 J/psi D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.16400 B_s0 pi+ PHSP;
0.07200 rho+ B_s0 SVS;
0.01060 B_s0 K+ PHSP;
0.00000 K*+ B_s0 SVS;
0.06500 B_s*0 pi+ SVS;
0.20200 B_s*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00370 B_s*0 K+ SVS;
0.00000 B_s*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.01060 B0 pi+ PHSP;
0.00960 rho+ B0 SVS;
0.00070 B0 K+ PHSP;
0.00015 K*+ B0 SVS;
0.00950 B*0 pi+ SVS;
0.02570 B*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00055 B*0 K+ SVS;
0.00058 B*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00037 B+ pi0 PHSP;
0.00034 rho0 B+ SVS;
0.01980 B+ anti-K0 PHSP;
0.00430 K*0 B+ SVS;
0.00033 B*+ pi0 SVS;
0.00090 B*+ rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.01600 B*+ anti-K0 SVS;
0.01670 B*+ K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
# PR LHCb 09 Apr 2004 Add B_c+ -> rho0 pi+
0.00002 rho0 pi+ SVS;
0.06005 c anti-s PYTHIA 11;
# PR LHCb 27 Apr 2004 Add Pythia Modes
#
# ash 10/27/03 Do not if this is correct but filling out with unknown cs
#0.0200235 anti-cs_0 uu_0 PYTHIA 23;
#0.0400470 anti-cs_1 uu_1 PYTHIA 23;
#
Enddecay
# Add excited Lambda_c decays (R.J. Tesarek 12/9/03)
# Just a guess for the last two BR [Lambda_c(2593)+].
Decay Lambda_c(2593)+
0.24000 Sigma_c++ pi- PHSP;
0.24000 Sigma_c0 pi+ PHSP;
0.18000 Lambda_c+ pi+ pi- PHSP;
0.24000 Sigma_c+ pi0 PHSP;
0.09000 Lambda_c+ pi0 pi0 PHSP;
0.01000 Lambda_c+ gamma PHSP;
Enddecay
Decay anti-Lambda_c(2593)-
0.24000 anti-Sigma_c-- pi+ PHSP;
0.24000 anti-Sigma_c0 pi- PHSP;
0.18000 anti-Lambda_c- pi- pi+ PHSP;
0.24000 anti-Sigma_c- pi0 PHSP;
0.09000 anti-Lambda_c- pi0 pi0 PHSP;
0.01000 anti-Lambda_c- gamma PHSP;
Enddecay
#
Decay Lambda_c(2625)+
0.66000 Lambda_c+ pi+ pi- PHSP;
0.33000 Lambda_c+ pi0 PHSP;
0.01000 Lambda_c+ gamma PHSP;
Enddecay
Decay anti-Lambda_c(2625)-
0.66000 anti-Lambda_c- pi- pi+ PHSP;
0.33000 anti-Lambda_c- pi0 PHSP;
0.01000 anti-Lambda_c- gamma PHSP;
Enddecay
# Add excited B hadrons (LHCb PR 10/03/04)
# Reference : Pythia 6.205 decay table
# PDG Id = 5312
Decay Xi'_b-
1.0000 Xi_b- gamma PHSP;
Enddecay
Decay anti-Xi'_b+
1.0000 anti-Xi_b+ gamma PHSP;
Enddecay
# PDG Id = 5322
Decay Xi'_b0
1.0000 Xi_b0 gamma PHSP;
Enddecay
Decay anti-Xi'_b0
1.0000 anti-Xi_b0 gamma PHSP;
Enddecay
# PDG Id = 10521
Decay B_0*+
0.6670 B0 pi+ PHSP;
0.3330 B+ pi0 PHSP;
Enddecay
Decay B_0*-
0.6670 anti-B0 pi- PHSP;
0.3330 B- pi0 PHSP;
Enddecay
# PDG Id = 20523 Broad : S wave
Decay B'_1+
0.6670 B*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3330 B*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay B'_1-
0.6670 anti-B*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3330 B*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
# PDG Id = 10523 Narrow : D wave
Decay B_1+
0.6670 B*0 pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.3330 B*+ pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay B_1-
0.6670 anti-B*0 pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.3330 B*- pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
# PDG Id = 525 Narrow : D wave
Decay B_2*+
0.3000 B0 pi+ TSS;
0.1500 B+ pi0 TSS;
0.1600 B*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0800 B*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1300 B*0 pi+ pi0 PHSP;
0.0600 B*+ pi+ pi- PHSP;
0.0800 B0 pi+ pi0 PHSP;
0.0400 B+ pi+ pi- PHSP;
Enddecay
Decay B_2*-
0.3000 anti-B0 pi- TSS;
0.1500 B- pi0 TSS;
0.1600 anti-B*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0800 B*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1300 anti-B*0 pi- pi0 PHSP;
0.0600 B*- pi- pi+ PHSP;
0.0800 anti-B0 pi- pi0 PHSP;
0.0400 B- pi- pi+ PHSP;
Enddecay
# PDG Id = 10511
Decay B_0*0
0.6670 B+ pi- PHSP;
0.3330 B0 pi0 PHSP;
Enddecay
Decay anti-B_0*0
0.6670 B- pi+ PHSP;
0.3330 anti-B0 pi0 PHSP;
Enddecay
# PDG Id = 20513 Broad : S wave
Decay B'_10
0.6670 B*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3330 B*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay anti-B'_10
0.6670 B*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3330 anti-B*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
# PDG Id = 10513 Narrow : D wave
Decay B_10
0.6670 B*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.3330 B*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay anti-B_10
0.6670 B*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.3330 anti-B*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
# PDG Id = 515
Decay B_2*0
0.3000 B+ pi- TSS;
0.1500 B0 pi0 TSS;
0.1600 B*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0800 B*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1300 B*+ pi- pi0 PHSP;
0.0600 B*0 pi+ pi- PHSP;
0.0800 B+ pi- pi0 PHSP;
0.0400 B0 pi+ pi- PHSP;
Enddecay
Decay anti-B_2*0
0.3000 B- pi+ TSS;
0.1500 anti-B0 pi0 TSS;
0.1600 B*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0800 anti-B*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1300 B*- pi+ pi0 PHSP;
0.0600 anti-B*0 pi- pi+ PHSP;
0.0800 B- pi+ pi0 PHSP;
0.0400 anti-B0 pi- pi+ PHSP;
Enddecay
# PDG Id = 10531
Decay B_s0*0
0.5000 B+ K- PHSP;
0.5000 B0 anti-K0 PHSP;
Enddecay
Decay anti-B_s0*0
0.5000 B- K+ PHSP;
0.5000 anti-B0 K0 PHSP;
Enddecay
# PDG Id = 20533 Broad : S wave
Decay B'_s10
0.5000 B*+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5000 B*0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay anti-B'_s10
0.5000 B*- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5000 anti-B*0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
# PDG Id = 10533 Narrow : D wave
Decay B_s10
0.5000 B*+ K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.5000 B*0 anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay anti-B_s10
0.5000 B*- K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.5000 anti-B*0 K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
# PDG Id = 535 Narrow : D wave
Decay B_s2*0
0.3000 B+ K- TSS;
0.3000 B0 anti-K0 TSS;
0.2000 B*+ K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2000 B*0 anti-K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
Decay anti-B_s2*0
0.3000 B- K+ TSS;
0.3000 anti-B0 K0 TSS;
0.2000 B*- K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2000 anti-B*0 K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
# PDG Id = 543
Decay B_c*+
1.0000 B_c+ gamma VSP_PWAVE;
Enddecay
Decay B_c*-
1.0000 B_c- gamma VSP_PWAVE;
Enddecay
# PDG Id = 545 Narrow : D wave
Decay B_c2*+
0.3000 B0 D+ TSS;
0.3000 B+ D0 TSS;
0.2000 B*0 D+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2000 B*+ D0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
Decay B_c2*-
0.3000 anti-B0 D- TSS;
0.3000 B- anti-D0 TSS;
0.2000 anti-B*0 D- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2000 B*- anti-D0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
# PDG Id = 5114
Decay Sigma_b*-
1.0000 Lambda_b0 pi- PHSP;
Enddecay
Decay anti-Sigma_b*+
1.0000 anti-Lambda_b0 pi+ PHSP;
Enddecay
# PDG Id = 5224
Decay Sigma_b*+
1.0000 Lambda_b0 pi+ PHSP;
Enddecay
Decay anti-Sigma_b*-
1.0000 anti-Lambda_b0 pi- PHSP;
Enddecay
# PDG Id = 5214
Decay Sigma_b*0
1.0000 Lambda_b0 pi0 PHSP;
Enddecay
Decay anti-Sigma_b*0
1.0000 anti-Lambda_b0 pi0 PHSP;
Enddecay
# PDG Id = 5314
Decay Xi_b*-
1.0000 Xi_b- gamma PHSP;
Enddecay
Decay anti-Xi_b*+
1.0000 anti-Xi_b+ gamma PHSP;
Enddecay
# PDG Id = 5324
Decay Xi_b*0
1.0000 Xi_b0 gamma PHSP;
Enddecay
Decay anti-Xi_b*0
1.0000 anti-Xi_b0 gamma PHSP;
Enddecay
# PDG Id = 5334
Decay Omega_b*-
1.0000 Omega_b- gamma PHSP;
Enddecay
Decay anti-Omega_b*+
1.0000 anti-Omega_b+ gamma PHSP;
Enddecay
# PDG Id = 10541
Decay B_c0*+
0.5000 B0 D+ PHSP;
0.5000 B+ D0 PHSP;
Enddecay
Decay B_c0*-
0.5000 anti-B0 D- PHSP;
0.5000 B- anti-D0 PHSP;
Enddecay
# PDG Id = 10543 Narrow : D wave
Decay B_c1+
0.5000 B*0 D+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.5000 B*+ D0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay B_c1-
0.5000 anti-B*0 D- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.5000 B*- anti-D0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
# PDG Id = 20543 Broad : S wave
Decay B'_c1+
0.5000 B*0 D+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5000 B*+ D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay B'_c1-
0.5000 anti-B*0 D- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5000 B*- anti-D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
# Excited charmed Baryons LHCb PR 3-05-2006
Decay Xi_cc*++
0.08 e+ nu_e Xi_c+ PHSP ;
0.08 mu+ nu_mu Xi_c+ PHSP ;
0.51 u anti-d s cu_0 PYTHIA 11 ;
0.25 u anti-d s cu_1 PYTHIA 11 ;
0.05 u anti-s s cu_0 PYTHIA 11 ;
0.03 u anti-s s cu_1 PYTHIA 11 ;
Enddecay
Decay anti-Xi_cc*--
0.08 e- anti-nu_e anti-Xi_c- PHSP;
0.08 mu- anti-nu_mu anti-Xi_c- PHSP;
0.51 anti-u d anti-s anti-cu_0 PYTHIA 11 ;
0.25 anti-u d anti-s anti-cu_0 PYTHIA 11 ;
0.05 anti-u s anti-s anti-cu_1 PYTHIA 11 ;
0.03 anti-u s anti-s anti-cu_1 PYTHIA 11 ;
Enddecay
Decay Xi_cc++
0.08 e+ nu_e Xi_c+ PHSP ;
0.08 mu+ nu_mu Xi_c+ PHSP ;
0.51 u anti-d s cu_0 PYTHIA 11 ;
0.25 u anti-d s cu_1 PYTHIA 11 ;
0.05 u anti-s s cu_0 PYTHIA 11 ;
0.03 u anti-s s cu_1 PYTHIA 11 ;
Enddecay
Decay anti-Xi_cc--
0.08 e- anti-nu_e anti-Xi_c- PHSP;
0.08 mu- anti-nu_mu anti-Xi_c- PHSP;
0.51 anti-u d anti-s anti-cu_0 PYTHIA 11 ;
0.25 anti-u d anti-s anti-cu_0 PYTHIA 11 ;
0.05 anti-u s anti-s anti-cu_1 PYTHIA 11 ;
0.03 anti-u s anti-s anti-cu_1 PYTHIA 11 ;
Enddecay
Decay Xi_cc*+
0.08 e+ nu_e Xi_c0 PHSP;
0.08 mu+ nu_mu Xi_c0 PHSP;
0.51 u anti-d s cd_0 PYTHIA 11 ;
0.25 u anti-d s cd_1 PYTHIA 11 ;
0.05 u anti-s s cd_0 PYTHIA 11 ;
0.03 u anti-s s cd_1 PYTHIA 11 ;
Enddecay
Decay anti-Xi_cc*-
0.08 e- anti-nu_e anti-Xi_c0 PHSP;
0.08 mu- anti-nu_mu anti-Xi_c0 PHSP;
0.51 anti-u d anti-s anti-cd_0 PYTHIA 11 ;
0.25 anti-u d anti-s anti-cd_1 PYTHIA 11 ;
0.05 anti-u s anti-s anti-cd_0 PYTHIA 11 ;
0.03 anti-u s anti-s anti-cd_1 PYTHIA 11 ;
Enddecay
Decay Xi_cc+
0.08 e+ nu_e Xi_c0 PHSP;
0.08 mu+ nu_mu Xi_c0 PHSP;
0.51 u anti-d s cd_0 PYTHIA 11 ;
0.25 u anti-d s cd_1 PYTHIA 11 ;
0.05 u anti-s s cd_0 PYTHIA 11 ;
0.03 u anti-s s cd_1 PYTHIA 11 ;
Enddecay
Decay anti-Xi_cc-
0.08 e- anti-nu_e anti-Xi_c0 PHSP;
0.08 mu- anti-nu_mu anti-Xi_c0 PHSP;
0.51 anti-u d anti-s anti-cd_0 PYTHIA 11 ;
0.25 anti-u d anti-s anti-cd_1 PYTHIA 11 ;
0.05 anti-u s anti-s anti-cd_0 PYTHIA 11 ;
0.03 anti-u s anti-s anti-cd_1 PYTHIA 11 ;
Enddecay
Decay Omega_cc+
0.08 e+ nu_e Omega_c0 PHSP;
0.08 mu+ nu_mu Omega_c0 PHSP;
0.51 u anti-d s cs_0 PYTHIA 11;
0.25 u anti-d s cs_1 PYTHIA 11;
0.05 u anti-s s cs_0 PYTHIA 11;
0.03 u anti-s s cs_1 PYTHIA 11;
Enddecay
Decay anti-Omega_cc-
0.08 e- anti-nu_e anti-Omega_c0 PHSP;
0.08 mu- anti-nu_mu anti-Omega_c0 PHSP;
0.51 anti-u d anti-s anti-cs_0 PYTHIA 11;
0.25 anti-u d anti-s anti-cs_1 PYTHIA 11;
0.05 anti-u s anti-s anti-cs_0 PYTHIA 11;
0.03 anti-u s anti-s anti-cs_1 PYTHIA 11;
Enddecay
Decay Omega_cc*+
0.08 e+ nu_e Omega_c0 PHSP;
0.08 mu+ nu_mu Omega_c0 PHSP;
0.51 u anti-d s cs_0 PYTHIA 11;
0.25 u anti-d s cs_1 PYTHIA 11;
0.05 u anti-s s cs_0 PYTHIA 11;
0.03 u anti-s s cs_1 PYTHIA 11;
Enddecay
Decay anti-Omega_cc*-
0.08 e- anti-nu_e anti-Omega_c0 PHSP;
0.08 mu- anti-nu_mu anti-Omega_c0 PHSP;
0.51 anti-u d anti-s anti-cs_0 PYTHIA 11;
0.25 anti-u d anti-s anti-cs_1 PYTHIA 11;
0.05 anti-u s anti-s anti-cs_0 PYTHIA 11;
0.03 anti-u s anti-s anti-cs_1 PYTHIA 11;
Enddecay
Decay K_L0
Enddecay
End
diff --git a/DECAY_2009.XML b/DECAY_2009.XML
index 6896791..b58dbfa 100644
--- a/DECAY_2009.XML
+++ b/DECAY_2009.XML
@@ -1,8613 +1,8613 @@
DECAY_2009.XML
XML Decay File for EvtGen - automatically generated by convertDecayFile.py
convertDecayFile.py
1.0
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diff --git a/DECAY_2010.DEC b/DECAY_2010.DEC
index 1f9fd84..7751c82 100644
--- a/DECAY_2010.DEC
+++ b/DECAY_2010.DEC
@@ -1,10267 +1,10267 @@
########################################################################
# Copyright 1998-2020 CERN for the benefit of the EvtGen authors #
# #
# This file is part of EvtGen. #
# #
# EvtGen is free software: you can redistribute it and/or modify #
# it under the terms of the GNU General Public License as published by #
# the Free Software Foundation, either version 3 of the License, or #
# (at your option) any later version. #
# #
# EvtGen is distributed in the hope that it will be useful, #
# but WITHOUT ANY WARRANTY; without even the implied warranty of #
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the #
# GNU General Public License for more details. #
# #
# You should have received a copy of the GNU General Public License #
# along with EvtGen. If not, see . #
########################################################################
# Updated to PDG 2010 by Tomas Pilar - T.Pilar@warwick.ac.uk
# Updated Mixing Parameters Mark Whitehead May 2009
#
Define qoverp_incohMix_B_s0 1.0
Define dm_incohMix_B_s0 17.8e12
Define qoverp_incohMix_B0 1.0
Define dm_incohMix_B0 0.507e12
# Old definition of dm still in some decay models
Define dm 0.507e12
#Define dgamma 0
#Define qoverp 1
#Define phaseqoverp 0
#Define values for B0s mixing
#Define dms 20.e12
# DeltaGammas corresponds to DG/G = 10%
#Define dgammas 6.852e10
# Activate incoherent Mixing
### TODO: find a way to give mixing parameters through decay file to EvtGen
#####yesIncoherentB0Mixing dm dgamma
#####yesIncoherentBsMixing dms dgammas
# define the values of the CKM angles (alpha=70, beta=40)
Define alpha 1.365
Define beta 0.39
Define gamma 1.387
Define twoBetaPlusGamma 2.167
Define betaPlusHalfGamma 1.0835
Define minusGamma -1.387
Define minusTwoBeta -0.78
# New definitions for psiKstar modes (Lange, July 26, 2000)
Define PKHplus 0.159
Define PKHzero 0.775
Define PKHminus 0.612
Define PKphHplus 1.563
Define PKphHzero 0.0
Define PKphHminus 2.712
Define Aplus 0.490
Define Azero 1.10
Define Aminus 0.4
#
Define phAplus 2.5
Define phAzero 0.0
Define phAminus -0.17
#
# These particle aliases are used in for CP violating decays
# in which the decay distributions depends on how the K* decayed.
#
#
Alias K*L K*0
Alias K*S K*0
Alias K*BL anti-K*0
Alias K*BS anti-K*0
Alias K*0T K*0
Alias anti-K*0T anti-K*0
Alias K*BR anti-K*0
Alias K*0R K*0
Alias anti-K_0*0N anti-K_0*0
Alias K_0*0N K_0*0
#
ChargeConj K*L K*BL
ChargeConj K*S K*BS
ChargeConj K*0T anti-K*0T
ChargeConj K_0*0N anti-K_0*0N
ChargeConj K*0R K*BR
#
# PR LHCb: Alias for signal productions in LHCb
#
Alias B0sig B0
Alias anti-B0sig anti-B0
ChargeConj B0sig anti-B0sig
Alias B+sig B+
Alias B-sig B-
ChargeConj B+sig B-sig
Alias B_s0sig B_s0
Alias anti-B_s0sig anti-B_s0
ChargeConj B_s0sig anti-B_s0sig
Alias B_c+sig B_c+
Alias B_c-sig B_c-
ChargeConj B_c+sig B_c-sig
Alias eta_bsig eta_b
ChargeConj eta_bsig eta_bsig
Alias h_bsig h_b
ChargeConj h_bsig h_bsig
Alias Sigma_b-sig Sigma_b-
Alias anti-Sigma_b+sig anti-Sigma_b+
ChargeConj Sigma_b-sig anti-Sigma_b+sig
Alias Lambda_b0sig Lambda_b0
Alias anti-Lambda_b0sig anti-Lambda_b0
ChargeConj Lambda_b0sig anti-Lambda_b0sig
Alias Omega_b-sig Omega_b-
Alias anti-Omega_b+sig anti-Omega_b+
ChargeConj Omega_b-sig anti-Omega_b+sig
Alias Xi_b-sig Xi_b-
Alias anti-Xi_b+sig anti-Xi_b+
ChargeConj Xi_b-sig anti-Xi_b+sig
Alias Xi_b0sig Xi_b0
Alias anti-Xi_b0sig anti-Xi_b0
ChargeConj Xi_b0sig anti-Xi_b0sig
Alias J/psisig J/psi
ChargeConj J/psisig J/psisig
Alias chi_c0sig chi_c0
ChargeConj chi_c0sig chi_c0sig
Alias chi_c1sig chi_c1
ChargeConj chi_c1sig chi_c1sig
Alias chi_c2sig chi_c2
ChargeConj chi_c2sig chi_c2sig
Alias psi(2S)sig psi(2S)
ChargeConj psi(2S)sig psi(2S)sig
Alias psi(3770)sig psi(3770)
ChargeConj psi(3770)sig psi(3770)sig
Alias D*+sig D*+
Alias D*-sig D*-
ChargeConj D*+sig D*-sig
Alias D*0sig D*0
Alias anti-D*0sig anti-D*0
ChargeConj D*0sig anti-D*0sig
Alias D0sig D0
Alias anti-D0sig anti-D0
ChargeConj D0sig anti-D0sig
Alias D+sig D+
Alias D-sig D-
ChargeConj D+sig D-sig
Alias D_s+sig D_s+
Alias D_s-sig D_s-
ChargeConj D_s+sig D_s-sig
Alias Lambda_c+sig Lambda_c+
Alias anti-Lambda_c-sig anti-Lambda_c-
ChargeConj Lambda_c+sig anti-Lambda_c-sig
Alias tau+sig tau+
Alias tau-sig tau-
ChargeConj tau+sig tau-sig
Alias Upsilonsig Upsilon
ChargeConj Upsilonsig Upsilonsig
Alias Upsilon(2S)sig Upsilon(2S)
ChargeConj Upsilon(2S)sig Upsilon(2S)sig
Alias Upsilon(3S)sig Upsilon(3S)
ChargeConj Upsilon(3S)sig Upsilon(3S)sig
Alias Upsilon(4S)sig Upsilon(4S)
ChargeConj Upsilon(4S)sig Upsilon(4S)sig
Alias Upsilon(5S)sig Upsilon(5S)
ChargeConj Upsilon(5S)sig Upsilon(5S)sig
Alias X_1(3872)sig X_1(3872)
ChargeConj X_1(3872)sig X_1(3872)sig
Alias h_csig h_c
ChargeConj h_csig h_csig
Alias Sigma+sig Sigma+
Alias anti-Sigma-sig anti-Sigma-
ChargeConj Sigma+sig anti-Sigma-sig
Alias Lambda0sig Lambda0
Alias anti-Lambda0sig anti-Lambda0
ChargeConj Lambda0sig anti-Lambda0sig
Alias B_10sig B_10
Alias anti-B_10sig anti-B_10
ChargeConj B_10sig anti-B_10sig
Alias B_2*0sig B_2*0
Alias anti-B_2*0sig anti-B_2*0
ChargeConj B_2*0sig anti-B_2*0sig
Alias B_s10sig B_s10
Alias anti-B_s10sig anti-B_s10
ChargeConj B_s10sig anti-B_s10sig
Alias B_s2*0sig B_s2*0
Alias anti-B_s2*0sig anti-B_s2*0
ChargeConj B_s2*0sig anti-B_s2*0sig
Alias B_1+sig B_1+
Alias B_1-sig B_1-
ChargeConj B_1+sig B_1-sig
Alias B_2*+sig B_2*+
Alias B_2*-sig B_2*-
ChargeConj B_2*+sig B_2*-sig
#
#JetSet parameter modifications
#(Very important that there are no blank spaces in the parameter string!)
#Turn of B0-B0B mixing in JetSet:
#JetSetPar MSTJ(26)=0
# control of L=1 mesons (in order: J1S0 J0S1 J1S1 J2S1) - commented out by NB/WP
#JetSetPar PARJ(14)=0.05
#JetSetPar PARJ(15)=0.05
#JetSetPar PARJ(16)=0.05
#JetSetPar PARJ(17)=0.05
#cut-off parameter used to stop fragmentation process (should not be changed)
#####JetSetPar PARJ(33)=0.3 SET NOW IN GAUSS
# PR LHCb 10/01/2006
-# Turn on PHOTOS for all decays
-yesPhotos
+# Turn on FSR for all decays
+yesFSR
#
#
#Decay vpho
#1.000 PYCONT;
#Enddecay
#
# use new VSS_BMIX mixing decay model (DK,28-Oct-1999)
Decay Upsilon(4S)
0.515122645 B+ B- VSS; #[Reconstructed PDG2011]
0.483122645 B0 anti-B0 VSS_BMIX dm; #[Reconstructed PDG2011]
-0.000015583 e+ e- PHOTOS VLL; #[Reconstructed PDG2011]
-0.000015766 mu+ mu- PHOTOS VLL; #[Reconstructed PDG2011]
-0.000015766 tau+ tau- PHOTOS VLL; #[Reconstructed PDG2011]
+0.000015583 e+ e- FSR VLL; #[Reconstructed PDG2011]
+0.000015766 mu+ mu- FSR VLL; #[Reconstructed PDG2011]
+0.000015766 tau+ tau- FSR VLL; #[Reconstructed PDG2011]
0.000084099 Upsilon(2S) pi+ pi- VVPIPI; #[Reconstructed PDG2011]
0.000044342 Upsilon(2S) pi0 pi0 VVPIPI; #[Reconstructed PDG2011]
0.000080123 Upsilon pi+ pi- VVPIPI; #[Reconstructed PDG2011]
0.000044342 Upsilon pi0 pi0 VVPIPI; #[Reconstructed PDG2011]
0.000194392 Upsilon eta PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
# BF ~ (2J+1)E^3_gamma; see PRL 94, 032001
# V-> gamma S Partial wave (L,S)=(0,0)
0.000092625 gamma chi_b0(3P) HELAMP 1. 0. 1. 0.; #[Reconstructed PDG2011]
# V-> gamma V Partial wave (L,S)=(0,1)
0.000138938 gamma chi_b1(3P) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; #[Reconstructed PDG2011]
# V-> gamma T Partial wave (L,S)=(0,1)
0.000129084 gamma chi_b2(3P) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.; #[Reconstructed PDG2011]
# V-> gamma S Partial wave (L,S)=(0,0)
0.000002956 gamma chi_b0(2P) HELAMP 1. 0. 1. 0.; #[Reconstructed PDG2011]
# V-> gamma V Partial wave (L,S)=(0,1)
0.000007883 gamma chi_b1(2P) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; #[Reconstructed PDG2011]
# V-> gamma T Partial wave (L,S)=(0,1)
0.000011825 gamma chi_b2(2P) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.; #[Reconstructed PDG2011]
0.000837571 g g g PYTHIA 4; #[Reconstructed PDG2011]
0.000039415 gamma g g PYTHIA 4; #[Reconstructed PDG2011]
Enddecay
#
#
#
Decay anti-B0
# Updated to PDG 2008
# b -> c semileptonic
#
-0.050100000 D*+ e- anti-nu_e PHOTOS HQET 0.77 1.33 0.92; #[Reconstructed PDG2011]
-0.021700000 D+ e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.0054 D_1+ e- anti-nu_e PHOTOS ISGW2;
-0.0020 D_0*+ e- anti-nu_e PHOTOS ISGW2;
-0.0050 D'_1+ e- anti-nu_e PHOTOS ISGW2;
-0.0022 D_2*+ e- anti-nu_e PHOTOS ISGW2;
-0.0003 D*+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS;
-0.004900000 D*0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; #[Reconstructed PDG2011]
-0.0010 D+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS;
-0.0000 D0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS;
+0.050100000 D*+ e- anti-nu_e FSR HQET 0.77 1.33 0.92; #[Reconstructed PDG2011]
+0.021700000 D+ e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.0054 D_1+ e- anti-nu_e FSR ISGW2;
+0.0020 D_0*+ e- anti-nu_e FSR ISGW2;
+0.0050 D'_1+ e- anti-nu_e FSR ISGW2;
+0.0022 D_2*+ e- anti-nu_e FSR ISGW2;
+0.0003 D*+ pi0 e- anti-nu_e FSR GOITY_ROBERTS;
+0.004900000 D*0 pi+ e- anti-nu_e FSR GOITY_ROBERTS; #[Reconstructed PDG2011]
+0.0010 D+ pi0 e- anti-nu_e FSR GOITY_ROBERTS;
+0.0000 D0 pi+ e- anti-nu_e FSR GOITY_ROBERTS;
-0.050100000 D*+ mu- anti-nu_mu PHOTOS HQET 0.77 1.33 0.92; #[Reconstructed PDG2011]
-0.021700000 D+ mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.0054 D_1+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0020 D_0*+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0050 D'_1+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0022 D_2*+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0003 D*+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
-0.004900000 D*0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; #[Reconstructed PDG2011]
-0.0010 D+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
-0.0000 D0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
+0.050100000 D*+ mu- anti-nu_mu FSR HQET 0.77 1.33 0.92; #[Reconstructed PDG2011]
+0.021700000 D+ mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.0054 D_1+ mu- anti-nu_mu FSR ISGW2;
+0.0020 D_0*+ mu- anti-nu_mu FSR ISGW2;
+0.0050 D'_1+ mu- anti-nu_mu FSR ISGW2;
+0.0022 D_2*+ mu- anti-nu_mu FSR ISGW2;
+0.0003 D*+ pi0 mu- anti-nu_mu FSR GOITY_ROBERTS;
+0.004900000 D*0 pi+ mu- anti-nu_mu FSR GOITY_ROBERTS; #[Reconstructed PDG2011]
+0.0010 D+ pi0 mu- anti-nu_mu FSR GOITY_ROBERTS;
+0.0000 D0 pi+ mu- anti-nu_mu FSR GOITY_ROBERTS;
#
# b -> c tau nu
#
0.015000000 D*+ tau- anti-nu_tau ISGW2; #[Reconstructed PDG2011]
0.011000000 D+ tau- anti-nu_tau ISGW2; #[Reconstructed PDG2011]
0.0013 D_1+ tau- anti-nu_tau ISGW2;
0.0013 D_0*+ tau- anti-nu_tau ISGW2;
0.0020 D'_1+ tau- anti-nu_tau ISGW2;
0.0020 D_2*+ tau- anti-nu_tau ISGW2;
#
# b -> u l nu
#
# 03/28/01 S.Menke included inclusive B -> X_u l nu decays for m(X_u) > 1.26 GeV.
# with some thresholds to gradually switch from excl. to incl.
# modeling without big jumps keeping the better known excl.
# Brs at their actual values and constrain the incl. Br and
# weights in a way that ~40% of the total BR belongs to
# the mass region > 1.5 GeV
# October 20, 2004 - Lange - update using sl awg input
# March 30, 2005 J. Dingfelder: Updated B -> X_u l nu hybrid model
# (supersedes older version by S. Menke). Inclusive
# decays are reweighted in three kinematic
# variables mX, q2, and El (=> 512 weights total).
# The list of weights is included as ModelAlias
# once per B charge state.
# NOTE: - The specified parameters for model VUBHYBRID are:
# mb, a, alpha_s, nbins_mX, nbins_q2, nbins_El,
# list of threshold values for mX, q2, El in ascending order.
#
# *** DO NOT CHANGE ANY OF THESE PARAMETERS! ***
# Otherwise a new set of weights would be needed, since they were
# generated for a certain set of values for mb, a, excl. BFs, non-res BF.
#
# - If no binning (nbins or thresholds) are specified after the first
# three parameters (mb,a,alpha_s) no hybrid weighting is performed.
# --- Hybrid weights for neutral B -> Xu l nu decays
# NOTE: Do NOT CHANGE any BFs without using the corresponding set of
# hybrid weights (and vice versa).
-0.000134000 pi+ e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000247000 rho+ e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000000 D(2S)+ e- anti-nu_e PHOTOS ISGW2;
-0.000000 D*(2S)+ e- anti-nu_e PHOTOS ISGW2;
-0.001892 Xu+ e- anti-nu_e PHOTOS VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00;
-#
-0.000134000 pi+ mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000247000 rho+ mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000000 D(2S)+ mu- anti-nu_mu PHOTOS ISGW2;
-0.000000 D*(2S)+ mu- anti-nu_mu PHOTOS ISGW2;
-0.001892 Xu+ mu- anti-nu_mu PHOTOS VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00;
+0.000134000 pi+ e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.000247000 rho+ e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.000000 D(2S)+ e- anti-nu_e FSR ISGW2;
+0.000000 D*(2S)+ e- anti-nu_e FSR ISGW2;
+0.001892 Xu+ e- anti-nu_e FSR VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00;
+#
+0.000134000 pi+ mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.000247000 rho+ mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.000000 D(2S)+ mu- anti-nu_mu FSR ISGW2;
+0.000000 D*(2S)+ mu- anti-nu_mu FSR ISGW2;
+0.001892 Xu+ mu- anti-nu_mu FSR VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00;
#
0.000060 pi+ tau- anti-nu_tau ISGW2;
0.000083 rho+ tau- anti-nu_tau ISGW2;
0.000090 a_1+ tau- anti-nu_tau ISGW2;
0.000008 b_1+ tau- anti-nu_tau ISGW2;
0.000008 a_0+ tau- anti-nu_tau ISGW2;
0.000008 a_2+ tau- anti-nu_tau ISGW2;
0.000000 rho(2S)+ tau- anti-nu_tau ISGW2;
0.000000 D(2S)+ tau- anti-nu_tau ISGW2;
0.000000 D*(2S)+ tau- anti-nu_tau ISGW2;
#
#
# b->u hadronic
# Ref. [B1]:
# Lange Nov 14, 2004 (flip D_s K -- is opposite of D_s pi)
0.000024000 D_s- pi+ PHSP; #[Reconstructed PDG2011]
0.000030000 D_s+ K- PHSP; #[Reconstructed PDG2011]
0.000021000 D_s*- pi+ SVS; #[Reconstructed PDG2011]
0.000021900 D_s*+ K- SVS; #[Reconstructed PDG2011]
#
0.000016 rho+ D_s- SVS;
0.000035000 K*- D_s+ SVS; #[Reconstructed PDG2011]
0.000041000 D_s*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000032000 D_s*+ K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
#
# b -> s gamma
#
0.000043300 anti-K*0 gamma HELAMP 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
# PR LHCb add omega gamma
0.000000440 omega gamma HELAMP 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
#0.0000135 anti-K_10 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000065 anti-K'_10 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000128 anti-K'*0 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000166 anti-K_2*0 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000017 anti-K''*0 gamma HELAMP 1.0 0.0 1.0 0.0;
0.0003118 anti-Xsd gamma BTOXSGAMMA 2 ;
#
-0.000000160 anti-K0 e+ e- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.000001030 anti-K*0 e+ e- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.0000050 anti-Xsd e+ e- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.000000450 anti-K0 mu+ mu- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.000001050 anti-K*0 mu+ mu- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.0000025 anti-Xsd mu+ mu- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.0000001 anti-K0 tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 anti-K*0 tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 anti-Xsd tau+ tau- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
+0.000000160 anti-K0 e+ e- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.000001030 anti-K*0 e+ e- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.0000050 anti-Xsd e+ e- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.000000450 anti-K0 mu+ mu- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.000001050 anti-K*0 mu+ mu- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.0000025 anti-Xsd mu+ mu- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.0000001 anti-K0 tau+ tau- FSR BTOSLLBALL;
+0.0000002 anti-K*0 tau+ tau- FSR BTOSLLBALL;
+0.0000002 anti-Xsd tau+ tau- FSR BTOXSLL 4.8 0.2 0.0 0.41;
#
#------------------------------------------------------------------------------
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv
# B0 -> CP eigenstates (some exclusive b -> u) sum=0.00036
#
0.000005130 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000001620 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.0000010 pi0 eta PHSP;
0.000001200 pi0 eta' PHSP; #[Reconstructed PDG2011]
0.000001 pi0 a_00 PHSP;
0.000001 pi0 f_0 PHSP;
# pi0 rho0 is with the 3-body modes
0.000001 omega pi0 SVS;
0.000001 a_10 pi0 SVS;
0.000001 b_10 pi0 SVS;
0.000001 eta eta PHSP;
0.000001 eta eta' PHSP;
0.000001 eta a_00 PHSP;
0.000001 eta f_0 PHSP;
0.000001 rho0 eta SVS;
0.000000940 omega eta SVS; #[Reconstructed PDG2011]
0.000001 a_10 eta SVS;
0.000001 b_10 eta SVS;
0.000001 eta' eta' PHSP;
0.000001 eta' a_00 PHSP;
0.000001 eta' f_0 PHSP;
0.000001 rho0 eta' SVS;
0.000001000 omega eta' SVS; #[Reconstructed PDG2011]
0.000001 a_10 eta' SVS;
0.000001 b_10 eta' SVS;
0.000001 a_00 a_00 PHSP;
0.000001 a_00 f_0 PHSP;
0.000001 rho0 a_00 SVS;
0.000001 omega a_00 SVS;
0.000001 a_10 a_00 SVS;
0.000001 b_10 a_00 SVS;
0.000001 f_0 f_0 PHSP;
0.000001 rho0 f_0 SVS;
0.000001 omega f_0 SVS;
0.000001 a_10 f_0 SVS;
0.000001 b_10 f_0 SVS;
# Penguin dominated modes are sin2beta, not sin2alpha
0.000004300 phi K_S0 SVS; #[Reconstructed PDG2011]
0.000004300 phi K_L0 SVS; #[Reconstructed PDG2011]
0.000000550 eta K_S0 PHSP; #[Reconstructed PDG2011]
0.000000550 eta K_L0 PHSP; #[Reconstructed PDG2011]
0.000033000 eta' K_S0 PHSP; #[Reconstructed PDG2011]
0.000033000 eta' K_L0 PHSP; #[Reconstructed PDG2011]
0.000002500 omega K_S0 SVS; #[Reconstructed PDG2011]
0.000002500 omega K_L0 SVS; #[Reconstructed PDG2011]
#don't allow jetset to simulate the same decay but to a K0 or anti-K0
#Lange 1/30/2003
0.0 phi K0 PHSP;
0.0 phi anti-K0 PHSP;
0.0 eta K0 PHSP;
0.0 eta anti-K0 PHSP;
0.0 eta' K0 PHSP;
0.0 eta' anti-K0 PHSP;
0.0 omega K0 PHSP;
0.0 omega anti-K0 PHSP;
# phipi0 has no simple Pengiun or tree so who knows - ditto phieta/eta'?
0.000001 phi pi0 SVS;
0.000001 phi eta SVS;
0.000001 phi eta' SVS;
#
0.000015900 anti-K*0 eta SVS; #[Reconstructed PDG2011]
0.000003800 anti-K*0 eta' SVS; #[Reconstructed PDG2011]
0.000002000 anti-K*0 omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000001 phi omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 omega omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 omega rho0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
#
#
#2-body modes from Jim Olsen
0.000019400 K- pi+ PHSP; #[Reconstructed PDG2011]
0.0000004 K+ K- PHSP;
# K_S0 K_L0 is 0
# see http://babar-hn.slac.stanford.edu:5090/HyperNews/get/pubboard14/156.html
0.000000240 K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.0000000 K_S0 K_L0 PHSP;
0.000000240 K_L0 K_L0 PHSP; #[Reconstructed PDG2011]
# declare K0 pi0 not to have it through Pythia
0.000000 anti-K0 pi0 PHSP;
# Split into K_S0 K_L0 (LHCb - P. Robbe)
0.000004750 K_S0 pi0 PHSP; #[Reconstructed PDG2011]
0.000004750 K_L0 pi0 PHSP; #[Reconstructed PDG2011]
# 0 to keep PYTHIA from generating it
0.000000 K0 anti-K0 PHSP;
#
# 3-body decays
# this model generates interferences and higher mass rho
#
# 3-body by John Back (jback@slac.stanford.edu) - Oct 15, 2002
# JGS intersperses modes with pi0->eta,eta'
# anti-B0 modes
# Model generates rho(770), rho(1450) and rho(1700) resonances
# with interference (uses CKM angle alpha)
0.000024 pi- pi+ pi0 BTO3PI_CP dm alpha;
# Put in with 0 BR to keep PYTHIA from generating these (see BTO3PI_CP above)
0.000000 rho0 pi0 SVS;
0.000000 rho- pi+ SVS;
0.000000 rho+ pi- SVS;
0.000000 rho(2S)- pi+ SVS;
0.000000 rho(2S)+ pi- SVS;
0.000000 rho(3S)- pi+ SVS;
0.000000 rho(3S)+ pi- SVS;
#
# rho0 3-body modes
0.000002350 rho0 K_S0 SVS; #[Reconstructed PDG2011]
0.000002350 rho0 K_L0 SVS; #[Reconstructed PDG2011]
#
# rho+ 3-body modes
0.000008400 rho+ K- SVS; #[Reconstructed PDG2011]
#
# rho(1450) 3-body modes
0.0000005 rho(2S)0 K_S0 SVS;
0.0000005 rho(2S)0 K_L0 SVS;
#
#
# f0,a0(980) 3-body modes
0.0000055 f_0 anti-K0 PHSP;
0.000001 a_00 anti-K0 PHSP;
0.000001 a_0+ K- PHSP;
0.000003 a_0+ pi- PHSP;
0.000001 a_0- pi+ PHSP;
#
# K*0(892) 3-body modes
0.000003600 anti-K*0 pi0 SVS; #[Reconstructed PDG2011]
0.000003 anti-K*0 K0 SVS;
#
# K*0(1430) 3-body modes
0.000001 anti-K_0*0 pi0 PHSP;
0.000003 anti-K_0*0 K0 PHSP;
#
# K*0(1680) 3-body modes
0.000001 anti-K''*0 pi0 SVS;
0.000001 anti-K''*0 K0 SVS;
#
# K*-(892) 3-body modes
0.000009400 K*- pi+ SVS; #[Reconstructed PDG2011]
0.000002 K*- K+ SVS;
#
# K*-(1430) 3-body modes
0.000033000 K_0*- pi+ PHSP; #[Reconstructed PDG2011]
0.000002 K_0*- K+ PHSP;
#
# K*0(1680) 3-body modes
0.000001 K''*- pi+ SVS;
0.000001 K''*- K+ SVS;
#
#
# Non-resonant 3-body left-overs
# Most modes are set at 1e-6
#
# pi-pi+pi0: high mass + f0(400-1200) = (1+1)e-6
####0402270.000002 pi- pi+ pi0 PHSP;
0.000017 pi- pi+ eta PHSP;
0.000001 pi- pi+ eta' PHSP;
#
# pi- pi+ anti-K0: total-rhoK0-f0K0-piK*(892)-piK*(1430)=45-5-6-13./3-11./3
0.000000000 pi- pi+ anti-K0 PHSP; #[Reconstructed PDG2011]
#
# K- pi+ pi0
0.000027500 K- pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.000020 K- pi+ eta PHSP;
0.000001 K- pi+ eta' PHSP;
#
# pi- K+ K0.
# Both B0 and B0bar can decay to these => 0.5e-6 each
0.0000005 pi- K+ anti-K0 PHSP;
0.0000005 pi+ K- K0 PHSP;
#
# K- K+ anti-K0
# PR LHCb 09 Apr 2004 split into KL/KS
0.000000 K- K+ anti-K0 PHSP;
0.000012350 K- K+ K_S0 PHSP; #[Reconstructed PDG2011]
0.000012350 K- K+ K_L0 PHSP; #[Reconstructed PDG2011]
#
# K- K+ pi0
0.000001 K- K+ pi0 PHSP;
0.000001 K- K+ eta PHSP;
0.000001 K- K+ eta' PHSP;
#
# pi0 anti-K0 K0
0.000002 anti-K0 K0 pi0 PHSP;
0.000001 anti-K0 K0 eta PHSP;
0.000001 anti-K0 K0 eta' PHSP;
#
# pi0 pi0 anti-K0
0.000002 anti-K0 pi0 pi0 PHSP;
0.000001 anti-K0 pi0 eta PHSP;
0.000001 anti-K0 pi0 eta' PHSP;
0.000001 anti-K0 eta eta PHSP;
0.000001 anti-K0 eta eta' PHSP;
0.000001 anti-K0 eta' eta' PHSP;
#
# anti-K0 K0 anti-K0: 8*BF(KsKsKs)~=48 (8 is a guess)
0.000048 anti-K0 K0 anti-K0 PHSP;
#
# pi0 pi0 pi0
0.000001 pi0 pi0 pi0 PHSP;
0.000001 pi0 pi0 eta PHSP;
0.000001 pi0 pi0 eta' PHSP;
0.000001 pi0 eta eta PHSP;
0.000001 pi0 eta eta' PHSP;
#
#^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#---------------------------------------------------------------------------
#
#4-body modes from Andrei Gritsan
#--- 4-body rho-rho, rho-pi-pi, pi-pi-pi-pi --------------------------
# PR LHCb 21 Apr 2004 : set polarisation to longitudinal
0.000000730 rho0 rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000024200 rho+ rho- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000003 rho0 pi+ pi- PHSP;
0.000003 omega pi+ pi- PHSP;
0.000001 rho0 pi0 pi0 PHSP;
0.000001 omega pi0 pi0 PHSP;
0.0000005 rho0 pi0 eta PHSP;
0.0000002 rho0 eta eta PHSP;
0.0000002 rho0 pi0 eta' PHSP;
0.0000001 rho0 eta eta' PHSP;
0.0000005 omega pi0 eta PHSP;
0.0000002 omega eta eta PHSP;
0.0000002 omega pi0 eta' PHSP;
0.0000001 omega eta eta' PHSP;
0.000010 rho+ pi- pi0 PHSP;
0.000005 rho+ pi- eta PHSP;
0.000010 rho- pi+ pi0 PHSP;
0.000005 rho- pi+ eta PHSP;
0.000010 pi+ pi- pi+ pi- PHSP;
0.000010 pi+ pi- pi0 pi0 PHSP;
0.000005 pi+ pi- eta pi0 PHSP;
0.000002 pi+ pi- eta eta PHSP;
0.000002 pi+ pi- eta' pi0 PHSP;
0.000001 pi+ pi- eta' eta PHSP;
0.000016500 a_1+ pi- SVS; #[Reconstructed PDG2011]
0.000016500 a_1- pi+ SVS; #[Reconstructed PDG2011]
0.0000055 b_1+ pi- SVS;
0.0000055 b_1- pi+ SVS;
0.000002 rho- a_0+ SVS;
0.000010 rho+ a_0- SVS;
0.000001 f_0 pi+ pi- PHSP;
0.000001 f_0 pi0 pi0 PHSP;
0.000001 a_0- pi+ pi0 PHSP;
0.000001 a_00 pi0 pi0 PHSP;
0.000001 a_0+ pi- pi0 PHSP;
#--- 4-body rho-K*, rho-pi-K, K*-pi-pi, pi-pi-pi-K -------------------
0.000003400 rho0 anti-K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000010 rho+ K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000050600 pi- pi+ anti-K*0 PHSP; #[Reconstructed PDG2011]
0.000010 pi+ pi0 K*- PHSP;
0.000005 pi+ eta K*- PHSP;
0.000002 pi+ eta' K*- PHSP;
0.000010 rho+ K- pi0 PHSP;
0.000005 rho+ K- eta PHSP;
0.000002 rho+ K- eta' PHSP;
0.000010 rho+ anti-K0 pi- PHSP;
0.000010 rho- anti-K0 pi+ PHSP;
0.000005 rho0 anti-K0 pi0 PHSP;
0.000002 rho0 anti-K0 eta PHSP;
0.000001 rho0 anti-K0 eta' PHSP;
0.000010 rho0 K- pi+ PHSP;
0.000005 omega anti-K0 pi0 PHSP;
0.000002 omega anti-K0 eta PHSP;
0.000001 omega anti-K0 eta' PHSP;
0.000005100 omega K- pi+ PHSP; #[Reconstructed PDG2011]
0.000010 pi+ pi0 pi- anti-K0 PHSP;
0.000005 pi+ eta pi- anti-K0 PHSP;
0.000010 pi0 pi0 pi0 anti-K0 PHSP;
0.000005 pi0 pi0 eta anti-K0 PHSP;
0.000002 pi0 eta eta anti-K0 PHSP;
0.000002 pi0 pi0 eta' anti-K0 PHSP;
0.000001 pi0 eta eta' anti-K0 PHSP;
0.000010 pi+ pi- pi+ K- PHSP;
0.000010 pi0 pi0 pi+ K- PHSP;
0.000005 pi0 eta pi+ K- PHSP;
0.000002 eta eta pi+ K- PHSP;
0.000002 pi0 eta' pi+ K- PHSP;
0.000001 eta eta' pi+ K- PHSP;
0.000010 rho0 anti-K_0*0 PHSP;
0.000020 rho+ K_0*- PHSP;
0.000010 pi- pi+ anti-K_0*0 PHSP;
0.000010 pi0 pi0 anti-K_0*0 PHSP;
0.000010 pi+ pi0 K_0*- PHSP;
0.000005 anti-K*0 f_0 SVS;
0.000010 a_10 anti-K0 SVS;
0.000016000 a_1+ K- SVS; #[Reconstructed PDG2011]
0.000010 b_10 anti-K0 SVS;
0.0000074 b_1+ K- SVS;
0.000005 anti-K*0 a_00 SVS;
0.000005 K*- a_0+ SVS;
#--- 4-body K*-K*, rho-K-K, K*-K-pi, phi-pi-pi, pi-pi-K-K ------------
0.000001280 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000001 K*+ K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000001 phi rho0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000001 phi pi- pi+ PHSP;
0.000001 K+ K- rho0 PHSP;
0.000001 K0 anti-K0 rho0 PHSP;
0.000001 K+ K- omega PHSP;
0.000001 K0 anti-K0 omega PHSP;
0.000001 K+ anti-K0 rho- PHSP;
0.000001 K- K0 rho+ PHSP;
0.000001 K+ K- pi- pi+ PHSP;
0.000001 K+ K- pi0 pi0 PHSP;
0.0000005 K+ K- pi0 eta PHSP;
0.0000002 K+ K- eta eta PHSP;
0.0000002 K+ K- pi0 eta' PHSP;
0.0000001 K+ K- eta eta' PHSP;
0.000001 K0 anti-K0 pi- pi+ PHSP;
0.000001 K0 anti-K0 pi0 pi0 PHSP;
0.0000005 K0 anti-K0 pi0 eta PHSP;
0.0000002 K0 anti-K0 eta eta PHSP;
0.0000002 K0 anti-K0 pi0 eta' PHSP;
0.0000001 K0 anti-K0 eta eta' PHSP;
0.000001 K*+ K- pi0 PHSP;
0.000001 K*- K+ pi0 PHSP;
0.000001 K*0 anti-K0 pi0 PHSP;
0.000001 K0 anti-K*0 pi0 PHSP;
0.000003320 K+ anti-K*0 pi- PHSP; #[Reconstructed PDG2011]
0.000001 K*+ anti-K0 pi- PHSP;
0.0000033 K- K*0 pi+ PHSP;
0.000001 K*- K0 pi+ PHSP;
#--- 4-body phi-K*, phi-K-pi, K-K-K*, pi-K-K-K -----------------------
0.000009800 phi anti-K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000010 phi K- pi+ PHSP;
0.000010 phi anti-K0 pi0 PHSP;
0.000007 phi anti-K0 eta PHSP;
0.000017700 K- K+ anti-K*0 PHSP; #[Reconstructed PDG2011]
0.000010 K- K*+ anti-K0 PHSP;
0.000010 K*- K+ anti-K0 PHSP;
0.000010 K+ K- K- pi+ PHSP;
0.000010 K+ K- anti-K0 pi0 PHSP;
0.000005 K+ K- anti-K0 eta PHSP;
0.000010 K0 anti-K0 anti-K0 pi0 PHSP;
0.000005 K0 anti-K0 anti-K0 eta PHSP;
0.000003900 phi anti-K_0*0 PHSP; #[Reconstructed PDG2011]
0.000010 K- K+ anti-K_0*0 PHSP;
0.000010 K- K_0*+ anti-K0 PHSP;
0.000010 K_0*- K+ anti-K0 PHSP;
0.000002 phi anti-K'_10 PHSP;
0.000002 K- K+ anti-K'_10 PHSP;
#--- 4-body phi-phi, phi-K-K, K-K-K-K --------------------------------
0.0000001 phi phi SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000001 phi K+ K- PHSP;
0.0000001 phi K0 anti-K0 PHSP;
0.0000001 K+ K- K+ K- PHSP;
0.0000001 K0 anti-K0 K+ K- PHSP;
0.0000001 K0 anti-K0 K0 anti-K0 PHSP;
#5-body modes from Jim Smith - 1/30/05
#--- 5-body rho-rho-pi, rho-pi-pi-pi, pi-pi-pi-pi-pi -------------------
0.000010 rho0 rho0 pi0 PHSP;
0.000005 rho0 rho0 eta PHSP;
0.000002 rho0 rho0 eta' PHSP;
0.000010 omega rho0 pi0 PHSP;
0.000005 omega rho0 eta PHSP;
0.000002 omega rho0 eta' PHSP;
0.000010 rho+ rho- pi0 PHSP;
0.000005 rho+ rho- eta PHSP;
0.000002 rho+ rho- eta' PHSP;
0.000010 rho0 rho+ pi- PHSP;
0.000010 omega rho+ pi- PHSP;
0.000002 rho0 pi+ pi- pi0 PHSP;
0.000001 rho0 pi+ pi- eta PHSP;
0.000001 rho0 pi+ pi- eta' PHSP;
0.000002 rho0 pi0 pi0 pi0 PHSP;
0.000001 rho0 pi0 eta pi0 PHSP;
0.000001 rho0 pi0 eta' pi0 PHSP;
0.000002 omega pi+ pi- pi0 PHSP;
0.000001 omega pi+ pi- eta PHSP;
0.000001 omega pi+ pi- eta' PHSP;
0.000002 omega pi0 pi0 pi0 PHSP;
0.000001 omega pi0 eta pi0 PHSP;
0.000001 omega pi0 eta' pi0 PHSP;
0.000002 rho+ pi- pi+ pi- PHSP;
0.000002 rho+ pi- pi0 pi0 PHSP;
0.000001 rho+ pi- pi0 eta PHSP;
0.000001 rho+ pi- pi0 eta' PHSP;
0.000002 rho- pi+ pi+ pi- PHSP;
0.000002 rho- pi+ pi0 pi0 PHSP;
0.000001 rho- pi+ pi0 eta PHSP;
0.000001 rho- pi+ pi0 eta' PHSP;
0.000001 pi+ pi- pi+ pi- pi0 PHSP;
0.0000005 pi+ pi- pi+ pi- eta PHSP;
0.0000002 pi+ pi- pi+ pi- eta' PHSP;
0.000001 pi+ pi- pi0 pi0 pi0 PHSP;
0.0000005 pi+ pi- pi0 pi0 eta PHSP;
0.0000002 pi+ pi- pi0 pi0 eta' PHSP;
0.0000005 pi0 pi0 pi0 pi0 pi0 PHSP;
0.0000002 pi0 pi0 pi0 pi0 eta PHSP;
0.0000001 pi0 pi0 pi0 pi0 eta' PHSP;
0.000010 a_1+ rho- PHSP;
0.000010 a_1- rho+ PHSP;
0.000010 a_10 rho0 PHSP;
0.000010 a_10 omega PHSP;
0.000010 a_1+ pi- pi0 PHSP;
0.000005 a_1+ pi- eta PHSP;
0.000002 a_1+ pi- eta' PHSP;
0.000010 a_10 pi+ pi- PHSP;
0.000010 a_10 pi0 pi0 PHSP;
0.000005 a_10 pi0 eta PHSP;
0.000002 a_10 pi0 eta' PHSP;
0.000010 a_1- pi+ pi0 PHSP;
0.000005 a_1- pi+ eta PHSP;
0.000002 a_1- pi+ eta' PHSP;
0.000010 rho+ f_0 pi- PHSP;
0.000010 rho- f_0 pi+ PHSP;
0.000010 rho0 f_0 pi0 PHSP;
0.000005 rho0 f_0 eta PHSP;
0.000002 rho0 f_0 eta' PHSP;
0.000010 omega f_0 pi0 PHSP;
0.000010 rho+ a_00 pi- PHSP;
0.000010 rho+ a_0- pi0 PHSP;
0.000005 rho+ a_0- eta PHSP;
0.000002 rho+ a_0- eta' PHSP;
0.000010 rho0 a_0+ pi- PHSP;
0.000010 rho0 a_0- pi+ PHSP;
0.000010 rho0 a_00 pi0 PHSP;
0.000005 rho0 a_00 eta PHSP;
0.000002 rho0 a_00 eta' PHSP;
0.000010 rho- a_00 pi+ PHSP;
0.000010 rho- a_0+ pi0 PHSP;
0.000005 rho- a_0+ eta PHSP;
0.000002 rho- a_0+ eta' PHSP;
0.000002 f_0 pi+ pi- pi0 PHSP;
0.000001 f_0 pi+ pi- eta PHSP;
0.000001 f_0 pi+ pi- eta' PHSP;
0.000002 f_0 pi0 pi0 pi0 PHSP;
0.000001 f_0 pi0 pi0 eta PHSP;
0.000001 f_0 pi0 pi0 eta' PHSP;
0.000001 a_00 pi+ pi- pi0 PHSP;
0.000001 a_00 pi0 pi0 pi0 PHSP;
0.000001 a_0+ pi- pi+ pi- PHSP;
0.000001 a_0+ pi- pi0 pi0 PHSP;
0.000001 a_0- pi+ pi+ pi- PHSP;
0.000001 a_0- pi+ pi0 pi0 PHSP;
#--- 5-body rho-K*pi, rho-2pi-K, K*-3pi, 4pi-K -------------------
0.000010 rho0 K*- pi+ PHSP;
0.000010 rho+ K*- pi0 PHSP;
0.000005 rho+ K*- eta PHSP;
0.000002 rho+ K*- eta' PHSP;
0.000010 rho0 anti-K*0 pi0 PHSP;
0.000005 rho0 anti-K*0 eta PHSP;
0.000002 rho0 anti-K*0 eta' PHSP;
0.000010 rho- anti-K*0 pi+ PHSP;
0.000010 rho+ anti-K*0 pi- PHSP;
0.000010 omega K*- pi+ PHSP;
0.000010 omega anti-K*0 pi0 PHSP;
0.000005 omega anti-K*0 eta PHSP;
0.000002 omega anti-K*0 eta' PHSP;
0.000010 pi+ pi- K*- pi+ PHSP;
0.000010 pi+ pi0 K*- pi0 PHSP;
0.000005 pi+ pi0 K*- eta PHSP;
0.000002 pi+ pi0 K*- eta' PHSP;
0.000010 pi+ pi- anti-K*0 pi0 PHSP;
0.000005 pi+ pi- anti-K*0 eta PHSP;
0.000002 pi+ pi- anti-K*0 eta' PHSP;
0.000010 pi0 pi0 anti-K*0 pi0 PHSP;
0.000005 pi0 pi0 anti-K*0 eta PHSP;
0.000002 pi0 pi0 anti-K*0 eta' PHSP;
0.000010 rho- K- pi+ pi+ PHSP;
0.000010 rho0 K- pi+ pi0 PHSP;
0.000005 rho0 K- pi+ eta PHSP;
0.000002 rho0 K- pi+ eta' PHSP;
0.000010 rho+ K- pi+ pi- PHSP;
0.000010 rho+ K- pi0 pi0 PHSP;
0.000005 rho+ K- pi0 eta PHSP;
0.000002 rho+ K- pi0 eta' PHSP;
0.000010 rho0 anti-K0 pi+ pi- PHSP;
0.000010 rho0 anti-K0 pi0 pi0 PHSP;
0.000005 rho0 anti-K0 pi0 eta PHSP;
0.000002 rho0 anti-K0 pi0 eta' PHSP;
0.000010 rho- anti-K0 pi+ pi0 PHSP;
0.000005 rho- anti-K0 pi+ eta PHSP;
0.000002 rho- anti-K0 pi+ eta' PHSP;
0.000010 rho+ anti-K0 pi- pi0 PHSP;
0.000005 rho+ anti-K0 pi- eta PHSP;
0.000002 rho+ anti-K0 pi- eta' PHSP;
0.000010 omega K- pi+ pi0 PHSP;
0.000005 omega K- pi+ eta PHSP;
0.000002 omega K- pi+ eta' PHSP;
0.000010 omega anti-K0 pi+ pi- PHSP;
0.000010 omega anti-K0 pi0 pi0 PHSP;
0.000005 omega anti-K0 pi0 eta PHSP;
0.000002 omega anti-K0 pi0 eta' PHSP;
0.000002 pi+ pi- pi+ K- pi0 PHSP;
0.000001 pi+ pi- pi+ K- eta PHSP;
0.000001 pi+ pi- pi+ K- eta' PHSP;
0.000002 pi0 pi0 pi+ K- pi0 PHSP;
0.000001 pi0 pi0 pi+ K- eta PHSP;
0.000001 pi0 pi0 pi+ K- eta' PHSP;
0.000002 pi+ pi- pi+ anti-K0 pi- PHSP;
0.000002 pi+ pi- pi0 anti-K0 pi0 PHSP;
0.000001 pi+ pi- pi0 anti-K0 eta PHSP;
0.000001 pi+ pi- pi0 anti-K0 eta' PHSP;
0.000002 pi0 pi0 pi0 anti-K0 pi0 PHSP;
0.000001 pi0 pi0 pi0 anti-K0 eta PHSP;
0.000001 pi0 pi0 pi0 anti-K0 eta' PHSP;
0.000010 rho+ anti-K_0*0 pi- PHSP;
0.000010 rho0 anti-K_0*0 pi0 PHSP;
0.000005 rho0 anti-K_0*0 eta PHSP;
0.000002 rho0 anti-K_0*0 eta' PHSP;
0.000010 rho- anti-K_0*0 pi+ PHSP;
0.000010 rho+ K_0*- pi0 PHSP;
0.000005 rho+ K_0*- eta PHSP;
0.000002 rho+ K_0*- eta' PHSP;
0.000010 rho0 K_0*- pi+ PHSP;
0.000010 pi+ pi- K_0*- pi+ PHSP;
0.000010 pi+ pi0 K_0*- pi0 PHSP;
0.000005 pi+ pi0 K_0*- eta PHSP;
0.000002 pi+ pi0 K_0*- eta' PHSP;
0.000010 pi+ pi- anti-K_0*0 pi0 PHSP;
0.000005 pi+ pi- anti-K_0*0 eta PHSP;
0.000002 pi+ pi- anti-K_0*0 eta' PHSP;
0.000010 pi0 pi0 anti-K_0*0 pi0 PHSP;
0.000005 pi0 pi0 anti-K_0*0 eta PHSP;
0.000005 pi0 pi0 anti-K_0*0 eta' PHSP;
0.000010 K*- f_0 pi+ PHSP;
0.000010 anti-K*0 f_0 pi0 PHSP;
0.000005 anti-K*0 f_0 eta PHSP;
0.000002 anti-K*0 f_0 eta' PHSP;
0.000010 a_1+ anti-K0 pi- PHSP;
0.000020 a_10 anti-K*0 PHSP;
0.000010 a_10 K- pi+ PHSP;
0.000010 a_10 anti-K0 pi0 PHSP;
0.000020 a_1+ K*- PHSP;
0.000010 a_1+ K- pi0 PHSP;
0.000010 a_1- anti-K0 pi+ PHSP;
0.000005 K*- a_00 pi+ PHSP;
0.000005 K*- a_0+ pi0 PHSP;
0.000002 K*- a_0+ eta PHSP;
0.000001 K*- a_0+ eta' PHSP;
0.000005 anti-K*0 a_0+ pi- PHSP;
0.000005 anti-K*0 a_00 pi0 PHSP;
0.000002 anti-K*0 a_00 eta PHSP;
0.000001 anti-K*0 a_00 eta' PHSP;
#--- 5-body K*-K*pi,rho-K-Kpi, K*-K-2pi, phi-3pi, 3pi-K-K ------------
0.000001 K*- K*0 pi+ PHSP;
0.000001 K*+ anti-K*0 pi- PHSP;
0.000001 K*- K*+ pi0 PHSP;
0.0000005 K*- K*+ eta PHSP;
0.0000002 K*- K*+ eta' PHSP;
0.000001 K*0 anti-K*0 pi0 PHSP;
0.0000005 K*0 anti-K*0 eta PHSP;
0.0000002 K*0 anti-K*0 eta' PHSP;
0.000001 phi rho+ pi- PHSP;
0.000001 phi rho- pi+ PHSP;
0.000001 phi rho0 pi0 PHSP;
0.0000005 phi rho0 eta PHSP;
0.0000002 phi rho0 eta' PHSP;
0.000001 phi omega pi0 PHSP;
0.000001 phi f_0 pi0 PHSP;
0.000001 phi pi+ pi- pi0 PHSP;
0.0000005 phi pi+ pi- eta PHSP;
0.0000002 phi pi+ pi- eta' PHSP;
0.000001 phi pi0 pi0 pi0 PHSP;
0.0000005 phi pi0 pi0 eta PHSP;
0.0000002 phi pi0 pi0 eta' PHSP;
0.000001 K0 K- rho0 pi+ PHSP;
0.000001 K0 K- rho+ pi0 PHSP;
0.0000005 K0 K- rho+ eta PHSP;
0.0000002 K0 K- rho+ eta' PHSP;
0.000001 K0 K- omega pi+ PHSP;
0.000001 K0 K- f_0 pi+ PHSP;
0.000001 K+ K- rho+ pi- PHSP;
0.000001 K+ K- rho- pi+ PHSP;
0.000001 K+ K- rho0 pi0 PHSP;
0.0000005 K+ K- rho0 eta PHSP;
0.0000002 K+ K- rho0 eta' PHSP;
0.000001 K+ K- omega pi0 PHSP;
0.0000005 K+ K- omega eta PHSP;
0.0000002 K+ K- omega eta' PHSP;
0.000001 K+ K- f_0 pi0 PHSP;
0.000001 K0 anti-K0 rho+ pi- PHSP;
0.000001 K0 anti-K0 rho- pi+ PHSP;
0.000001 K0 anti-K0 rho0 pi0 PHSP;
0.0000005 K0 anti-K0 rho0 eta PHSP;
0.0000002 K0 anti-K0 rho0 eta' PHSP;
0.000001 K0 anti-K0 omega pi0 PHSP;
0.000001 K0 anti-K0 f_0 pi0 PHSP;
0.000001 anti-K0 K+ rho0 pi- PHSP;
0.000001 anti-K0 K+ rho- pi0 PHSP;
0.0000005 anti-K0 K+ rho- eta PHSP;
0.0000002 anti-K0 K+ rho- eta' PHSP;
0.000001 anti-K0 K+ omega pi- PHSP;
0.000001 anti-K0 K+ f_0 pi- PHSP;
0.0000002 K0 K- pi+ pi+ pi- PHSP;
0.0000002 K0 K- pi+ pi0 pi0 PHSP;
0.0000001 K0 K- pi+ pi0 eta PHSP;
0.0000001 K0 K- pi+ pi0 eta' PHSP;
0.0000002 K+ K- pi+ pi- pi0 PHSP;
0.0000001 K+ K- pi+ pi- eta PHSP;
0.0000001 K+ K- pi+ pi- eta' PHSP;
0.0000002 K+ K- pi0 pi0 pi0 PHSP;
0.0000001 K+ K- pi0 pi0 eta PHSP;
0.0000001 K+ K- pi0 pi0 eta' PHSP;
0.0000002 K0 anti-K0 pi+ pi- pi0 PHSP;
0.0000001 K0 anti-K0 pi+ pi- eta PHSP;
0.0000001 K0 anti-K0 pi+ pi- eta' PHSP;
0.0000002 K0 anti-K0 pi0 pi0 pi0 PHSP;
0.0000001 K0 anti-K0 pi0 pi0 eta PHSP;
0.0000001 K0 anti-K0 pi0 pi0 eta' PHSP;
0.0000002 anti-K0 K+ pi- pi+ pi- PHSP;
0.0000002 anti-K0 K+ pi- pi0 pi0 PHSP;
0.0000001 anti-K0 K+ pi- pi0 eta PHSP;
0.0000001 anti-K0 K+ pi- pi0 eta' PHSP;
0.000001 K*0 K- pi+ pi0 PHSP;
0.0000005 K*0 K- pi+ eta PHSP;
0.0000002 K*0 K- pi+ eta' PHSP;
0.000001 K*- K0 pi+ pi0 PHSP;
0.0000005 K*- K0 pi+ eta PHSP;
0.0000002 K*- K0 pi+ eta' PHSP;
0.000001 K*+ K- pi+ pi- PHSP;
0.000001 K*+ K- pi0 pi0 PHSP;
0.0000005 K*+ K- pi0 eta PHSP;
0.0000002 K*+ K- pi0 eta' PHSP;
0.000001 K*- K+ pi+ pi- PHSP;
0.000001 K*- K+ pi0 pi0 PHSP;
0.0000005 K*- K+ pi0 eta PHSP;
0.0000002 K*- K+ pi0 eta' PHSP;
0.000001 K*0 anti-K0 pi+ pi- PHSP;
0.000001 K*0 anti-K0 pi0 pi0 PHSP;
0.0000005 K*0 anti-K0 pi0 eta PHSP;
0.0000002 K*0 anti-K0 pi0 eta' PHSP;
0.000001 K0 anti-K*0 pi+ pi- PHSP;
0.000001 K0 anti-K*0 pi0 pi0 PHSP;
0.0000005 K0 anti-K*0 pi0 eta PHSP;
0.0000002 K0 anti-K*0 pi0 eta' PHSP;
0.000001 K+ anti-K*0 pi- pi0 PHSP;
0.0000005 K+ anti-K*0 pi- eta PHSP;
0.0000002 K+ anti-K*0 pi- eta' PHSP;
0.000001 K*+ anti-K0 pi- pi0 PHSP;
0.0000005 K*+ anti-K0 pi- eta PHSP;
0.0000002 K*+ anti-K0 pi- eta' PHSP;
#--- 5-body phi-K*-pi, phi-K-2pi, K-K-K*-pi, 2pi-K-K-K --------------------
0.000010 phi K*- pi+ PHSP;
0.000010 phi anti-K*0 pi0 PHSP;
0.000005 phi anti-K*0 eta PHSP;
0.000002 phi anti-K*0 eta' PHSP;
0.000010 phi K- rho+ PHSP;
0.000010 phi anti-K0 rho0 PHSP;
0.000010 phi anti-K0 omega PHSP;
0.000010 phi anti-K0 f_0 PHSP;
0.000010 phi anti-K0 pi+ pi- PHSP;
0.000010 phi anti-K0 pi0 pi0 PHSP;
0.000005 phi anti-K0 pi0 eta PHSP;
0.000002 phi anti-K0 pi0 eta' PHSP;
0.000010 phi K- pi+ pi0 PHSP;
0.000005 phi K- pi+ eta PHSP;
0.000002 phi K- pi+ eta' PHSP;
0.000010 K+ K- K*- pi+ PHSP;
0.000010 K- K*+ K- pi+ PHSP;
0.000010 K- K*0 anti-K0 pi+ PHSP;
0.000010 K- K0 anti-K*0 pi+ PHSP;
0.000010 K0 K*- anti-K0 pi+ PHSP;
0.000010 K- K+ K- rho+ PHSP;
0.000010 K- K+ anti-K0 rho0 PHSP;
0.000010 K- K+ anti-K0 omega PHSP;
0.000010 K- K+ anti-K0 f_0 PHSP;
0.000010 K+ K- K- pi+ pi0 PHSP;
0.000005 K+ K- K- pi+ eta PHSP;
0.000002 K+ K- K- pi+ eta' PHSP;
0.000010 K+ K- anti-K0 pi+ pi- PHSP;
0.000010 K+ K- anti-K0 pi0 pi0 PHSP;
0.000005 K+ K- anti-K0 pi0 eta PHSP;
0.000005 K+ K- anti-K0 pi0 eta' PHSP;
0.000010 K0 anti-K0 K- pi+ pi0 PHSP;
0.000005 K0 anti-K0 K- pi+ eta PHSP;
0.000002 K0 anti-K0 K- pi+ eta' PHSP;
0.000010 K0 anti-K0 anti-K0 pi+ pi- PHSP;
0.000010 K0 anti-K0 anti-K0 pi0 pi0 PHSP;
0.000005 K0 anti-K0 anti-K0 pi0 eta PHSP;
0.000002 K0 anti-K0 anti-K0 pi0 eta' PHSP;
0.000010 phi K_0*- pi+ PHSP;
0.000010 phi anti-K_0*0 pi0 PHSP;
0.000010 K+ K- K_0*- pi+ PHSP;
0.000010 K+ K- anti-K_0*0 pi0 PHSP;
0.000005 K+ K- anti-K_0*0 eta PHSP;
0.000002 K+ K- anti-K_0*0 eta' PHSP;
0.000010 K- K- K_0*+ pi+ PHSP;
0.000010 K- anti-K_0*0 K0 pi+ PHSP;
0.000010 K- K_0*0 anti-K0 pi+ PHSP;
0.000010 K0 anti-K0 K_0*- pi+ PHSP;
0.000010 K0 anti-K0 anti-K_0*0 pi0 PHSP;
0.000005 K0 anti-K0 anti-K_0*0 eta PHSP;
0.000002 K0 anti-K0 anti-K_0*0 eta' PHSP;
0.000010 anti-K0 anti-K0 K_0*0 pi0 PHSP;
0.000005 anti-K0 anti-K0 K_0*0 eta PHSP;
0.000002 anti-K0 anti-K0 K_0*0 eta' PHSP;
0.000002 phi K'_1- pi+ PHSP;
0.000002 phi anti-K'_10 pi0 PHSP;
0.000001 phi anti-K'_10 eta PHSP;
0.000001 phi anti-K'_10 eta' PHSP;
0.000002 K- K+ K'_1- pi+ PHSP;
0.000002 K- K+ anti-K'_10 pi0 PHSP;
0.000001 K- K+ anti-K'_10 eta PHSP;
0.000001 K- K+ anti-K'_10 eta' PHSP;
0.000002 K- K- K'_1+ pi+ PHSP;
0.000002 K0 anti-K0 anti-K'_10 pi0 PHSP;
0.000001 K0 anti-K0 anti-K'_10 eta PHSP;
0.000001 K0 anti-K0 anti-K'_10 eta' PHSP;
0.000002 anti-K0 anti-K0 K'_10 pi0 PHSP;
0.000001 anti-K0 anti-K0 K'_10 eta PHSP;
0.000001 anti-K0 anti-K0 K'_10 eta' PHSP;
#--- 5-body phi-phi-K, phi-phi-pi, phi-3K, phi-K-K-pi, 5K, 4K-pi ------------
0.000004100 phi phi anti-K0 PHSP; #[Reconstructed PDG2011]
0.0000001 phi phi pi0 PHSP;
0.000001 phi K+ K- anti-K0 PHSP;
0.000001 phi K0 anti-K0 anti-K0 PHSP;
0.0000001 phi K+ K- pi0 PHSP;
0.0000001 phi K0 anti-K0 pi0 PHSP;
0.0000001 phi anti-K0 K+ pi- PHSP;
0.0000001 phi K0 K- pi+ PHSP;
0.0000001 K+ K- K+ K- anti-K0 PHSP;
0.0000001 K0 anti-K0 K+ K- anti-K0 PHSP;
0.0000001 K+ K- K+ K- pi0 PHSP;
0.0000001 K+ K- K0 anti-K0 pi0 PHSP;
0.0000001 K+ K- K+ anti-K0 pi- PHSP;
0.0000001 K+ K- K0 K- pi+ PHSP;
0.0000001 K0 anti-K0 K0 anti-K0 pi0 PHSP;
0.0000001 K0 anti-K0 anti-K0 K+ pi- PHSP;
0.0000001 K0 anti-K0 K0 K- pi+ PHSP;
#--- 6-body phi-phi-K*, phi-3Kpi, phi-K-K-2pi ------------
0.000003 phi phi anti-K*0 PHSP;
0.000001 phi K+ K- anti-K*0 PHSP;
0.000001 phi K0 anti-K0 anti-K*0 PHSP;
0.000001 phi anti-K0 K- K*+ PHSP;
0.000001 phi anti-K0 anti-K0 K*0 PHSP;
0.0000001 phi K+ K- K- pi+ PHSP;
0.0000001 phi K+ K- anti-K0 pi0 PHSP;
0.0000001 phi K0 anti-K0 K- pi+ PHSP;
0.0000001 phi K0 anti-K0 anti-K0 pi0 PHSP;
#--- 6-body a1a1 ------------
0.000050 a_10 a_10 PHSP;
0.000050 a_1+ a_1- PHSP;
#
# PR LHCb: 7 Nov 2005 Add K*0 pi0 pi0
0.0000067 K*0 pi0 pi0 PHSP;
#
# B -> cc= s
#
# Charmonium states - updated from Lange's recommendations (august 23,2000)
# Based on new BABAR results I'm making the following changes (Lange, March 13, 2001
# J/psi K0 was 10, now 9 x 10^-4
# J/psi pi0 was 2.5, now 2.0 x 10^-4
# J/psi Kstar was 15, now 13
# Fix chic1 KS CP eigenstate
# adding J/psi rho and omega - for lack of better thing will use the Kstar helicity amplitudes.
# Psi2sKs 30 ->31
# chic1 Kstar: 12 ->6
0.000435500 J/psi K_S0 SVS; #[Reconstructed PDG2011]
0.000435500 J/psi K_L0 SVS; #[Reconstructed PDG2011]
#
#
0.001330000 J/psi anti-K*0 SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; #[Reconstructed PDG2011]
0.000017600 J/psi pi0 SVS; #[Reconstructed PDG2011]
0.000027000 J/psi rho0 SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; #[Reconstructed PDG2011]
0.000030 J/psi omega SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus;
0.000000000 J/psi K- pi+ PHSP; #[Reconstructed PDG2011]
0.0001 J/psi anti-K0 pi0 PHSP;
#rl0.0007 J/psi anti-K0 pi+ pi- PHSP;
#rl0.00035 J/psi anti-K0 pi0 pi0 PHSP;
#rl0.00035 J/psi K- pi+ pi0 PHSP;
0.001300000 J/psi anti-K_10 SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; #[Reconstructed PDG2011]
0.0001 J/psi anti-K'_10 SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0;
0.0005 J/psi anti-K_2*0 PHSP;
0.000094000 J/psi phi anti-K0 PHSP; #[Reconstructed PDG2011]
#
0.000310000 psi(2S) K_S0 SVS; #[Reconstructed PDG2011]
0.000310000 psi(2S) K_L0 SVS; #[Reconstructed PDG2011]
#
#
0.000610000 psi(2S) anti-K*0 SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; #[Reconstructed PDG2011]
0.0004 psi(2S) K- pi+ PHSP;
0.0002 psi(2S) anti-K0 pi0 PHSP;
0.0002 psi(2S) anti-K0 pi+ pi- PHSP;
0.0001 psi(2S) anti-K0 pi0 pi0 PHSP;
0.0001 psi(2S) K- pi+ pi0 PHSP;
0.0004 psi(2S) anti-K_10 PHSP;
#
0.000445000 eta_c K_S0 PHSP; #[Reconstructed PDG2011]
0.000445000 eta_c K_L0 PHSP; #[Reconstructed PDG2011]
#
#
0.000610000 anti-K*0 eta_c SVS; #[Reconstructed PDG2011]
0.0002 eta_c K- pi+ PHSP;
0.0001 eta_c anti-K0 pi0 PHSP;
0.0002 eta_c anti-K0 pi+ pi- PHSP;
0.0001 eta_c anti-K0 pi0 pi0 PHSP;
0.0001 eta_c K- pi+ pi0 PHSP;
#
0.00024 eta_c(2S) K_S0 PHSP;
0.00024 eta_c(2S) K_L0 PHSP;
#
#
0.00066 anti-K*0 eta_c(2S) SVS;
0.00008 eta_c(2S) K- pi+ PHSP;
0.00005 eta_c(2S) anti-K0 pi0 PHSP;
0.00008 eta_c(2S) anti-K0 pi+ pi- PHSP;
0.00005 eta_c(2S) anti-K0 pi0 pi0 PHSP;
0.00005 eta_c(2S) K- pi+ pi0 PHSP;
#
0.000070000 chi_c0 K_S0 PHSP; #[Reconstructed PDG2011]
0.000070000 chi_c0 K_L0 PHSP; #[Reconstructed PDG2011]
#
#
0.00030 anti-K*0 chi_c0 SVS;
0.0002 chi_c0 K- pi+ PHSP;
0.0001 chi_c0 anti-K0 pi0 PHSP;
0.0002 chi_c0 anti-K0 pi+ pi- PHSP;
0.0001 chi_c0 anti-K0 pi0 pi0 PHSP;
0.0001 chi_c0 K- pi+ pi0 PHSP;
#
0.000195000 chi_c1 K_S0 SVS; #[Reconstructed PDG2011]
0.000195000 chi_c1 K_L0 SVS; #[Reconstructed PDG2011]
#
#
0.000222000 chi_c1 anti-K*0 SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; #[Reconstructed PDG2011]
0.0004 chi_c1 K- pi+ PHSP;
0.0002 chi_c1 anti-K0 pi0 PHSP;
0.0004 chi_c1 anti-K0 pi+ pi- PHSP;
0.0002 chi_c1 anti-K0 pi0 pi0 PHSP;
0.0002 chi_c1 K- pi+ pi0 PHSP;
#
0.00005 chi_c2 K_S0 STS;
0.00005 chi_c2 K_L0 STS;
#
#
0.00003 chi_c2 anti-K*0 PHSP;
0.0002 chi_c2 K- pi+ PHSP;
0.0001 chi_c2 anti-K0 pi0 PHSP;
0.0002 chi_c2 anti-K0 pi+ pi- PHSP;
0.0001 chi_c2 anti-K0 pi0 pi0 PHSP;
0.0001 chi_c2 K- pi+ pi0 PHSP;
#
0.00024 psi(3770) K_S0 SVS;
0.00024 psi(3770) K_L0 SVS;
#
#
0.00048 psi(3770) anti-K*0 SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus;
0.00014 psi(3770) K- pi+ PHSP;
0.00014 psi(3770) anti-K0 pi0 PHSP;
0.00014 psi(3770) anti-K0 pi+ pi- PHSP;
0.00007 psi(3770) anti-K0 pi0 pi0 PHSP;
0.00007 psi(3770) K- pi+ pi0 PHSP;
0.00029 psi(3770) anti-K_10 PHSP;
#
# b-> c (dc=)
#
0.000211000 D- D+ PHSP; #[Reconstructed PDG2011]
# See Ref [B1] for the next 3:
0.000305 D*+ D- SVS;
0.000610000 D*- D+ SVS; #[Reconstructed PDG2011]
0.000820000 D*+ D*- SVV_HELAMP 0.47 0.0 0.96 0.0 0.56 0.0; #[Reconstructed PDG2011]
#
# b -> c (sc=) --> D Ds X Sum = 10%
#
0.007200000 D+ D_s- PHSP; #[Reconstructed PDG2011]
0.008000000 D*+ D_s- SVS; #[Reconstructed PDG2011]
0.007400000 D_s*- D+ SVS; #[Reconstructed PDG2011]
0.017700000 D*+ D_s*- SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; #[Reconstructed PDG2011]
0.0006 D'_1+ D_s- SVS;
0.0012 D'_1+ D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0012 D_1+ D_s- SVS;
0.0024 D_1+ D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0042 D_2*+ D_s- STS;
0.0040 D_2*+ D_s*- PHSP;
#
0.0018 D_s- D+ pi0 PHSP;
0.0037 D_s- D0 pi+ PHSP;
0.0018 D_s*- D+ pi0 PHSP;
0.0037 D_s*- D0 pi+ PHSP;
0.0030 D_s- D+ pi+ pi- PHSP;
0.0022 D_s- D+ pi0 pi0 PHSP;
0.0022 D_s- D0 pi+ pi0 PHSP;
0.0030 D_s*- D+ pi+ pi- PHSP;
0.0022 D_s*- D+ pi0 pi0 PHSP;
0.0022 D_s*- D0 pi+ pi0 PHSP;
#
# b -> c (sc=) --> D D= K X Sum = 8%
# Update: Ref. [B1]
#
# External W-emission amplitude
0.001700000 D+ anti-D0 K- PHSP; #[Reconstructed PDG2011]
0.004600000 D+ anti-D*0 K- PHSP; #[Reconstructed PDG2011]
0.003100000 D*+ anti-D0 K- PHSP; #[Reconstructed PDG2011]
0.011800000 D*+ anti-D*0 K- PHSP; #[Reconstructed PDG2011]
# External+internal W-emission amplitude
0.0015 D+ D- anti-K0 PHSP;
0.0018 D*+ D- anti-K0 PHSP;
0.0047 D+ D*- anti-K0 PHSP;
0.007800000 D*+ D*- anti-K0 PHSP; #[Reconstructed PDG2011]
# Internal W-emission amplitude (color suppressed modes)
0.0005 D0 anti-D0 anti-K0 PHSP;
0.000120000 D*0 anti-D0 anti-K0 PHSP; #[Reconstructed PDG2011]
0.0015 D0 anti-D*0 anti-K0 PHSP;
0.0015 D*0 anti-D*0 anti-K0 PHSP;
0.0025 D+ anti-D0 K*- PHSP;
0.0025 D*+ anti-D0 K*- PHSP;
0.0025 D+ anti-D*0 K*- PHSP;
0.0050 D*+ anti-D*0 K*- PHSP;
#
0.0025 D+ D- anti-K*0 PHSP;
0.0025 D*+ D- anti-K*0 PHSP;
0.0025 D+ D*- anti-K*0 PHSP;
0.0050 D*+ D*- anti-K*0 PHSP;
#
0.0005 anti-D0 D0 anti-K*0 PHSP;
0.0005 anti-D0 D*0 anti-K*0 PHSP;
0.0005 anti-D*0 D0 anti-K*0 PHSP;
0.0010 anti-D*0 D*0 anti-K*0 PHSP;
#
#
# B -> D(*) X Exclusive modes
#
0.002760000 D*+ pi- SVS; #[Reconstructed PDG2011]
0.002680000 D+ pi- PHSP; #[Reconstructed PDG2011]
0.007110000 rho- D+ SVS; #[Reconstructed PDG2011]
#
# D* rho HELAMP parameters taken from ICHEP 98-852.
0.006800000 rho- D*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; #[Reconstructed PDG2011]
0.0005 D+ pi- pi0 PHSP;
0.008200000 D*+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000840000 D0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000620000 D*0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.0005 D*0 pi0 pi0 PHSP;
#
# D a1 updated Ref. [B1]
0.006000000 a_1- D+ SVS; #[Reconstructed PDG2011]
0.000000000 D+ rho0 pi- PHSP; #[Reconstructed PDG2011]
0.0011 D+ rho- pi0 PHSP;
0.002000000 D+ pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.0010 D+ pi0 pi- pi0 PHSP;
0.0010 D0 pi+ pi- pi0 PHSP;
0.0001 D0 pi0 pi0 pi0 PHSP;
#
# SVV_HELAMP for D* a1 taken from factorization. Recommandation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html:
# updated Ref. [B1]
# October 26, 2004 Lange update
0.013000000 D*+ a_1- SVV_HELAMP 0.200 0.0 0.866 0.0 0.458 0.0; #[Reconstructed PDG2011]
#
0.005700000 D*+ rho0 pi- PHSP; #[Reconstructed PDG2011]
0.0010 D*+ rho- pi0 PHSP;
0.0000 D*+ pi+ pi- pi- PHSP;
0.0010 D*+ pi0 pi- pi0 PHSP;
0.0010 D*0 pi+ pi- pi0 PHSP;
0.0001 D*0 pi0 pi0 pi0 PHSP;
#
# B->D** pi and D** rho, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html
#further updates October 26, 2004 - Lange
# October 26, 2004 Lange update
#
0.0001 D_1+ pi- SVS;
0.0001 D'_1+ pi- SVS;
0.00006 D_0*+ pi- PHSP;
0.000215 D_2*+ pi- STS;
0.0004 D_1+ rho- PHSP;
0.0013 D'_1+ rho- PHSP;
0.0022 D_2*+ rho- PHSP;
#
#
# B->DK, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html:
# update: Ref. [B1]:
#
0.000214000 D*+ K- SVS; #[Reconstructed PDG2011]
0.000200000 D+ K- PHSP; #[Reconstructed PDG2011]
0.000330000 D*+ K*- SVV_HELAMP 0.228 0.0 0.932 0.0 0.283 0.0; #[Reconstructed PDG2011]
0.000450000 K*- D+ SVS; #[Reconstructed PDG2011]
#more DK modes - October 26, 2004 -Lange
0.000036 D*0 K0 SVS;
0.000052 D0 K0 PHSP;
0.000042000 anti-K*0 D0 SVS; #[Reconstructed PDG2011]
0.00001 anti-K*0 anti-D0 SVS;
0.00004 D*0 anti-K*0 SVV_HELAMP 1. 0. 1. 0. 1. 0.;
0.00001 anti-D*0 anti-K*0 SVV_HELAMP 1. 0. 1. 0. 1. 0.;
#
#
# Color-suppressed modes. Br's are expectations from
# Phys. Rev. D57 (1998), 5363-5369, except for the eta' modes, which are set
# equal to the eta modes. SVV_HELAMP parameters are the same as in D*0 rho-,
# with phases set to 0. Recommendation http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/169.html:
# update: See Ref [B1]:
# further update October 26, 2004 Lange
#
0.000261000 D0 pi0 PHSP; #[Reconstructed PDG2011]
0.000170000 D*0 pi0 SVS; #[Reconstructed PDG2011]
#
0.000320000 rho0 D0 SVS; #[Reconstructed PDG2011]
0.00029 D*0 rho0 SVV_HELAMP 0.228 0.0 0.932 0.0 0.283 0.0;
#
0.000202000 D0 eta PHSP; #[Reconstructed PDG2011]
0.000200000 D*0 eta SVS; #[Reconstructed PDG2011]
#
0.000125 D0 eta' PHSP;
0.000123000 D*0 eta' SVS; #[Reconstructed PDG2011]
#
0.000259000 omega D0 SVS; #[Reconstructed PDG2011]
0.000330000 D*0 omega SVV_HELAMP 0.228 0.0 0.932 0.0 0.283 0.0; #[Reconstructed PDG2011]
#
#
#October 26, 2004 - Lange
0.0016 D_s0*- D+ PHSP;
0.0015 D*+ D_s0*- SVS;
0.003500000 D_s1- D+ SVS; #[Reconstructed PDG2011]
0.009300000 D*+ D_s1- SVV_HELAMP 0.4904 0. 0.7204 0. 0.4904 0.; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.00088 D+ K- anti-K*0 PHSP;
0.00129 D*+ K- anti-K*0 PHSP;
#
# Feb 2009
#
0.002800000 D+ omega pi- PHSP; #[Reconstructed PDG2011]
0.002890000 D*+ omega pi- PHSP; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.00049 D+ K0 pi- PHSP;
0.0003 D*+ K0 pi- PHSP;
#
# Feb 2009
#
0.00043 D'_s1- D+ PHSP;
0.00083 D'_s1- D*+ PHSP;
##### Already included above 0.0023 D_s1- D*+ PHSP;
#
#
# Lam_c X / Sigma_c X 6.0 %
#
#0.01000 cd_0 anti-ud_0 PYTHIA 23;
#0.03000 cd_1 anti-ud_1 PYTHIA 23;
0.010463563 cd_0 anti-ud_0 PYTHIA 23; #[Reconstructed PDG2011]
0.020927220 cd_1 anti-ud_1 PYTHIA 23; #[Reconstructed PDG2011]
#
# Xi_c X 2.5%
#
#0.00600 cs_0 anti-ud_0 PYTHIA 23;
#0.01800 cs_1 anti-ud_1 PYTHIA 23;
0.002853725 cs_0 anti-ud_0 PYTHIA 23; #[Reconstructed PDG2011]
0.005707449 cs_1 anti-ud_1 PYTHIA 23; #[Reconstructed PDG2011]
#
# PR LHCb Add p pbar mode
0.0000001 p+ anti-p- PHSP;
#
0.256690755 anti-u d c anti-d PYTHIA 48; #[Reconstructed PDG2011]
0.043756828 anti-u d c anti-d PYTHIA 25; #[Reconstructed PDG2011]
0.019975978 anti-u s c anti-d PYTHIA 23; #[Reconstructed PDG2011]
0.017122253 anti-u c d anti-d PYTHIA 48; #[Reconstructed PDG2011]
0.000856098 anti-u c s anti-d PYTHIA 48; #[Reconstructed PDG2011]
#lange - try to crank up the psi production....
0.070391402 anti-c s c anti-d PYTHIA 13; #[Reconstructed PDG2011]
0.005707449 anti-c d c anti-d PYTHIA 13; #[Reconstructed PDG2011]
0.002853725 anti-u d u anti-d PYTHIA 48; #[Reconstructed PDG2011]
0.003804966 anti-c s u anti-d PYTHIA 48; #[Reconstructed PDG2011]
# JGS 11/5/02 This and similar a few lines above have been divided by two
# to solve a double-counting problem for this channel
0.001950007 anti-u u d anti-d PYTHIA 48; #[Reconstructed PDG2011]
0.000066610 anti-d d d anti-d PYTHIA 48; #[Reconstructed PDG2011]
0.000085600 anti-s s d anti-d PYTHIA 48; #[Reconstructed PDG2011]
0.002092675 anti-u u s anti-d PYTHIA 48; #[Reconstructed PDG2011]
0.001712197 anti-d d s anti-d PYTHIA 48; #[Reconstructed PDG2011]
0.001426862 anti-s s s anti-d PYTHIA 48; #[Reconstructed PDG2011]
0.004756208 s anti-d PYTHIA 32; #[Reconstructed PDG2011]
0.000490000 D+ anti-K0 pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000880000 D+ K- K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 D*+ anti-K0 pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001290000 D*+ K- K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.017600000 D*+ pi- pi- pi+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.004700000 D*+ pi- pi- pi- pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000110000 D_s+ pi- anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000052000 D0 anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000046000 D0 K- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000006000 anti-D0 K- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000036000 D*0 anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002700000 anti-D*0 pi- pi- pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000890000 eta_c anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000871000 J/psi anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000310000 J/psi omega anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000009500 J/psi eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000019000 J/psi pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000460000 J/psi anti-K0 pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000540000 J/psi anti-K0 rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000800000 J/psi K*- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000660000 J/psi anti-K*0 pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000170000 anti-K0 anti-D0 D0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000620000 psi(2S) anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000140000 chi_c0 anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011200 chi_c1 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000390000 chi_c1 anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000158000 chi_c1 K+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011000 eta anti-K_0*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000009600 eta anti-K_2*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000016000 omega anti-K_0*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000010100 omega anti-K_2*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004700 anti-K0 rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002700 f_2 anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000001400 f_0 K- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000007500 anti-K_2*0 phi PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000007600 eta anti-K0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004600 K- pi+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000019500 anti-K0 pi- pi+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000041000 K- pi+ pi0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000012400 anti-K_2*0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000860 rho0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002660 anti-p- p+ anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000001240 anti-p- p+ anti-K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000003140 anti-p- Lambda0 pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004800 Lambda0 anti-Lambda0 anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002500 Lambda0 anti-Lambda0 anti-K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011000 Lambda0 anti-Lambda0 anti-D0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000114000 D0 anti-p- p+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000028000 D_s+ Lambda0 anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000103000 D*0 anti-p- p+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001500000 D*+ anti-p- n0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000338000 D+ anti-p- p+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000500000 D*+ anti-p- p+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000020000 Lambda_c+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000630000 Lambda_c+ anti-p- pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000120000 Sigma_c*++ anti-p- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000150000 Sigma_c0 anti-p- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000220000 Sigma_c++ anti-p- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
#
Decay B0
# Updated to PDG 2008
# b -> c semileptonic
#
-0.050100000 D*- e+ nu_e PHOTOS HQET 0.77 1.33 0.92; #[Reconstructed PDG2011]
-0.021700000 D- e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.0054 D_1- e+ nu_e PHOTOS ISGW2;
-0.0020 D_0*- e+ nu_e PHOTOS ISGW2;
-0.0050 D'_1- e+ nu_e PHOTOS ISGW2;
-0.0022 D_2*- e+ nu_e PHOTOS ISGW2;
-0.0003 D*- pi0 e+ nu_e PHOTOS GOITY_ROBERTS;
-0.004900000 anti-D*0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; #[Reconstructed PDG2011]
-0.0010 D- pi0 e+ nu_e PHOTOS GOITY_ROBERTS;
+0.050100000 D*- e+ nu_e FSR HQET 0.77 1.33 0.92; #[Reconstructed PDG2011]
+0.021700000 D- e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.0054 D_1- e+ nu_e FSR ISGW2;
+0.0020 D_0*- e+ nu_e FSR ISGW2;
+0.0050 D'_1- e+ nu_e FSR ISGW2;
+0.0022 D_2*- e+ nu_e FSR ISGW2;
+0.0003 D*- pi0 e+ nu_e FSR GOITY_ROBERTS;
+0.004900000 anti-D*0 pi- e+ nu_e FSR GOITY_ROBERTS; #[Reconstructed PDG2011]
+0.0010 D- pi0 e+ nu_e FSR GOITY_ROBERTS;
# Now 0 as it duplicates other decays
-0.0000 anti-D0 pi- e+ nu_e PHOTOS GOITY_ROBERTS;
-#
-0.050100000 D*- mu+ nu_mu PHOTOS HQET 0.77 1.33 0.92; #[Reconstructed PDG2011]
-0.021700000 D- mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.0054 D_1- mu+ nu_mu PHOTOS ISGW2;
-0.0020 D_0*- mu+ nu_mu PHOTOS ISGW2;
-0.0050 D'_1- mu+ nu_mu PHOTOS ISGW2;
-0.0022 D_2*- mu+ nu_mu PHOTOS ISGW2;
-0.0003 D*- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS;
-0.004900000 anti-D*0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; #[Reconstructed PDG2011]
-0.0010 D- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS;
-0.0000 anti-D0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS;
+0.0000 anti-D0 pi- e+ nu_e FSR GOITY_ROBERTS;
+#
+0.050100000 D*- mu+ nu_mu FSR HQET 0.77 1.33 0.92; #[Reconstructed PDG2011]
+0.021700000 D- mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.0054 D_1- mu+ nu_mu FSR ISGW2;
+0.0020 D_0*- mu+ nu_mu FSR ISGW2;
+0.0050 D'_1- mu+ nu_mu FSR ISGW2;
+0.0022 D_2*- mu+ nu_mu FSR ISGW2;
+0.0003 D*- pi0 mu+ nu_mu FSR GOITY_ROBERTS;
+0.004900000 anti-D*0 pi- mu+ nu_mu FSR GOITY_ROBERTS; #[Reconstructed PDG2011]
+0.0010 D- pi0 mu+ nu_mu FSR GOITY_ROBERTS;
+0.0000 anti-D0 pi- mu+ nu_mu FSR GOITY_ROBERTS;
#
# b -> c tau nu
#
0.015000000 D*- tau+ nu_tau ISGW2; #[Reconstructed PDG2011]
0.011000000 D- tau+ nu_tau ISGW2; #[Reconstructed PDG2011]
0.0013 D_1- tau+ nu_tau ISGW2;
0.0013 D_0*- tau+ nu_tau ISGW2;
0.0020 D'_1- tau+ nu_tau ISGW2;
0.0020 D_2*- tau+ nu_tau ISGW2;
#
# b -> u l nu
#
-0.000134000 pi- e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000247000 rho- e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000000 D(2S)- e+ nu_e PHOTOS ISGW2;
-0.000000 D*(2S)- e+ nu_e PHOTOS ISGW2;
+0.000134000 pi- e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.000247000 rho- e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.000000 D(2S)- e+ nu_e FSR ISGW2;
+0.000000 D*(2S)- e+ nu_e FSR ISGW2;
0.001892 Xu- e+ nu_e VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00;
#
-0.000134000 pi- mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000247000 rho- mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000000 D(2S)- mu+ nu_mu PHOTOS ISGW2;
-0.000000 D*(2S)- mu+ nu_mu PHOTOS ISGW2;
+0.000134000 pi- mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.000247000 rho- mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.000000 D(2S)- mu+ nu_mu FSR ISGW2;
+0.000000 D*(2S)- mu+ nu_mu FSR ISGW2;
0.001892 Xu- mu+ nu_mu VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00;
#
0.000060 pi- tau+ nu_tau ISGW2;
0.000083 rho- tau+ nu_tau ISGW2;
0.000090 a_1- tau+ nu_tau ISGW2;
0.000008 b_1- tau+ nu_tau ISGW2;
0.000008 a_0- tau+ nu_tau ISGW2;
0.000008 a_2- tau+ nu_tau ISGW2;
0.000000 rho(2S)- tau+ nu_tau ISGW2;
0.000000 D(2S)- tau+ nu_tau ISGW2;
0.000000 D*(2S)- tau+ nu_tau ISGW2;
#
#
# b->u hadronic
# Ref. [B1]:
# Lange Nov14,2004 (flip D_s K --opposite of D_s pi)
0.000024000 D_s+ pi- PHSP; #[Reconstructed PDG2011]
0.000030000 D_s- K+ PHSP; #[Reconstructed PDG2011]
0.000021000 D_s*+ pi- SVS; #[Reconstructed PDG2011]
0.000021900 D_s*- K+ SVS; #[Reconstructed PDG2011]
#
0.000016 rho- D_s+ SVS;
0.000035000 K*+ D_s- SVS; #[Reconstructed PDG2011]
0.000041000 D_s*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000032000 D_s*- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
#
# b -> s gamma
#
0.000043300 K*0 gamma HELAMP 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
# PR LHCb add omega gamma
0.000000440 omega gamma HELAMP 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
#0.0000135 K_10 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000065 K'_10 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000128 K'*0 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000166 K_2*0 gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000017 K''*0 gamma HELAMP 1.0 0.0 1.0 0.0;
0.0003118 Xsd gamma BTOXSGAMMA 2 ;
#
-0.000000160 K0 e+ e- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.000001030 K*0 e+ e- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.0000050 Xsd e+ e- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.000000450 K0 mu+ mu- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.000001050 K*0 mu+ mu- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.0000025 Xsd mu+ mu- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.0000001 K0 tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 K*0 tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 Xsd tau+ tau- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
+0.000000160 K0 e+ e- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.000001030 K*0 e+ e- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.0000050 Xsd e+ e- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.000000450 K0 mu+ mu- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.000001050 K*0 mu+ mu- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.0000025 Xsd mu+ mu- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.0000001 K0 tau+ tau- FSR BTOSLLBALL;
+0.0000002 K*0 tau+ tau- FSR BTOSLLBALL;
+0.0000002 Xsd tau+ tau- FSR BTOXSLL 4.8 0.2 0.0 0.41;
#
#------------------------------------------------------------------------------
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv
#
# B0 -> CP eigenstates (some exclusive b -> u) sum=0.00036
#
# PR LHCb 04/07/04 update BR
0.000005130 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000001620 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.0000010 pi0 eta PHSP;
0.000001200 pi0 eta' PHSP; #[Reconstructed PDG2011]
0.000001 pi0 a_00 PHSP;
0.000001 pi0 f_0 PHSP;
# pi0 rho0 is with the 3-body modes
0.000001 omega pi0 SVS;
0.000001 a_10 pi0 SVS;
0.000001 b_10 pi0 SVS;
0.000001 eta eta PHSP;
0.000001 eta eta' PHSP;
0.000001 eta a_00 PHSP;
0.000001 eta f_0 PHSP;
0.000001 rho0 eta SVS;
0.000000940 omega eta SVS; #[Reconstructed PDG2011]
0.000001 a_10 eta SVS;
0.000001 b_10 eta SVS;
0.000001 eta' eta' PHSP;
0.000001 eta' a_00 PHSP;
0.000001 eta' f_0 PHSP;
0.000001 rho0 eta' SVS;
0.000001000 omega eta' SVS; #[Reconstructed PDG2011]
0.000001 a_10 eta' SVS;
0.000001 b_10 eta' SVS;
0.000001 a_00 a_00 PHSP;
0.000001 a_00 f_0 PHSP;
0.000001 rho0 a_00 SVS;
0.000001 omega a_00 SVS;
0.000001 a_10 a_00 SVS;
0.000001 b_10 a_00 SVS;
0.000001 f_0 f_0 PHSP;
0.000001 rho0 f_0 SVS;
0.000001 omega f_0 SVS;
0.000001 a_10 f_0 SVS;
0.000001 b_10 f_0 SVS;
# Penguin dominated modes are sin2beta, not sin2alpha
0.000004300 phi K_S0 SVS; #[Reconstructed PDG2011]
0.000004300 phi K_L0 SVS; #[Reconstructed PDG2011]
0.000000550 eta K_S0 PHSP; #[Reconstructed PDG2011]
0.000000550 eta K_L0 PHSP; #[Reconstructed PDG2011]
0.000033000 eta' K_S0 PHSP; #[Reconstructed PDG2011]
0.000033000 eta' K_L0 PHSP; #[Reconstructed PDG2011]
0.000002500 omega K_S0 SVS; #[Reconstructed PDG2011]
0.000002500 omega K_L0 SVS; #[Reconstructed PDG2011]
#don't allow jetset to simulate the same decay but to a K0 or anti-K0
#Lange 1/30/2003
0.0 phi K0 PHSP;
0.0 phi anti-K0 PHSP;
0.0 eta K0 PHSP;
0.0 eta anti-K0 PHSP;
0.0 eta' K0 PHSP;
0.0 eta' anti-K0 PHSP;
0.0 omega K0 PHSP;
0.0 omega anti-K0 PHSP;
# phipi0 has no simple Pengiun or tree so who knows - ditto phieta/eta'?
0.000001 phi pi0 SVS;
0.000001 phi eta SVS;
0.000001 phi eta' SVS;
#
0.000015900 K*0 eta SVS; #[Reconstructed PDG2011]
0.000003800 K*0 eta' SVS; #[Reconstructed PDG2011]
0.000002000 K*0 omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000001 phi omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 omega omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 omega rho0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
#
# PR LHCb 04/07/04 update BR
#2-body modes from Jim Olsen
0.000019400 K+ pi- PHSP; #[Reconstructed PDG2011]
0.0000004 K+ K- PHSP;
0.000000240 K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.0000000 K_S0 K_L0 PHSP;
0.000000240 K_L0 K_L0 PHSP; #[Reconstructed PDG2011]
# Declare K0 pi0 not to have it through Pythia (LHCb - PR)
0.0000000 K0 pi0 PHSP;
# Split into K_s0 K_l0 (LHCb - P. Robbe)
0.000004750 K_S0 pi0 PHSP; #[Reconstructed PDG2011]
0.000004750 K_L0 pi0 PHSP; #[Reconstructed PDG2011]
#Put in with 0 BR to keep PYTHIA from generating it
0.0000000 K0 anti-K0 PHSP;
#
# 3-body John Back (jback@slac.stanford.edu) - Oct 15, 2002
# JGS intersperses modes with pi0->eta,eta'
# B0 modes
# Model generates rho(770), rho(1450) and rho(1700) resonances
# with interference (uses CKM angle alpha)
0.000024 pi- pi+ pi0 BTO3PI_CP dm alpha;
# Put in with 0 BR to keep PYTHIA from generating these (see BTO3PI_CP above)
0.000000 rho0 pi0 SVS;
0.000000 rho+ pi- SVS;
0.000000 rho- pi+ SVS;
0.000000 rho(2S)+ pi- SVS;
0.000000 rho(2S)- pi+ SVS;
0.000000 rho(3S)+ pi- SVS;
0.000000 rho(3S)- pi+ SVS;
#
# rho0 3-body modes
0.000002350 rho0 K_S0 SVS; #[Reconstructed PDG2011]
0.000002350 rho0 K_L0 SVS; #[Reconstructed PDG2011]
#
# rho- 3-body modes
0.000008400 rho- K+ SVS; #[Reconstructed PDG2011]
#
# rho(1450) 3-body modes
0.0000005 rho(2S)0 K_S0 SVS;
0.0000005 rho(2S)0 K_L0 SVS;
#
#
# f0,a0(980) 3-body modes
0.0000055 f_0 K0 PHSP;
0.000001 a_00 K0 PHSP;
0.000001 a_0- K+ PHSP;
0.000001 a_0+ pi- PHSP;
0.000003 a_0- pi+ PHSP;
#
# K*0(892) 3-body modes
0.000003600 K*0 pi0 SVS; #[Reconstructed PDG2011]
0.000003 K*0 anti-K0 SVS;
#
# K*0(1430) 3-body modes
0.000001 K_0*0 pi0 PHSP;
0.000003 K_0*0 anti-K0 PHSP;
#
# K*0(1680) 3-body modes
0.000001 K''*0 pi0 SVS;
0.000001 K''*0 K0 SVS;
#
# K*+(892) 3-body modes
0.000009400 K*+ pi- SVS; #[Reconstructed PDG2011]
0.000002 K*+ K- SVS;
#
# K*+(1430) 3-body modes
0.000033000 K_0*+ pi- PHSP; #[Reconstructed PDG2011]
0.000002 K_0*+ K- PHSP;
#
# K*0(1680) 3-body modes
0.000001 K''*+ pi- SVS;
0.000001 K''*+ K- SVS;
#
#
# Non-resonant 3-body left-overs
# Most modes are set at 1e-6
#
# pi+pi-pi0: high mass + f0(400-1200) = (1+1)e-6
#0402270.000002 pi+ pi- pi0 PHSP;
0.000017 pi+ pi- eta PHSP;
0.000001 pi+ pi- eta' PHSP;
#
# pi+ pi- K0: total-rhoK0-f0K0-piK*(892)-piK*(1430)=45-5-6-13./3-11./3
0.000000000 pi+ pi- K0 PHSP; #[Reconstructed PDG2011]
#
# K+ pi- pi0
0.000027500 K+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000020 K+ pi- eta PHSP;
0.000001 K+ pi- eta' PHSP;
#
# pi+ K- K0.
# Both B0 and B0bar can decay to these => 0.5e-6 each
0.0000005 pi+ K- K0 PHSP;
0.0000005 pi- K+ anti-K0 PHSP;
#
# K+ K- K0
# PR LHCb 09 Apr 2004 split into KS/KL
0.000000 K+ K- K0 PHSP;
0.000012350 K+ K- K_S0 PHSP; #[Reconstructed PDG2011]
0.000012350 K+ K- K_L0 PHSP; #[Reconstructed PDG2011]
#
# K+ K- pi0
0.000001 K+ K- pi0 PHSP;
0.000001 K+ K- eta PHSP;
0.000001 K+ K- eta' PHSP;
#
# pi0 K0 anti-K0
0.000002 K0 anti-K0 pi0 PHSP;
0.000001 K0 anti-K0 eta PHSP;
0.000001 K0 anti-K0 eta' PHSP;
#
# pi0 pi0 K0
0.000002 K0 pi0 pi0 PHSP;
0.000001 K0 pi0 eta PHSP;
0.000001 K0 pi0 eta' PHSP;
0.000001 K0 eta eta PHSP;
0.000001 K0 eta eta' PHSP;
0.000001 K0 eta' eta' PHSP;
#
# K0 anti-K0 K0: 8*BF(KsKsKs)~=48 (8 is a guess)
0.000048 K0 anti-K0 K0 PHSP;
#
# pi0 pi0 pi0
0.000001 pi0 pi0 pi0 PHSP;
0.000001 pi0 pi0 eta PHSP;
0.000001 pi0 pi0 eta' PHSP;
0.000001 pi0 eta eta PHSP;
0.000001 pi0 eta eta' PHSP;
#
# PR LHCb: 7 Nov 2005 Add K*0 pi0 pi0
0.0000067 K*0 pi0 pi0 PHSP;
#^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#---------------------------------------------------------------------------
#
#4-body modes from Andrei Gritsan
#--- 4-body rho-rho, rho-pi-pi, pi-pi-pi-pi --------------------------
# PR LHCb 20 Apr 2004, set long. pol.
0.000000730 rho0 rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000024200 rho+ rho- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000003 rho0 pi+ pi- PHSP;
0.000003 omega pi+ pi- PHSP;
0.000001 rho0 pi0 pi0 PHSP;
0.000001 omega pi0 pi0 PHSP;
0.0000005 rho0 pi0 eta PHSP;
0.0000002 rho0 eta eta PHSP;
0.0000002 rho0 pi0 eta' PHSP;
0.0000001 rho0 eta eta' PHSP;
0.0000005 omega pi0 eta PHSP;
0.0000002 omega eta eta PHSP;
0.0000002 omega pi0 eta' PHSP;
0.0000001 omega eta eta' PHSP;
0.000010 rho+ pi- pi0 PHSP;
0.000005 rho+ pi- eta PHSP;
0.000010 rho- pi+ pi0 PHSP;
0.000005 rho- pi+ eta PHSP;
0.000010 pi+ pi- pi+ pi- PHSP;
0.000010 pi+ pi- pi0 pi0 PHSP;
0.000005 pi+ pi- eta pi0 PHSP;
0.000002 pi+ pi- eta eta PHSP;
0.000002 pi+ pi- eta' pi0 PHSP;
0.000001 pi+ pi- eta' eta PHSP;
0.000016500 a_1+ pi- SVS; #[Reconstructed PDG2011]
0.000016500 a_1- pi+ SVS; #[Reconstructed PDG2011]
0.0000055 b_1+ pi- SVS;
0.0000055 b_1- pi+ SVS;
0.000002 rho- a_0+ SVS;
0.000010 rho+ a_0- SVS;
0.000001 f_0 pi+ pi- PHSP;
0.000001 f_0 pi0 pi0 PHSP;
0.000001 a_0- pi+ pi0 PHSP;
0.000001 a_00 pi0 pi0 PHSP;
0.000001 a_0+ pi- pi0 PHSP;
#--- 4-body rho-K*, rho-pi-K, K*-pi-pi, pi-pi-pi-K -------------------
0.000003400 rho0 K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.0000100 rho- K*+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000050600 pi- pi+ K*0 PHSP; #[Reconstructed PDG2011]
0.000010 pi- pi0 K*+ PHSP;
0.000005 pi- eta K*+ PHSP;
0.000002 pi- eta' K*+ PHSP;
0.000010 rho- K+ pi0 PHSP;
0.000005 rho- K+ eta PHSP;
0.000002 rho- K+ eta' PHSP;
0.000010 rho- K0 pi+ PHSP;
0.000010 rho+ K0 pi- PHSP;
0.000005 rho0 K0 pi0 PHSP;
0.000002 rho0 K0 eta PHSP;
0.000001 rho0 K0 eta' PHSP;
0.000010 rho0 K+ pi- PHSP;
0.000005 omega K0 pi0 PHSP;
0.000002 omega K0 eta PHSP;
0.000001 omega K0 eta' PHSP;
0.000005100 omega K+ pi- PHSP; #[Reconstructed PDG2011]
0.000010 pi+ pi0 pi- K0 PHSP;
0.000005 pi+ eta pi- K0 PHSP;
0.000010 pi0 pi0 pi0 K0 PHSP;
0.000005 pi0 pi0 eta K0 PHSP;
0.000002 pi0 eta eta K0 PHSP;
0.000002 pi0 pi0 eta' K0 PHSP;
0.000001 pi0 eta eta' K0 PHSP;
0.000010 pi+ pi- pi- K+ PHSP;
0.000010 pi0 pi0 pi- K+ PHSP;
0.000005 pi0 eta pi- K+ PHSP;
0.000002 eta eta pi- K+ PHSP;
0.000002 pi0 eta' pi- K+ PHSP;
0.000001 eta eta' pi- K+ PHSP;
0.000010 rho0 K_0*0 PHSP;
0.000020 rho- K_0*+ PHSP;
0.000010 pi- pi+ K_0*0 PHSP;
0.000010 pi0 pi0 K_0*0 PHSP;
0.000010 pi- pi0 K_0*+ PHSP;
0.000005 K*0 f_0 SVS;
0.000010 a_10 K0 SVS;
0.000016000 a_1- K+ SVS; #[Reconstructed PDG2011]
0.000010 b_10 K0 SVS;
0.0000074 b_1- K+ SVS;
0.000005 K*0 a_00 SVS;
0.000005 K*+ a_0- SVS;
#--- 4-body K*-K*, rho-K-K, K*-K-pi, phi-pi-pi, pi-pi-K-K ------------
0.000001280 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000001 K*+ K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000001 phi rho0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 K+ K- rho0 PHSP;
0.000001 K0 anti-K0 rho0 PHSP;
0.000001 K+ K- omega PHSP;
0.000001 K0 anti-K0 omega PHSP;
0.000001 K+ anti-K0 rho- PHSP;
0.000001 K- K0 rho+ PHSP;
0.0000001 phi pi- pi+ PHSP;
0.000001 K+ K- pi- pi+ PHSP;
0.000001 K+ K- pi0 pi0 PHSP;
0.0000005 K+ K- pi0 eta PHSP;
0.0000002 K+ K- eta eta PHSP;
0.0000002 K+ K- pi0 eta' PHSP;
0.0000001 K+ K- eta eta' PHSP;
0.000001 K0 anti-K0 pi- pi+ PHSP;
0.000001 K0 anti-K0 pi0 pi0 PHSP;
0.0000005 K0 anti-K0 pi0 eta PHSP;
0.0000002 K0 anti-K0 eta eta PHSP;
0.0000002 K0 anti-K0 pi0 eta' PHSP;
0.0000001 K0 anti-K0 eta eta' PHSP;
0.000001 K*+ K- pi0 PHSP;
0.000001 K*- K+ pi0 PHSP;
0.000001 K*0 anti-K0 pi0 PHSP;
0.000001 K0 anti-K*0 pi0 PHSP;
0.000001 K+ anti-K*0 pi- PHSP;
0.000001 K*+ anti-K0 pi- PHSP;
0.000003320 K- K*0 pi+ PHSP; #[Reconstructed PDG2011]
0.000001 K*- K0 pi+ PHSP;
#--- 4-body phi-K*, phi-K-pi, K-K-K*, pi-K-K-K -----------------------
0.000009800 phi K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000010 phi K+ pi- PHSP;
0.000010 phi K0 pi0 PHSP;
0.000007 phi K0 eta PHSP;
0.000017700 K- K+ K*0 PHSP; #[Reconstructed PDG2011]
0.000010 K- K*+ K0 PHSP;
0.000010 K*- K+ K0 PHSP;
0.000010 K+ K- K+ pi- PHSP;
0.000010 K+ K- K0 pi0 PHSP;
0.000005 K+ K- K0 eta PHSP;
0.000010 K0 anti-K0 K0 pi0 PHSP;
0.000005 K0 anti-K0 K0 eta PHSP;
0.000003900 phi K_0*0 PHSP; #[Reconstructed PDG2011]
0.000010 K- K+ K_0*0 PHSP;
0.000010 K- K_0*+ K0 PHSP;
0.000010 K_0*- K+ K0 PHSP;
0.000002 phi K'_10 PHSP;
0.000002 K- K+ K'_10 PHSP;
#--- 4-body phi-phi, phi-K-K, K-K-K-K --------------------------------
0.0000001 phi phi SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.0000001 phi K+ K- PHSP;
0.0000001 phi K0 anti-K0 PHSP;
0.0000001 K+ K- K+ K- PHSP;
0.0000001 K0 anti-K0 K+ K- PHSP;
0.0000001 K0 anti-K0 K0 anti-K0 PHSP;
#5-body modes from Jim Smith - 1/30/05
#--- 5-body rho-rho-pi, rho-pi-pi-pi, pi-pi-pi-pi-pi -------------------
0.000010 rho0 rho0 pi0 PHSP;
0.000005 rho0 rho0 eta PHSP;
0.000002 rho0 rho0 eta' PHSP;
0.000010 omega rho0 pi0 PHSP;
0.000005 omega rho0 eta PHSP;
0.000002 omega rho0 eta' PHSP;
0.000010 rho+ rho- pi0 PHSP;
0.000005 rho+ rho- eta PHSP;
0.000002 rho+ rho- eta' PHSP;
0.000010 rho0 rho+ pi- PHSP;
0.000010 omega rho+ pi- PHSP;
0.000002 rho0 pi+ pi- pi0 PHSP;
0.000001 rho0 pi+ pi- eta PHSP;
0.000001 rho0 pi+ pi- eta' PHSP;
0.000002 rho0 pi0 pi0 pi0 PHSP;
0.000001 rho0 pi0 eta pi0 PHSP;
0.000001 rho0 pi0 eta' pi0 PHSP;
0.000002 omega pi+ pi- pi0 PHSP;
0.000001 omega pi+ pi- eta PHSP;
0.000001 omega pi+ pi- eta' PHSP;
0.000002 omega pi0 pi0 pi0 PHSP;
0.000001 omega pi0 eta pi0 PHSP;
0.000001 omega pi0 eta' pi0 PHSP;
0.000002 rho+ pi- pi+ pi- PHSP;
0.000002 rho+ pi- pi0 pi0 PHSP;
0.000001 rho+ pi- pi0 eta PHSP;
0.000001 rho+ pi- pi0 eta' PHSP;
0.000002 rho- pi+ pi+ pi- PHSP;
0.000002 rho- pi+ pi0 pi0 PHSP;
0.000001 rho- pi+ pi0 eta PHSP;
0.000001 rho- pi+ pi0 eta' PHSP;
0.000001 pi+ pi- pi+ pi- pi0 PHSP;
0.0000005 pi+ pi- pi+ pi- eta PHSP;
0.0000002 pi+ pi- pi+ pi- eta' PHSP;
0.000001 pi+ pi- pi0 pi0 pi0 PHSP;
0.0000005 pi+ pi- pi0 pi0 eta PHSP;
0.0000002 pi+ pi- pi0 pi0 eta' PHSP;
0.0000005 pi0 pi0 pi0 pi0 pi0 PHSP;
0.0000002 pi0 pi0 pi0 pi0 eta PHSP;
0.0000001 pi0 pi0 pi0 pi0 eta' PHSP;
0.000010 a_1+ rho- PHSP;
0.000010 a_1- rho+ PHSP;
0.000010 a_10 rho0 PHSP;
0.000010 a_10 omega PHSP;
0.000010 a_1+ pi- pi0 PHSP;
0.000005 a_1+ pi- eta PHSP;
0.000002 a_1+ pi- eta' PHSP;
0.000010 a_10 pi+ pi- PHSP;
0.000010 a_10 pi0 pi0 PHSP;
0.000005 a_10 pi0 eta PHSP;
0.000002 a_10 pi0 eta' PHSP;
0.000010 a_1- pi+ pi0 PHSP;
0.000005 a_1- pi+ eta PHSP;
0.000002 a_1- pi+ eta' PHSP;
0.000010 rho+ f_0 pi- PHSP;
0.000010 rho- f_0 pi+ PHSP;
0.000010 rho0 f_0 pi0 PHSP;
0.000005 rho0 f_0 eta PHSP;
0.000002 rho0 f_0 eta' PHSP;
0.000010 omega f_0 pi0 PHSP;
0.000010 rho+ a_00 pi- PHSP;
0.000010 rho+ a_0- pi0 PHSP;
0.000005 rho+ a_0- eta PHSP;
0.000002 rho+ a_0- eta' PHSP;
0.000010 rho0 a_0+ pi- PHSP;
0.000010 rho0 a_0- pi+ PHSP;
0.000010 rho0 a_00 pi0 PHSP;
0.000005 rho0 a_00 eta PHSP;
0.000002 rho0 a_00 eta' PHSP;
0.000010 rho- a_00 pi+ PHSP;
0.000010 rho- a_0+ pi0 PHSP;
0.000005 rho- a_0+ eta PHSP;
0.000002 rho- a_0+ eta' PHSP;
0.000002 f_0 pi+ pi- pi0 PHSP;
0.000001 f_0 pi+ pi- eta PHSP;
0.000001 f_0 pi+ pi- eta' PHSP;
0.000002 f_0 pi0 pi0 pi0 PHSP;
0.000001 f_0 pi0 pi0 eta PHSP;
0.000001 f_0 pi0 pi0 eta' PHSP;
0.000001 a_00 pi+ pi- pi0 PHSP;
0.000001 a_00 pi0 pi0 pi0 PHSP;
0.000001 a_0+ pi- pi+ pi- PHSP;
0.000001 a_0+ pi- pi0 pi0 PHSP;
0.000001 a_0- pi+ pi+ pi- PHSP;
0.000001 a_0- pi+ pi0 pi0 PHSP;
#--- 5-body rho-K*pi, rho-2pi-K, K*-3pi, 4pi-K -------------------
0.000010 rho0 K*+ pi- PHSP;
0.000010 rho- K*+ pi0 PHSP;
0.000005 rho- K*+ eta PHSP;
0.000002 rho- K*+ eta' PHSP;
0.000010 rho0 K*0 pi0 PHSP;
0.000005 rho0 K*0 eta PHSP;
0.000002 rho0 K*0 eta' PHSP;
0.000010 rho- K*0 pi+ PHSP;
0.000010 rho+ K*0 pi- PHSP;
0.000010 omega K*+ pi- PHSP;
0.000010 omega K*0 pi0 PHSP;
0.000005 omega K*0 eta PHSP;
0.000002 omega K*0 eta' PHSP;
0.000010 pi+ pi- K*+ pi- PHSP;
0.000010 pi- pi0 K*+ pi0 PHSP;
0.000005 pi- pi0 K*+ eta PHSP;
0.000002 pi- pi0 K*+ eta' PHSP;
0.000010 pi+ pi- K*0 pi0 PHSP;
0.000005 pi+ pi- K*0 eta PHSP;
0.000002 pi+ pi- K*0 eta' PHSP;
0.000010 pi0 pi0 K*0 pi0 PHSP;
0.000005 pi0 pi0 K*0 eta PHSP;
0.000002 pi0 pi0 K*0 eta' PHSP;
0.000010 rho+ K+ pi- pi- PHSP;
0.000010 rho0 K+ pi- pi0 PHSP;
0.000005 rho0 K+ pi- eta PHSP;
0.000002 rho0 K+ pi- eta' PHSP;
0.000010 rho- K+ pi+ pi- PHSP;
0.000010 rho- K+ pi0 pi0 PHSP;
0.000005 rho- K+ pi0 eta PHSP;
0.000002 rho- K+ pi0 eta' PHSP;
0.000010 rho0 K0 pi+ pi- PHSP;
0.000010 rho0 K0 pi0 pi0 PHSP;
0.000005 rho0 K0 pi0 eta PHSP;
0.000002 rho0 K0 pi0 eta' PHSP;
0.000010 rho+ K0 pi- pi0 PHSP;
0.000005 rho+ K0 pi- eta PHSP;
0.000002 rho+ K0 pi- eta' PHSP;
0.000010 rho- K0 pi+ pi0 PHSP;
0.000005 rho- K0 pi+ eta PHSP;
0.000002 rho- K0 pi+ eta' PHSP;
0.000010 omega K+ pi- pi0 PHSP;
0.000005 omega K+ pi- eta PHSP;
0.000002 omega K+ pi- eta' PHSP;
0.000010 omega K0 pi+ pi- PHSP;
0.000010 omega K0 pi0 pi0 PHSP;
0.000005 omega K0 pi0 eta PHSP;
0.000002 omega K0 pi0 eta' PHSP;
0.000002 pi+ pi- pi- K+ pi0 PHSP;
0.000001 pi+ pi- pi- K+ eta PHSP;
0.000001 pi+ pi- pi- K+ eta' PHSP;
0.000002 pi0 pi0 pi- K+ pi0 PHSP;
0.000001 pi0 pi0 pi- K+ eta PHSP;
0.000001 pi0 pi0 pi- K+ eta' PHSP;
0.000002 pi+ pi- pi+ K0 pi- PHSP;
0.000002 pi+ pi- pi0 K0 pi0 PHSP;
0.000001 pi+ pi- pi0 K0 eta PHSP;
0.000001 pi+ pi- pi0 K0 eta' PHSP;
0.000002 pi0 pi0 pi0 K0 pi0 PHSP;
0.000001 pi0 pi0 pi0 K0 eta PHSP;
0.000001 pi0 pi0 pi0 K0 eta' PHSP;
0.000010 rho+ K_0*0 pi- PHSP;
0.000010 rho0 K_0*0 pi0 PHSP;
0.000005 rho0 K_0*0 eta PHSP;
0.000002 rho0 K_0*0 eta' PHSP;
0.000010 rho- K_0*0 pi+ PHSP;
0.000010 rho- K_0*+ pi0 PHSP;
0.000005 rho- K_0*+ eta PHSP;
0.000002 rho- K_0*+ eta' PHSP;
0.000010 rho0 K_0*+ pi- PHSP;
0.000010 pi+ pi- K_0*+ pi- PHSP;
0.000010 pi- pi0 K_0*+ pi0 PHSP;
0.000005 pi- pi0 K_0*+ eta PHSP;
0.000002 pi- pi0 K_0*+ eta' PHSP;
0.000010 pi+ pi- K_0*0 pi0 PHSP;
0.000005 pi+ pi- K_0*0 eta PHSP;
0.000002 pi+ pi- K_0*0 eta' PHSP;
0.000010 pi0 pi0 K_0*0 pi0 PHSP;
0.000005 pi0 pi0 K_0*0 eta PHSP;
0.000005 pi0 pi0 K_0*0 eta' PHSP;
0.000010 K*+ f_0 pi- PHSP;
0.000010 K*0 f_0 pi0 PHSP;
0.000005 K*0 f_0 eta PHSP;
0.000002 K*0 f_0 eta' PHSP;
0.000010 a_1+ K0 pi- PHSP;
0.000020 a_10 K*0 PHSP;
0.000010 a_10 K+ pi- PHSP;
0.000010 a_10 K0 pi0 PHSP;
0.000020 a_1- K*+ PHSP;
0.000010 a_1- K+ pi0 PHSP;
0.000010 a_1- K0 pi+ PHSP;
0.000005 K*+ a_00 pi- PHSP;
0.000005 K*+ a_0- pi0 PHSP;
0.000002 K*+ a_0- eta PHSP;
0.000001 K*+ a_0- eta' PHSP;
0.000005 K*0 a_0+ pi- PHSP;
0.000005 K*0 a_00 pi0 PHSP;
0.000002 K*0 a_00 eta PHSP;
0.000001 K*0 a_00 eta' PHSP;
#--- 5-body K*-K*pi,rho-K-Kpi, K*-K-2pi, phi-3pi, 3pi-K-K ------------
0.000001 K*- K*0 pi+ PHSP;
0.000001 K*+ anti-K*0 pi- PHSP;
0.000001 K*- K*+ pi0 PHSP;
0.0000005 K*- K*+ eta PHSP;
0.0000002 K*- K*+ eta' PHSP;
0.000001 K*0 anti-K*0 pi0 PHSP;
0.0000005 K*0 anti-K*0 eta PHSP;
0.0000002 K*0 anti-K*0 eta' PHSP;
0.000001 phi rho+ pi- PHSP;
0.000001 phi rho- pi+ PHSP;
0.000001 phi rho0 pi0 PHSP;
0.0000005 phi rho0 eta PHSP;
0.0000002 phi rho0 eta' PHSP;
0.000001 phi omega pi0 PHSP;
0.000001 phi f_0 pi0 PHSP;
0.000001 phi pi+ pi- pi0 PHSP;
0.0000005 phi pi+ pi- eta PHSP;
0.0000002 phi pi+ pi- eta' PHSP;
0.000001 phi pi0 pi0 pi0 PHSP;
0.0000005 phi pi0 pi0 eta PHSP;
0.0000002 phi pi0 pi0 eta' PHSP;
0.000001 K0 K- rho0 pi+ PHSP;
0.000001 K0 K- rho+ pi0 PHSP;
0.0000005 K0 K- rho+ eta PHSP;
0.0000002 K0 K- rho+ eta' PHSP;
0.000001 K0 K- omega pi+ PHSP;
0.000001 K0 K- f_0 pi+ PHSP;
0.000001 K+ K- rho+ pi- PHSP;
0.000001 K+ K- rho- pi+ PHSP;
0.000001 K+ K- rho0 pi0 PHSP;
0.0000005 K+ K- rho0 eta PHSP;
0.0000002 K+ K- rho0 eta' PHSP;
0.000001 K+ K- omega pi0 PHSP;
0.0000005 K+ K- omega eta PHSP;
0.0000002 K+ K- omega eta' PHSP;
0.000001 K+ K- f_0 pi0 PHSP;
0.000001 K0 anti-K0 rho+ pi- PHSP;
0.000001 K0 anti-K0 rho- pi+ PHSP;
0.000001 K0 anti-K0 rho0 pi0 PHSP;
0.0000005 K0 anti-K0 rho0 eta PHSP;
0.0000002 K0 anti-K0 rho0 eta' PHSP;
0.000001 K0 anti-K0 omega pi0 PHSP;
0.000001 K0 anti-K0 f_0 pi0 PHSP;
0.000001 anti-K0 K+ rho0 pi- PHSP;
0.000001 anti-K0 K+ rho- pi0 PHSP;
0.0000005 anti-K0 K+ rho- eta PHSP;
0.0000002 anti-K0 K+ rho- eta' PHSP;
0.000001 anti-K0 K+ omega pi- PHSP;
0.000001 anti-K0 K+ f_0 pi- PHSP;
0.0000002 K0 K- pi+ pi+ pi- PHSP;
0.0000002 K0 K- pi+ pi0 pi0 PHSP;
0.0000001 K0 K- pi+ pi0 eta PHSP;
0.0000001 K0 K- pi+ pi0 eta' PHSP;
0.0000002 K+ K- pi+ pi- pi0 PHSP;
0.0000001 K+ K- pi+ pi- eta PHSP;
0.0000001 K+ K- pi+ pi- eta' PHSP;
0.0000002 K+ K- pi0 pi0 pi0 PHSP;
0.0000001 K+ K- pi0 pi0 eta PHSP;
0.0000001 K+ K- pi0 pi0 eta' PHSP;
0.0000002 K0 anti-K0 pi+ pi- pi0 PHSP;
0.0000001 K0 anti-K0 pi+ pi- eta PHSP;
0.0000001 K0 anti-K0 pi+ pi- eta' PHSP;
0.0000002 K0 anti-K0 pi0 pi0 pi0 PHSP;
0.0000001 K0 anti-K0 pi0 pi0 eta PHSP;
0.0000001 K0 anti-K0 pi0 pi0 eta' PHSP;
0.0000002 anti-K0 K+ pi- pi+ pi- PHSP;
0.0000002 anti-K0 K+ pi- pi0 pi0 PHSP;
0.0000001 anti-K0 K+ pi- pi0 eta PHSP;
0.0000001 anti-K0 K+ pi- pi0 eta' PHSP;
0.000001 K*0 K- pi+ pi0 PHSP;
0.0000005 K*0 K- pi+ eta PHSP;
0.0000002 K*0 K- pi+ eta' PHSP;
0.000001 K*- K0 pi+ pi0 PHSP;
0.0000005 K*- K0 pi+ eta PHSP;
0.0000002 K*- K0 pi+ eta' PHSP;
0.000001 K*+ K- pi+ pi- PHSP;
0.000001 K*+ K- pi0 pi0 PHSP;
0.0000005 K*+ K- pi0 eta PHSP;
0.0000002 K*+ K- pi0 eta' PHSP;
0.000001 K*- K+ pi+ pi- PHSP;
0.000001 K*- K+ pi0 pi0 PHSP;
0.0000005 K*- K+ pi0 eta PHSP;
0.0000002 K*- K+ pi0 eta' PHSP;
0.000001 K*0 anti-K0 pi+ pi- PHSP;
0.000001 K*0 anti-K0 pi0 pi0 PHSP;
0.0000005 K*0 anti-K0 pi0 eta PHSP;
0.0000002 K*0 anti-K0 pi0 eta' PHSP;
0.000001 K0 anti-K*0 pi+ pi- PHSP;
0.000001 K0 anti-K*0 pi0 pi0 PHSP;
0.0000005 K0 anti-K*0 pi0 eta PHSP;
0.0000002 K0 anti-K*0 pi0 eta' PHSP;
0.000001 K+ anti-K*0 pi- pi0 PHSP;
0.0000005 K+ anti-K*0 pi- eta PHSP;
0.0000002 K+ anti-K*0 pi- eta' PHSP;
0.000001 K*+ anti-K0 pi- pi0 PHSP;
0.0000005 K*+ anti-K0 pi- eta PHSP;
0.0000002 K*+ anti-K0 pi- eta' PHSP;
#--- 5-body phi-K*-pi, phi-K-2pi, K-K-K*-pi, 2pi-K-K-K --------------------
0.000010 phi K*+ pi- PHSP;
0.000010 phi K*0 pi0 PHSP;
0.000005 phi K*0 eta PHSP;
0.000002 phi K*0 eta' PHSP;
0.000010 phi K+ rho- PHSP;
0.000010 phi K0 rho0 PHSP;
0.000010 phi K0 omega PHSP;
0.000010 phi K0 f_0 PHSP;
0.000010 phi K0 pi+ pi- PHSP;
0.000010 phi K0 pi0 pi0 PHSP;
0.000005 phi K0 pi0 eta PHSP;
0.000002 phi K0 pi0 eta' PHSP;
0.000010 phi K+ pi- pi0 PHSP;
0.000005 phi K+ pi- eta PHSP;
0.000002 phi K+ pi- eta' PHSP;
0.000010 K- K+ K*+ pi- PHSP;
0.000010 K+ K*- K+ pi- PHSP;
0.000010 K+ K*0 anti-K0 pi- PHSP;
0.000010 K+ K0 anti-K*0 pi- PHSP;
0.000010 K0 K*+ anti-K0 pi- PHSP;
0.000010 K- K+ K+ rho- PHSP;
0.000010 K- K+ K0 rho0 PHSP;
0.000010 K- K+ K0 omega PHSP;
0.000010 K- K+ K0 f_0 PHSP;
0.000010 K+ K- K+ pi- pi0 PHSP;
0.000005 K+ K- K+ pi- eta PHSP;
0.000002 K+ K- K+ pi- eta' PHSP;
0.000010 K+ K- K0 pi+ pi- PHSP;
0.000010 K+ K- K0 pi0 pi0 PHSP;
0.000005 K+ K- K0 pi0 eta PHSP;
0.000005 K+ K- K0 pi0 eta' PHSP;
0.000010 K0 anti-K0 K+ pi- pi0 PHSP;
0.000005 K0 anti-K0 K+ pi- eta PHSP;
0.000002 K0 anti-K0 K+ pi- eta' PHSP;
0.000010 K0 anti-K0 K0 pi+ pi- PHSP;
0.000010 K0 anti-K0 K0 pi0 pi0 PHSP;
0.000005 K0 anti-K0 K0 pi0 eta PHSP;
0.000002 K0 anti-K0 K0 pi0 eta' PHSP;
0.000010 phi K_0*+ pi- PHSP;
0.000010 phi K_0*0 pi0 PHSP;
0.000010 K+ K- K_0*+ pi- PHSP;
0.000010 K+ K- K_0*0 pi0 PHSP;
0.000005 K+ K- K_0*0 eta PHSP;
0.000002 K+ K- K_0*0 eta' PHSP;
0.000010 K+ K+ K_0*- pi- PHSP;
0.000010 K+ anti-K_0*0 K0 pi- PHSP;
0.000010 K+ K_0*0 anti-K0 pi- PHSP;
0.000010 K0 anti-K0 K_0*+ pi- PHSP;
0.000010 K0 anti-K0 K_0*0 pi0 PHSP;
0.000005 K0 anti-K0 K_0*0 eta PHSP;
0.000002 K0 anti-K0 K_0*0 eta' PHSP;
0.000010 K0 K0 anti-K_0*0 pi0 PHSP;
0.000005 K0 K0 anti-K_0*0 eta PHSP;
0.000002 K0 K0 anti-K_0*0 eta' PHSP;
0.000002 phi K'_1+ pi- PHSP;
0.000002 phi K'_10 pi0 PHSP;
0.000001 phi K'_10 eta PHSP;
0.000001 phi K'_10 eta' PHSP;
0.000002 K- K+ K'_1+ pi- PHSP;
0.000002 K- K+ K'_10 pi0 PHSP;
0.000001 K- K+ K'_10 eta PHSP;
0.000001 K- K+ K'_10 eta' PHSP;
0.000002 K+ K+ K'_1- pi- PHSP;
0.000002 K0 anti-K0 K'_10 pi0 PHSP;
0.000001 K0 anti-K0 K'_10 eta PHSP;
0.000001 K0 anti-K0 K'_10 eta' PHSP;
0.000002 K0 K0 anti-K'_10 pi0 PHSP;
0.000001 K0 K0 anti-K'_10 eta PHSP;
0.000001 K0 K0 anti-K'_10 eta' PHSP;
#--- 5-body phi-phi-K, phi-phi-pi, phi-3K, phi-K-K-pi, 5K, 4K-pi ------------
0.000004100 phi phi K0 PHSP; #[Reconstructed PDG2011]
0.0000001 phi phi pi0 PHSP;
0.000001 phi K+ K- K0 PHSP;
0.000001 phi K0 anti-K0 K0 PHSP;
0.0000001 phi K+ K- pi0 PHSP;
0.0000001 phi K0 anti-K0 pi0 PHSP;
0.0000001 phi anti-K0 K+ pi- PHSP;
0.0000001 phi K0 K- pi+ PHSP;
0.0000001 K+ K- K+ K- K0 PHSP;
0.0000001 K0 anti-K0 K+ K- K0 PHSP;
0.0000001 K+ K- K+ K- pi0 PHSP;
0.0000001 K+ K- K0 anti-K0 pi0 PHSP;
0.0000001 K+ K- K+ anti-K0 pi- PHSP;
0.0000001 K+ K- K0 K- pi+ PHSP;
0.0000001 K0 anti-K0 K0 anti-K0 pi0 PHSP;
0.0000001 K0 anti-K0 anti-K0 K+ pi- PHSP;
0.0000001 K0 anti-K0 K0 K- pi+ PHSP;
#--- 6-body phi-phi-K*, phi-3Kpi, phi-K-K-2pi ------------
0.000003 phi phi K*0 PHSP;
0.000001 phi K+ K- K*0 PHSP;
0.000001 phi K0 anti-K0 K*0 PHSP;
0.000001 phi K0 K+ K*- PHSP;
0.000001 phi K0 K0 anti-K*0 PHSP;
0.0000001 phi K+ K- K+ pi- PHSP;
0.0000001 phi K+ K- K0 pi0 PHSP;
0.0000001 phi K0 anti-K0 K+ pi- PHSP;
0.0000001 phi K0 anti-K0 K0 pi0 PHSP;
#--- 6-body a1a1 ------------
0.000050 a_10 a_10 PHSP;
0.000050 a_1+ a_1- PHSP;
#
# B -> cc= s
0.000435500 J/psi K_S0 SVS; #[Reconstructed PDG2011]
0.000435500 J/psi K_L0 SVS; #[Reconstructed PDG2011]
#
#
0.001330000 J/psi K*0 SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; #[Reconstructed PDG2011]
0.000017600 J/psi pi0 SVS; #[Reconstructed PDG2011]
0.000027000 J/psi rho0 SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; #[Reconstructed PDG2011]
0.00003 J/psi omega SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus;
0.000000000 J/psi K+ pi- PHSP; #[Reconstructed PDG2011]
0.0001 J/psi K0 pi0 PHSP;
#rl0.0007 J/psi K0 pi- pi+ PHSP;
#rl0.00035 J/psi K0 pi0 pi0 PHSP;
#rl0.00035 J/psi K+ pi- pi0 PHSP;
0.001300000 J/psi K_10 SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; #[Reconstructed PDG2011]
0.0001 J/psi K'_10 SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0;
0.0005 J/psi K_2*0 PHSP;
0.000094000 J/psi phi K0 PHSP; #[Reconstructed PDG2011]
#
0.000310000 psi(2S) K_S0 SVS; #[Reconstructed PDG2011]
0.000310000 psi(2S) K_L0 SVS; #[Reconstructed PDG2011]
#
#
0.000610000 psi(2S) K*0 SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; #[Reconstructed PDG2011]
0.0004 psi(2S) K+ pi- PHSP;
0.0002 psi(2S) K0 pi0 PHSP;
0.0002 psi(2S) K0 pi- pi+ PHSP;
0.0001 psi(2S) K0 pi0 pi0 PHSP;
0.0001 psi(2S) K+ pi- pi0 PHSP;
0.0004 psi(2S) K_10 PHSP;
#
0.000445000 eta_c K_S0 PHSP; #[Reconstructed PDG2011]
0.000445000 eta_c K_L0 PHSP; #[Reconstructed PDG2011]
#
#
0.000610000 K*0 eta_c SVS; #[Reconstructed PDG2011]
0.0002 eta_c K+ pi- PHSP;
0.0001 eta_c K0 pi0 PHSP;
0.0002 eta_c K0 pi- pi+ PHSP;
0.0001 eta_c K0 pi0 pi0 PHSP;
0.0001 eta_c K+ pi- pi0 PHSP;
#
0.00024 eta_c(2S) K_S0 PHSP;
0.00024 eta_c(2S) K_L0 PHSP;
#
#
0.00066 K*0T eta_c(2S) SVS;
0.00008 eta_c(2S) K+ pi- PHSP;
0.00005 eta_c(2S) K0 pi0 PHSP;
0.00008 eta_c(2S) K0 pi- pi+ PHSP;
0.00005 eta_c(2S) K0 pi0 pi0 PHSP;
0.00005 eta_c(2S) K+ pi- pi0 PHSP;
#
0.000070000 chi_c0 K_S0 PHSP; #[Reconstructed PDG2011]
0.000070000 chi_c0 K_L0 PHSP; #[Reconstructed PDG2011]
#
#
0.0003 K*0 chi_c0 SVS;
0.0002 chi_c0 K+ pi- PHSP;
0.0001 chi_c0 K0 pi0 PHSP;
0.0002 chi_c0 K0 pi- pi+ PHSP;
0.0001 chi_c0 K0 pi0 pi0 PHSP;
0.0001 chi_c0 K+ pi- pi0 PHSP;
#
0.000195000 chi_c1 K_S0 SVS; #[Reconstructed PDG2011]
0.000195000 chi_c1 K_L0 SVS; #[Reconstructed PDG2011]
#
#
0.000222000 chi_c1 K*0 SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; #[Reconstructed PDG2011]
0.0004 chi_c1 K+ pi- PHSP;
0.0002 chi_c1 K0 pi0 PHSP;
0.0004 chi_c1 K0 pi- pi+ PHSP;
0.0002 chi_c1 K0 pi0 pi0 PHSP;
0.0002 chi_c1 K+ pi- pi0 PHSP;
#
0.00005 chi_c2 K_S0 STS;
0.00005 chi_c2 K_L0 STS;
#
#
0.00003 chi_c2 K*0 PHSP;
0.0002 chi_c2 K+ pi- PHSP;
0.0001 chi_c2 K0 pi0 PHSP;
0.0002 chi_c2 K0 pi- pi+ PHSP;
0.0001 chi_c2 K0 pi0 pi0 PHSP;
0.0001 chi_c2 K+ pi- pi0 PHSP;
#
0.00024 psi(3770) K_S0 SVS;
0.00024 psi(3770) K_L0 SVS;
#
#
0.00048 psi(3770) K*0 SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus;
0.00014 psi(3770) K+ pi- PHSP;
0.00014 psi(3770) K0 pi0 PHSP;
0.00014 psi(3770) K0 pi- pi+ PHSP;
0.00007 psi(3770) K0 pi0 pi0 PHSP;
0.00007 psi(3770) K+ pi- pi0 PHSP;
0.00029 psi(3770) K_10 PHSP;
#
### ALREADY Included above 0.0000 phi K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
#
#
# b-> c (dc=)
#
0.000211000 D- D+ PHSP; #[Reconstructed PDG2011]
# See Ref [B1] for the next 3:
0.000305 D*- D+ SVS;
0.000610000 D*+ D- SVS; #[Reconstructed PDG2011]
0.000820000 D*- D*+ SVV_HELAMP 0.56 0.0 0.96 0.0 0.47 0.0; #[Reconstructed PDG2011]
#
# b -> c (sc=) --> D Ds X Sum = 10%
#
0.007200000 D- D_s+ PHSP; #[Reconstructed PDG2011]
0.008000000 D*- D_s+ SVS; #[Reconstructed PDG2011]
0.007400000 D_s*+ D- SVS; #[Reconstructed PDG2011]
0.017700000 D_s*+ D*- SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; #[Reconstructed PDG2011]
0.0006 D'_1- D_s+ SVS;
0.0012 D'_1- D_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0012 D_1- D_s+ SVS;
0.0024 D_1- D_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0042 D_2*- D_s+ STS;
0.0040 D_2*- D_s*+ PHSP;
#
0.0018 D_s+ D- pi0 PHSP;
0.0037 D_s+ anti-D0 pi- PHSP;
0.0018 D_s*+ D- pi0 PHSP;
0.0037 D_s*+ anti-D0 pi- PHSP;
0.0030 D_s+ D- pi- pi+ PHSP;
0.0022 D_s+ D- pi0 pi0 PHSP;
0.0022 D_s+ anti-D0 pi- pi0 PHSP;
0.0030 D_s*+ D- pi- pi+ PHSP;
0.0022 D_s*+ D- pi0 pi0 PHSP;
0.0022 D_s*+ anti-D0 pi- pi0 PHSP;
#
# b -> c (sc=) --> D D= K X Sum = 8%
# Update: Ref. [B1]
# October 26, 2004 Lange -per breco awg
# External W-emission amplitude
0.001700000 D- D0 K+ PHSP; #[Reconstructed PDG2011]
0.004600000 D- D*0 K+ PHSP; #[Reconstructed PDG2011]
0.003100000 D*- D0 K+ PHSP; #[Reconstructed PDG2011]
0.011800000 D*- D*0 K+ PHSP; #[Reconstructed PDG2011]
# External+internal W-emission amplitude
0.0015 D- D+ K0 PHSP;
0.0018 D*- D+ K0 PHSP;
0.0047 D- D*+ K0 PHSP;
0.007800000 D*- D*+ K0 PHSP; #[Reconstructed PDG2011]
# Internal W-emission amplitude (color suppressed modes)
0.0005 D0 anti-D0 K0 PHSP;
0.0005 D*0 anti-D0 K0 PHSP;
0.0015 D0 anti-D*0 K0 PHSP;
0.0015 D*0 anti-D*0 K0 PHSP;
##########
# K* modes
###########
0.0025 D- D0 K*+ PHSP;
0.0025 D*- D0 K*+ PHSP;
0.0025 D- D*0 K*+ PHSP;
0.0050 D*- D*0 K*+ PHSP;
#
0.0025 D- D+ K*0 PHSP;
0.0025 D*- D+ K*0 PHSP;
0.0025 D- D*+ K*0 PHSP;
0.0050 D*- D*+ K*0 PHSP;
#
0.0005 D0 anti-D0 K*0 PHSP;
0.0005 D0 anti-D*0 K*0 PHSP;
0.0005 D*0 anti-D0 K*0 PHSP;
0.0010 D*0 anti-D*0 K*0 PHSP;
#
# B -> D(*) X Exclusive modes
#
0.002760000 D*- pi+ SVS; #[Reconstructed PDG2011]
0.002680000 D- pi+ PHSP; #[Reconstructed PDG2011]
0.007110000 rho+ D- SVS; #[Reconstructed PDG2011]
#
# D* rho HELAMP parameters taken from ICHEP 98-852.
0.006800000 rho+ D*- SVV_HELAMP 0.317 0.19 0.936 0.0 0.152 1.47; #[Reconstructed PDG2011]
0.0005 D- pi+ pi0 PHSP;
0.008200000 D*- pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.000840000 anti-D0 pi- pi+ PHSP; #[Reconstructed PDG2011]
0.000620000 anti-D*0 pi- pi+ PHSP; #[Reconstructed PDG2011]
0.0005 anti-D*0 pi0 pi0 PHSP;
#
# D a1 updated Ref. [B1]
0.006000000 a_1+ D- SVS; #[Reconstructed PDG2011]
0.000000000 D- rho0 pi+ PHSP; #[Reconstructed PDG2011]
0.0011 D- rho+ pi0 PHSP;
0.002000000 D- pi- pi+ pi+ PHSP; #[Reconstructed PDG2011]
0.0010 D- pi0 pi+ pi0 PHSP;
0.0010 anti-D0 pi- pi+ pi0 PHSP;
0.0001 anti-D0 pi0 pi0 pi0 PHSP;
#
# SVV_HELAMP for D* a1 taken from factorization. Recommandation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html:
# updated Ref. [B1]
# October 26, 2004 Lange update
#
0.013000000 D*- a_1+ SVV_HELAMP 0.458 0.0 0.866 0.0 0.458 0.0; #[Reconstructed PDG2011]
#
0.005700000 D*- rho0 pi+ PHSP; #[Reconstructed PDG2011]
0.0010 D*- rho+ pi0 PHSP;
0.0000 D*- pi- pi+ pi+ PHSP;
0.0010 D*- pi0 pi+ pi0 PHSP;
0.0010 anti-D*0 pi- pi+ pi0 PHSP;
0.0001 anti-D*0 pi0 pi0 pi0 PHSP;
#
# B->D** pi and D** rho, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html
#
0.0001 D_1- pi+ SVS;
0.0001 D'_1- pi+ SVS;
0.00006 D_0*- pi+ PHSP;
0.000215 D_2*- pi+ STS;
0.0004 D_1- rho+ PHSP;
0.0013 D'_1- rho+ PHSP;
0.0022 D_2*- rho+ PHSP;
#
#
# B->DK, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html:
# update: Ref. [B1]:
#
0.000214000 D*- K+ SVS; #[Reconstructed PDG2011]
0.000200000 D- K+ PHSP; #[Reconstructed PDG2011]
0.000330000 D*- K*+ SVV_HELAMP 0.283 0.0 0.932 0.0 0.228 0.0; #[Reconstructed PDG2011]
0.000450000 K*+ D- SVS; #[Reconstructed PDG2011]
#more DK modes - October 26, 2004 -Lange
0.000036 anti-D*0 anti-K0 SVS;
0.000052 anti-D0 anti-K0 PHSP;
0.000042000 K*0 anti-D0 SVS; #[Reconstructed PDG2011]
0.00001 K*0 D0 SVS;
0.00004 anti-D*0 K*0 SVV_HELAMP 1. 0. 1. 0. 1. 0.;
0.00001 D*0 K*0 SVV_HELAMP 1. 0. 1. 0. 1. 0.;
#
#
# Color-suppressed modes. Br's are expectations from
# Phys. Rev. D57 (1998), 5363-5369, except for the eta' modes, which are set
# equal to the eta modes. SVV_HELAMP parameters are the same as in D*0 rho-,
# with phases set to 0. Recommendation http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/169.html:
# update: See Ref [B1]:
# further update October 26, 2004 Lange
#
0.000261000 anti-D0 pi0 PHSP; #[Reconstructed PDG2011]
0.000170000 anti-D*0 pi0 SVS; #[Reconstructed PDG2011]
#
0.000320000 rho0 anti-D0 SVS; #[Reconstructed PDG2011]
0.00029 anti-D*0 rho0 SVV_HELAMP 0.283 0.0 0.932 0.0 0.228 0.0;
#
0.000202000 anti-D0 eta PHSP; #[Reconstructed PDG2011]
0.000200000 anti-D*0 eta SVS; #[Reconstructed PDG2011]
#
0.000125 anti-D0 eta' PHSP;
0.000123000 anti-D*0 eta' SVS; #[Reconstructed PDG2011]
#
0.000259000 omega anti-D0 SVS; #[Reconstructed PDG2011]
0.000330000 anti-D*0 omega SVV_HELAMP 0.283 0.0 0.932 0.0 0.228 0.0; #[Reconstructed PDG2011]
#
# PR LHCb : add ppbar mode
0.0000001 p+ anti-p- PHSP;
#
#October 26, 2004 - Lange
0.0016 D_s0*+ D- PHSP;
0.0015 D*- D_s0*+ SVS;
0.003500000 D_s1+ D- SVS; #[Reconstructed PDG2011]
0.009300000 D*- D_s1+ SVV_HELAMP 0.4904 0. 0.7204 0. 0.4904 0.; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.000880000 D- K+ anti-K*0 PHSP; #[Reconstructed PDG2011]
0.001290000 D*- K+ anti-K*0 PHSP; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.002800000 D- omega pi+ PHSP; #[Reconstructed PDG2011]
0.002890000 D*- omega pi+ PHSP; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.000490000 D- K0 pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 D*- K0 pi+ PHSP; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.00043 D'_s1+ D- PHSP;
0.00083 D'_s1+ D*- PHSP;
#### Already included above 0.0023 D_s1+ D*- PHSP;
#
# Lam_c X / Sigma_c X 4.0 %
#
#0.01000 anti-cd_0 ud_0 PYTHIA 23;
#0.03000 anti-cd_1 ud_1 PYTHIA 23;
0.010520663 anti-cd_0 ud_0 PYTHIA 23; #[Reconstructed PDG2011]
0.021041421 anti-cd_1 ud_1 PYTHIA 23; #[Reconstructed PDG2011]
#
# Xi_c X 2.5%
#
#0.00600 anti-cs_0 ud_0 PYTHIA 23;
#0.01800 anti-cs_1 ud_1 PYTHIA 23;
0.002869298 anti-cs_0 ud_0 PYTHIA 23; #[Reconstructed PDG2011]
0.005738595 anti-cs_1 ud_1 PYTHIA 23; #[Reconstructed PDG2011]
#
#
0.258091538 u anti-d anti-c d PYTHIA 48; #[Reconstructed PDG2011]
0.043995612 u anti-d anti-c d PYTHIA 13; #[Reconstructed PDG2011]
0.020084989 u anti-s anti-c d PYTHIA 13; #[Reconstructed PDG2011]
0.017215691 u anti-c anti-d d PYTHIA 48; #[Reconstructed PDG2011]
0.000860770 u anti-c anti-s d PYTHIA 48; #[Reconstructed PDG2011]
#lange - try to crank up the psi production....
0.070775534 c anti-s anti-c d PYTHIA 13; #[Reconstructed PDG2011]
0.005738595 c anti-d anti-c d PYTHIA 13; #[Reconstructed PDG2011]
0.002869298 u anti-d anti-u d PYTHIA 48; #[Reconstructed PDG2011]
0.003825730 c anti-s anti-u d PYTHIA 48; #[Reconstructed PDG2011]
# JGS 11/5/02 This and similar a few lines above have been divided by two
# to solve a double-counting problem for this channel
0.001960649 u anti-u anti-d d PYTHIA 48; #[Reconstructed PDG2011]
0.000066973 d anti-d anti-d d PYTHIA 48; #[Reconstructed PDG2011]
0.000086068 s anti-s anti-d d PYTHIA 48; #[Reconstructed PDG2011]
0.002104095 u anti-u anti-s d PYTHIA 48; #[Reconstructed PDG2011]
0.001721541 d anti-d anti-s d PYTHIA 48; #[Reconstructed PDG2011]
0.001434649 s anti-s anti-s d PYTHIA 48; #[Reconstructed PDG2011]
0.004782163 anti-s d PYTHIA 32; #[Reconstructed PDG2011]
0.017600000 D*- pi+ pi+ pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.004700000 D*- pi+ pi+ pi+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000110000 D_s- pi+ K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000052000 anti-D0 K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000046000 anti-D0 K+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000006000 D0 K+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000036000 anti-D*0 K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002700000 D*0 pi+ pi+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000890000 eta_c K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000871000 J/psi K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000310000 J/psi omega K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000009500 J/psi eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000019000 J/psi pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000460000 J/psi K0 pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000540000 J/psi K0 rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000800000 J/psi K*+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000660000 J/psi K*0 pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000170000 K0 D0 anti-D0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000620000 psi(2S) K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000140000 chi_c0 K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011200 chi_c1 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000390000 chi_c1 K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000158000 chi_c1 K- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011000 eta K_0*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000009600 eta K_2*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000016000 omega K_0*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000010100 omega K_2*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004700 K0 rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002700 f_2 K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000001400 f_0 K+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000007500 K_2*0 phi PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000007600 eta K0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004600 K+ pi- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000019500 K0 pi+ pi- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000041000 K+ pi- pi0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000012400 K_2*0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000860 rho0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002660 p+ anti-p- K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000001240 p+ anti-p- K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000003140 p+ anti-Lambda0 pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004800 anti-Lambda0 Lambda0 K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002500 anti-Lambda0 Lambda0 K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011000 anti-Lambda0 Lambda0 D0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000114000 anti-D0 p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000028000 D_s- anti-Lambda0 p+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000103000 anti-D*0 p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001500000 D*- p+ anti-n0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000338000 D- p+ anti-p- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000500000 D*- p+ anti-p- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000020000 anti-Lambda_c- p+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000630000 anti-Lambda_c- p+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000120000 anti-Sigma_c*-- p+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000150000 anti-Sigma_c0 p+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000220000 anti-Sigma_c-- p+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
#
#
Decay B-
# Updated to PDG 2008
# b -> c semileptonic
#
-0.056800000 D*0 e- anti-nu_e PHOTOS HQET 0.77 1.33 0.92; #[Reconstructed PDG2011]
-0.022300000 D0 e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.0040 D_10 e- anti-nu_e PHOTOS ISGW2;
-0.0024 D_0*0 e- anti-nu_e PHOTOS ISGW2;
-0.0007 D'_10 e- anti-nu_e PHOTOS ISGW2;
-0.0018 D_2*0 e- anti-nu_e PHOTOS ISGW2;
-0.006100000 D*+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; #[Reconstructed PDG2011]
-0.0003 D*0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS;
+0.056800000 D*0 e- anti-nu_e FSR HQET 0.77 1.33 0.92; #[Reconstructed PDG2011]
+0.022300000 D0 e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.0040 D_10 e- anti-nu_e FSR ISGW2;
+0.0024 D_0*0 e- anti-nu_e FSR ISGW2;
+0.0007 D'_10 e- anti-nu_e FSR ISGW2;
+0.0018 D_2*0 e- anti-nu_e FSR ISGW2;
+0.006100000 D*+ pi- e- anti-nu_e FSR GOITY_ROBERTS; #[Reconstructed PDG2011]
+0.0003 D*0 pi0 e- anti-nu_e FSR GOITY_ROBERTS;
# covered by other decays
-0.0000 D+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS;
-0.0010 D0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS;
-#
-0.056800000 D*0 mu- anti-nu_mu PHOTOS HQET 0.77 1.33 0.92; #[Reconstructed PDG2011]
-0.022300000 D0 mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.0040 D_10 mu- anti-nu_mu PHOTOS ISGW2;
-0.0024 D_0*0 mu- anti-nu_mu PHOTOS ISGW2;
-0.0007 D'_10 mu- anti-nu_mu PHOTOS ISGW2;
-0.0018 D_2*0 mu- anti-nu_mu PHOTOS ISGW2;
-0.006100000 D*+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; #[Reconstructed PDG2011]
-0.0003 D*0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
-0.0000 D+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
-0.0010 D0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS;
+0.0000 D+ pi- e- anti-nu_e FSR GOITY_ROBERTS;
+0.0010 D0 pi0 e- anti-nu_e FSR GOITY_ROBERTS;
+#
+0.056800000 D*0 mu- anti-nu_mu FSR HQET 0.77 1.33 0.92; #[Reconstructed PDG2011]
+0.022300000 D0 mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.0040 D_10 mu- anti-nu_mu FSR ISGW2;
+0.0024 D_0*0 mu- anti-nu_mu FSR ISGW2;
+0.0007 D'_10 mu- anti-nu_mu FSR ISGW2;
+0.0018 D_2*0 mu- anti-nu_mu FSR ISGW2;
+0.006100000 D*+ pi- mu- anti-nu_mu FSR GOITY_ROBERTS; #[Reconstructed PDG2011]
+0.0003 D*0 pi0 mu- anti-nu_mu FSR GOITY_ROBERTS;
+0.0000 D+ pi- mu- anti-nu_mu FSR GOITY_ROBERTS;
+0.0010 D0 pi0 mu- anti-nu_mu FSR GOITY_ROBERTS;
#
# b -> c tau nu
#
0.020000000 D*0 tau- anti-nu_tau ISGW2; #[Reconstructed PDG2011]
0.007000000 D0 tau- anti-nu_tau ISGW2; #[Reconstructed PDG2011]
0.0013 D_10 tau- anti-nu_tau ISGW2;
0.0013 D_0*0 tau- anti-nu_tau ISGW2;
0.0020 D'_10 tau- anti-nu_tau ISGW2;
0.0020 D_2*0 tau- anti-nu_tau ISGW2;
#
# b -> u l nu
#
# NOTE: Do NOT CHANGE any BFs without using the corresponding set of
# hybrid weights (and vice versa).
-0.000077000 pi0 e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000037000 eta e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000128000 rho0 e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000115000 omega e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000270 eta' e- anti-nu_e PHOTOS ISGW2;
-0.000000 D(2S)0 e- anti-nu_e PHOTOS ISGW2;
-0.000000 D*(2S)0 e- anti-nu_e PHOTOS ISGW2;
+0.000077000 pi0 e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.000037000 eta e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.000128000 rho0 e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.000115000 omega e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.000270 eta' e- anti-nu_e FSR ISGW2;
+0.000000 D(2S)0 e- anti-nu_e FSR ISGW2;
+0.000000 D*(2S)0 e- anti-nu_e FSR ISGW2;
0.001948 Xu0 e- anti-nu_e VUB 4.8 1.29 0.22 20 0.30 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51;
#
-0.000077000 pi0 mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000037000 eta mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000128000 rho0 mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000115000 omega mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000270 eta' mu- anti-nu_mu PHOTOS ISGW2;
-0.000000 D(2S)0 mu- anti-nu_mu PHOTOS ISGW2;
-0.000000 D*(2S)0 mu- anti-nu_mu PHOTOS ISGW2;
+0.000077000 pi0 mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.000037000 eta mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.000128000 rho0 mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.000115000 omega mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.000270 eta' mu- anti-nu_mu FSR ISGW2;
+0.000000 D(2S)0 mu- anti-nu_mu FSR ISGW2;
+0.000000 D*(2S)0 mu- anti-nu_mu FSR ISGW2;
0.001948 Xu0 mu- anti-nu_mu VUB 4.8 1.29 0.22 20 0.30 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51;
#
0.000030 pi0 tau- anti-nu_tau ISGW2;
0.000012 eta tau- anti-nu_tau ISGW2;
0.000042 rho0 tau- anti-nu_tau ISGW2;
0.000042 omega tau- anti-nu_tau ISGW2;
0.000018 eta' tau- anti-nu_tau ISGW2;
0.000046 a_10 tau- anti-nu_tau ISGW2;
0.000027 b_10 tau- anti-nu_tau ISGW2;
0.000004 a_00 tau- anti-nu_tau ISGW2;
0.000002 f_0 tau- anti-nu_tau ISGW2;
0.000002 f'_0 tau- anti-nu_tau ISGW2;
0.000023 f_1 tau- anti-nu_tau ISGW2;
0.000023 f'_1 tau- anti-nu_tau ISGW2;
0.000013 h_1 tau- anti-nu_tau ISGW2;
0.000013 h'_1 tau- anti-nu_tau ISGW2;
0.000020 f_2 tau- anti-nu_tau ISGW2;
0.000020 f'_2 tau- anti-nu_tau ISGW2;
0.000000 D(2S)0 tau- anti-nu_tau ISGW2;
0.000000 D*(2S)0 tau- anti-nu_tau ISGW2;
#
#
#
# b->u hadronic
# Ref. [B1]:
#
0.000016000 D_s- pi0 PHSP; #[Reconstructed PDG2011]
0.000020 D_s*- pi0 SVS;
#
0.000028 rho0 D_s- SVS;
0.000028 D_s*- rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# b-> s gamma
#
0.000042100 K*- gamma HELAMP 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
#0.0000135 K_1- gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000065 K'_1- gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000128 K'*- gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000166 K_2*- gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000017 K''*- gamma HELAMP 1.0 0.0 1.0 0.0;
0.0003118 anti-Xsu gamma BTOXSGAMMA 2 ;
#
-0.000000550 K- e+ e- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.000001550 K*- e+ e- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.0000050 anti-Xsu e+ e- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.000000520 K- mu+ mu- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.000001160 K*- mu+ mu- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.0000025 anti-Xsu mu+ mu- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.0000001 K- tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 K*- tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 anti-Xsu tau+ tau- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
+0.000000550 K- e+ e- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.000001550 K*- e+ e- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.0000050 anti-Xsu e+ e- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.000000520 K- mu+ mu- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.000001160 K*- mu+ mu- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.0000025 anti-Xsu mu+ mu- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.0000001 K- tau+ tau- FSR BTOSLLBALL;
+0.0000002 K*- tau+ tau- FSR BTOSLLBALL;
+0.0000002 anti-Xsu tau+ tau- FSR BTOXSLL 4.8 0.2 0.0 0.41;
#
# b -> l nu
#
0.000180000 tau- anti-nu_tau SLN; #[Reconstructed PDG2011]
-0.000000 mu- anti-nu_mu PHOTOS SLN;
-0.000000 e- anti-nu_e PHOTOS SLN;
+0.000000 mu- anti-nu_mu FSR SLN;
+0.000000 e- anti-nu_e FSR SLN;
#
#------------------------------------------------------------------------------
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv
#
# Exclusive hadronic b->u
#
0.000026 pi- pi0 pi0 CB3PI-P00 alpha;
0.000000 pi- pi- pi+ CB3PI-MPP alpha;
####
0.000004070 eta pi- PHSP; #[Reconstructed PDG2011]
0.000002330 eta K- PHSP; #[Reconstructed PDG2011]
0.000019300 K*- eta SVS; #[Reconstructed PDG2011]
0.000007000 rho- eta SVS; #[Reconstructed PDG2011]
0.000002700 eta' pi- PHSP; #[Reconstructed PDG2011]
0.000070600 eta' K- PHSP; #[Reconstructed PDG2011]
0.000004900 K*- eta' SVS; #[Reconstructed PDG2011]
0.000008700 rho- eta' SVS; #[Reconstructed PDG2011]
0.000006900 omega pi- SVS; #[Reconstructed PDG2011]
0.000006700 omega K- SVS; #[Reconstructed PDG2011]
0.0000010 omega K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000015900 omega rho- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.0000000 phi pi- SVS;
0.000008300 phi K- SVS; #[Reconstructed PDG2011]
#2-body modes from Jim Olsen
# (K_S0 K- and K_L0 K- -> 1x10^-6, Jim Olsen - Mar 27, 2001)
# (pi- pi0 -> 5x10^-6 and K- pi0 -> 11x10^-6, Jim Olsen - Mar 27, 2001)
# PR LHCb 04/08/2004 Split into Ks/KL
0.000000 anti-K0 pi- PHSP;
0.000011550 K_S0 pi- PHSP; #[Reconstructed PDG2011]
0.000011550 K_L0 pi- PHSP; #[Reconstructed PDG2011]
0.000001360 K0 K- PHSP; #[Reconstructed PDG2011]
0.000005700 pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000012900 K- pi0 PHSP; #[Reconstructed PDG2011]
#
# 3-body John Back (jback@slac.stanford.edu) - Oct 15, 2002
# JGS intersperses modes with pi0->eta,eta'
# B- modes
#
# rho0 3-body modes
0.000008300 rho0 pi- SVS; #[Reconstructed PDG2011]
0.000003700 rho0 K- SVS; #[Reconstructed PDG2011]
#
# rho- 3-body modes
0.000008000 rho- anti-K0 SVS; #[Reconstructed PDG2011]
0.000010900 rho- pi0 SVS; #[Reconstructed PDG2011]
#
# rho(1450) 3-body modes
0.0000022 rho(2S)0 pi- SVS;
0.000001 rho(2S)0 K- SVS;
#
# f0,a0(980) 3-body modes
0.000001 f_0 pi- PHSP;
0.0000092 f_0 K- PHSP;
0.000001 a_0- anti-K0 PHSP;
0.000001 a_00 K- PHSP;
0.000001 a_00 pi- PHSP;
0.000001 a_0- pi0 PHSP;
0.000001600 f_2 pi- PHSP; #[Reconstructed PDG2011]
#
# K*(1430) 3-body modes
0.000045000 anti-K_0*0 pi- PHSP; #[Reconstructed PDG2011]
0.000001 K_0*0 K- PHSP;
0.000002 K_0*- pi0 PHSP;
0.000002 K_0*- K0 PHSP;
#
# K*-(892) 3-body modes
0.000006900 K*- pi0 SVS; #[Reconstructed PDG2011]
0.0000030 K*- K0 SVS;
#
#
#
# Non-resonant 3-body left-overs
# Most modes are set at 1e-6
#
# pi-pi+pi-: high mass + f0(400-1200) = (1+1)e-6
#0402270.000002 pi- pi+ pi- PHSP;
#
# K- pi+ pi-: high mass + f0(400-1200) = (5+5)e-6
0.000000000 K- pi+ pi- PHSP; #[Reconstructed PDG2011]
#
# K- K+ pi-: just non-resonant
0.000005000 K- K+ pi- PHSP; #[Reconstructed PDG2011]
#
# K- K+ K-: high mass structure near 1500 + non-res: total - phiK = 30 - 4
0.000025400 K- K+ K- PHSP; #[Reconstructed PDG2011]
#
#
# K-K-pi+: suppressed mode (1e-7)
0.0000001 K- K- pi+ PHSP;
# K+pi-pi-: suppressed mode (1e-7)
0.0000001 K+ pi- pi- PHSP;
#
#
# K- K0 pi0
0.000001 K- K0 pi0 PHSP;
0.000001 K- K0 eta PHSP;
0.000001 K- K0 eta' PHSP;
#
# pi- anti-K0 pi0
0.000001 pi- anti-K0 pi0 PHSP;
0.000001 pi- anti-K0 eta PHSP;
0.000001 pi- anti-K0 eta' PHSP;
#
# pi- pi0 pi0
#0402270.000001 pi- pi0 pi0 PHSP;
0.000001 pi- pi0 eta PHSP;
0.000001 pi- pi0 eta' PHSP;
0.000001 pi- eta eta PHSP;
0.000001 pi- eta eta' PHSP;
#
# K- pi0 pi0
0.000001 K- pi0 pi0 PHSP;
0.000001 K- pi0 eta PHSP;
0.000001 K- pi0 eta' PHSP;
0.000001 K- eta eta PHSP;
0.000001 K- eta eta' PHSP;
0.000001 K- eta' eta' PHSP;
#
# K- anti-K0 K0: 4*BF(K+KsKs) (4 is a guess)
0.000046 K- anti-K0 K0 PHSP;
#
# pi- anti-K0 K0
0.000001 pi- anti-K0 K0 PHSP;
#
#^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#---------------------------------------------------------------------------
#
#4-body modes from Andrei Gritsan
#--- 4-body rho-rho, rho-pi-pi, pi-pi-pi-pi --------------------------
# PR LHCb 22 Apr 2004 Set long. pol. for rho rho
0.000024000 rho- rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000010 rho0 pi- pi0 PHSP;
0.000005 rho0 pi- eta PHSP;
0.000002 rho0 pi- eta' PHSP;
0.000010 omega pi- pi0 PHSP;
0.000005 omega pi- eta PHSP;
0.000002 omega pi- eta' PHSP;
0.000010 rho- pi- pi+ PHSP;
# PR LHCb Add rho+ pi- pi-
0.000010 rho+ pi- pi- PHSP;
0.000010 rho- pi0 pi0 PHSP;
0.000005 rho- pi0 eta PHSP;
0.000002 rho- eta eta PHSP;
0.000002 rho- pi0 eta' PHSP;
0.000010 pi+ pi- pi- pi0 PHSP;
0.000005 pi+ pi- pi- eta PHSP;
0.000002 pi+ pi- pi- eta' PHSP;
0.000010 pi- pi0 pi0 pi0 PHSP;
0.000005 pi- eta pi0 pi0 PHSP;
0.000002 pi- eta eta pi0 PHSP;
0.000002 pi- eta' pi0 pi0 PHSP;
0.000001 pi- eta' eta pi0 PHSP;
0.000020000 a_10 pi- SVS; #[Reconstructed PDG2011]
0.000026000 a_1- pi0 SVS; #[Reconstructed PDG2011]
0.0000067 b_10 pi- SVS;
0.000010 b_1- pi0 SVS;
0.000010 rho- f_0 SVS;
0.000010 rho- a_00 SVS;
0.000002 rho0 a_0- SVS;
0.000010 f_0 pi- pi0 PHSP;
0.000001 a_00 pi- pi0 PHSP;
0.000001 a_0- pi0 pi0 PHSP;
0.000001 a_0+ pi- pi- PHSP;
#--- 4-body rho-K*, rho-pi-K, K*-pi-pi, pi-pi-pi-K -------------------
0.000009200 rho- anti-K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000010 rho0 K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000010 pi- pi0 anti-K*0 PHSP;
0.000005 pi- eta anti-K*0 PHSP;
0.000069800 pi+ pi- K*- PHSP; #[Reconstructed PDG2011]
0.000010 pi0 pi0 K*- PHSP;
0.000005 pi0 eta K*- PHSP;
0.000002 eta eta K*- PHSP;
0.000002 pi0 eta' K*- PHSP;
0.000001 eta eta' K*- PHSP;
0.000010 rho- anti-K0 pi0 PHSP;
0.000005 rho- anti-K0 eta PHSP;
0.000002 rho- anti-K0 eta' PHSP;
0.000010 rho- K- pi+ PHSP;
0.000010 rho+ K- pi- PHSP;
0.000005 rho0 anti-K0 pi- PHSP;
0.000005 rho0 K- pi0 PHSP;
0.000002 rho0 K- eta PHSP;
0.000001 rho0 K- eta' PHSP;
0.000005 omega anti-K0 pi- PHSP;
0.000005 omega K- pi0 PHSP;
0.000002 omega K- eta PHSP;
0.000001 omega K- eta' PHSP;
0.000010 pi+ pi- pi- anti-K0 PHSP;
0.000010 pi- pi0 pi0 anti-K0 PHSP;
0.000005 pi- eta pi0 anti-K0 PHSP;
0.000002 pi- eta eta anti-K0 PHSP;
0.000010 pi+ pi- pi0 K- PHSP;
0.000005 pi+ pi- eta K- PHSP;
0.000010 pi0 pi0 pi0 K- PHSP;
0.000005 pi0 pi0 eta K- PHSP;
0.000002 pi0 eta eta K- PHSP;
0.000002 pi0 pi0 eta' K- PHSP;
0.000001 pi0 eta eta' K- PHSP;
0.000010 rho- anti-K_0*0 PHSP;
0.000006 rho0 K_0*- PHSP;
0.000010 pi- pi0 anti-K_0*0 PHSP;
0.000010 pi0 pi0 K_0*- PHSP;
0.000005200 K*- f_0 SVS; #[Reconstructed PDG2011]
0.000010 a_10 K- SVS;
0.000035000 a_1- anti-K0 SVS; #[Reconstructed PDG2011]
0.0000091 b_10 K- SVS;
0.000010 b_1- anti-K0 SVS;
0.000005 K*- a_00 SVS;
0.000005 anti-K*0 a_0- SVS;
#--- 4-body K*-K*, rho-K-K, K*-K-pi, phi-pi-pi, pi-pi-K-K ------------
0.000001 K*0 K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 phi rho- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 phi pi- pi0 PHSP;
0.0000005 phi pi- eta PHSP;
0.0000002 phi pi- eta' PHSP;
0.000001 K+ K- rho- PHSP;
0.000001 K0 anti-K0 rho- PHSP;
0.000001 K0 K- rho0 PHSP;
0.000001 K0 K- omega PHSP;
0.000001 K+ K- pi- pi0 PHSP;
0.0000005 K+ K- pi- eta PHSP;
0.0000002 K+ K- pi- eta' PHSP;
0.000001 K0 anti-K0 pi- pi0 PHSP;
0.0000005 K0 anti-K0 pi- eta PHSP;
0.0000002 K0 anti-K0 pi- eta' PHSP;
0.000001 K0 K- pi+ pi- PHSP;
0.000001 K0 K- pi0 pi0 PHSP;
0.0000005 K0 K- pi0 eta PHSP;
0.0000002 K0 K- eta eta PHSP;
0.0000002 K0 K- pi0 eta' PHSP;
0.0000001 K0 K- eta eta' PHSP;
0.000001 K*+ K- pi- PHSP;
0.000001 K*- K+ pi- PHSP;
0.000001 K*0 anti-K0 pi- PHSP;
0.000001 K0 anti-K*0 pi- PHSP;
0.000001 K- K*0 pi0 PHSP;
0.0000005 K- K*0 eta PHSP;
0.0000002 K- K*0 eta' PHSP;
0.000001 K*- K0 pi0 PHSP;
0.0000005 K*- K0 eta PHSP;
0.0000002 K*- K0 eta' PHSP;
#--- 4-body phi-K*, phi-K-pi, K-K-K*, pi-K-K-K -----------------------
0.000010000 phi K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000010 phi anti-K0 pi- PHSP;
0.000010 phi K- pi0 PHSP;
0.000005 phi K- eta PHSP;
0.000002 phi K- eta' PHSP;
0.000026000 K- K+ K*- PHSP; #[Reconstructed PDG2011]
0.000010 K- K*+ K- PHSP;
0.000010 K- K*0 anti-K0 PHSP;
0.000010 K- K0 anti-K*0 PHSP;
0.000010 K0 K*- anti-K0 PHSP;
0.000010 K+ K- K- pi0 PHSP;
0.000005 K+ K- K- eta PHSP;
0.000002 K+ K- K- eta' PHSP;
0.000010 K+ K- anti-K0 pi- PHSP;
0.000010 K0 anti-K0 K- pi0 PHSP;
0.000005 K0 anti-K0 K- eta PHSP;
0.000002 K0 anti-K0 K- eta' PHSP;
0.000010 K0 anti-K0 anti-K0 pi- PHSP;
0.000007000 phi K_0*- PHSP; #[Reconstructed PDG2011]
0.000010 K- K+ K_0*- PHSP;
0.000010 K- K- K_0*+ PHSP;
0.000010 K- anti-K_0*0 K0 PHSP;
0.000010 K- K_0*0 anti-K0 PHSP;
0.000002 phi K'_1- PHSP;
0.000002 K- K+ K'_1- PHSP;
#--- 4-body phi-phi, phi-K-K, K-K-K-K --------------------------------
0.000001 phi K0 K- PHSP;
0.000001 K+ K- K- K0 PHSP;
0.000001 K0 anti-K0 K0 K- PHSP;
#
#5-body modes from Jim Smith - 1/30/05
#--- 5-body rho-rho-pi, rho-pi-pi-pi, pi-pi-pi-pi-pi -------------------
0.000010 rho0 rho0 pi- PHSP;
0.000010 rho- rho0 pi0 PHSP;
0.000005 rho- rho0 eta PHSP;
0.000002 rho- rho0 eta' PHSP;
0.000010 rho+ rho- pi- PHSP;
0.000010 omega rho0 pi- PHSP;
0.000010 omega rho- pi0 PHSP;
0.000005 omega rho- eta PHSP;
0.000002 omega rho- eta' PHSP;
0.000002 rho0 pi+ pi- pi- PHSP;
0.000002 rho0 pi- pi0 pi0 PHSP;
0.000001 rho0 pi- eta pi0 PHSP;
0.000001 rho0 pi- eta' pi0 PHSP;
0.000002 omega pi- pi0 pi0 PHSP;
0.000001 omega pi- eta pi0 PHSP;
0.000001 omega pi- eta' pi0 PHSP;
0.000002 rho+ pi- pi- pi0 PHSP;
0.000001 rho+ pi- pi- eta PHSP;
0.000001 rho+ pi- pi- eta' PHSP;
0.000002 rho- pi+ pi- pi0 PHSP;
0.000001 rho- pi+ pi- eta PHSP;
0.000001 rho- pi+ pi- eta' PHSP;
0.000002 rho- pi0 pi0 pi0 PHSP;
0.000001 rho- pi0 eta pi0 PHSP;
0.000001 rho- eta eta pi0 PHSP;
0.000001 rho- pi0 eta' pi0 PHSP;
0.000001 pi+ pi- pi- pi0 pi0 PHSP;
0.000001 pi+ pi- pi- eta pi0 PHSP;
0.000001 pi+ pi- pi- eta' pi0 PHSP;
0.000001 pi- pi0 pi0 pi0 pi0 PHSP;
0.000001 pi- eta pi0 pi0 pi0 PHSP;
0.000001 pi- eta' pi0 pi0 pi0 PHSP;
0.000010 a_1- rho0 PHSP;
0.000010 a_1- omega PHSP;
0.000010 a_1- f_0 PHSP;
0.000010 a_10 pi- pi0 PHSP;
0.000005 a_10 pi- eta PHSP;
0.000002 a_10 pi- eta' PHSP;
0.000010 a_1+ pi- pi- PHSP;
0.000010 a_1- pi+ pi- PHSP;
0.000010 a_1- pi0 pi0 PHSP;
0.000005 a_1- pi0 eta PHSP;
0.000002 a_1- pi0 eta' PHSP;
0.000010 rho- f_0 pi0 PHSP;
0.000005 rho- f_0 eta PHSP;
0.000002 rho- f_0 eta' PHSP;
0.000010 rho0 f_0 pi- PHSP;
0.000010 omega f_0 pi- PHSP;
0.000010 rho- a_00 pi0 PHSP;
0.000005 rho- a_00 eta PHSP;
0.000002 rho- a_00 eta' PHSP;
0.000010 rho+ a_0- pi- PHSP;
0.000010 rho0 a_0- pi0 PHSP;
0.000005 rho0 a_0- eta PHSP;
0.000002 rho0 a_0- eta' PHSP;
0.000002 f_0 pi+ pi- pi- PHSP;
0.000002 f_0 pi- pi0 pi0 PHSP;
0.000001 f_0 pi- pi0 eta PHSP;
0.000001 f_0 pi- pi0 eta' PHSP;
0.000001 a_00 pi- pi0 pi0 PHSP;
0.000001 a_0- pi0 pi0 pi0 PHSP;
0.000001 a_0+ pi- pi- pi0 PHSP;
#--- 5-body rho-K*pi, rho-2pi-K, K*-3pi, 4pi-K -------------------
0.000010 rho- K*- pi+ PHSP;
0.000010 rho+ K*- pi- PHSP;
0.000010 rho- anti-K*0 pi0 PHSP;
0.000005 rho- anti-K*0 eta PHSP;
0.000002 rho- anti-K*0 eta' PHSP;
0.000010 rho0 anti-K*0 pi- PHSP;
0.000010 rho0 K*- pi0 PHSP;
0.000005 rho0 K*- eta PHSP;
0.000002 rho0 K*- eta' PHSP;
0.000010 omega anti-K*0 pi- PHSP;
0.000010 omega K*- pi0 PHSP;
0.000005 omega K*- eta PHSP;
0.000002 omega K*- eta' PHSP;
0.000010 pi+ pi- anti-K*0 pi- PHSP;
0.000010 pi- pi0 anti-K*0 pi0 PHSP;
0.000005 pi- eta anti-K*0 pi0 PHSP;
0.000002 pi- eta' anti-K*0 pi0 PHSP;
0.000010 pi- pi+ K*- pi0 PHSP;
0.000005 pi- pi+ K*- eta PHSP;
0.000002 pi- pi+ K*- eta' PHSP;
0.000010 pi0 pi0 K*- pi0 PHSP;
0.000005 pi0 eta K*- pi0 PHSP;
0.000002 eta eta K*- pi0 PHSP;
0.000002 pi0 eta' K*- pi0 PHSP;
0.000001 eta eta' K*- pi0 PHSP;
0.000010 rho- anti-K0 pi+ pi- PHSP;
0.000010 rho- anti-K0 pi0 pi0 PHSP;
0.000005 rho- anti-K0 eta pi0 PHSP;
0.000002 rho- anti-K0 eta' pi0 PHSP;
0.000010 rho- K- pi+ pi0 PHSP;
0.000010 rho+ K- pi- pi0 PHSP;
0.000010 rho+ anti-K0 pi- pi- PHSP;
0.000010 rho0 anti-K0 pi- pi0 PHSP;
0.000010 rho0 K- pi0 pi0 PHSP;
0.000005 rho0 K- eta pi0 PHSP;
0.000002 rho0 K- eta' pi0 PHSP;
0.000010 omega anti-K0 pi- pi0 PHSP;
0.000010 omega K- pi0 pi0 PHSP;
0.000005 omega K- eta pi0 PHSP;
0.000002 omega K- eta' pi0 PHSP;
0.000002 pi- pi- pi+ anti-K0 pi0 PHSP;
0.000001 pi- pi- pi+ anti-K0 eta PHSP;
0.000001 pi- pi- pi+ anti-K0 eta' PHSP;
0.000002 pi- pi0 pi0 anti-K0 pi0 PHSP;
0.000001 pi- eta pi0 anti-K0 pi0 PHSP;
0.000001 pi- eta eta anti-K0 pi0 PHSP;
0.000002 pi+ pi- pi+ K- pi- PHSP;
0.000002 pi+ pi- pi0 K- pi0 PHSP;
0.000001 pi+ pi- eta K- pi0 PHSP;
0.000001 pi+ pi- eta' K- pi0 PHSP;
0.000002 pi0 pi0 pi0 K- pi0 PHSP;
0.000001 pi0 pi0 eta K- pi0 PHSP;
0.000001 pi0 eta eta K- pi0 PHSP;
0.000001 pi0 pi0 eta' K- pi0 PHSP;
0.000001 pi0 eta eta' K- pi0 PHSP;
0.000010 rho0 anti-K_0*0 pi- PHSP;
0.000010 rho- anti-K_0*0 pi0 PHSP;
0.000005 rho- anti-K_0*0 eta PHSP;
0.000002 rho- anti-K_0*0 eta' PHSP;
0.000010 rho- K_0*- pi+ PHSP;
0.000010 rho0 K_0*- pi0 PHSP;
0.000005 rho0 K_0*- eta PHSP;
0.000002 rho0 K_0*- eta' PHSP;
0.000010 pi- pi- anti-K_0*0 pi+ PHSP;
0.000010 pi- pi0 anti-K_0*0 pi0 PHSP;
0.000005 pi- pi0 anti-K_0*0 eta PHSP;
0.000002 pi- pi0 anti-K_0*0 eta' PHSP;
0.000010 pi0 pi0 K_0*- pi0 PHSP;
0.000005 pi0 pi0 K_0*- eta PHSP;
0.000002 pi0 pi0 K_0*- eta' PHSP;
0.000010 anti-K*0 f_0 pi- PHSP;
0.000010 K*- f_0 pi0 PHSP;
0.000005 K*- f_0 eta PHSP;
0.000002 K*- f_0 eta' PHSP;
0.000020 a_10 K*- PHSP;
0.000010 a_10 K- pi0 PHSP;
0.000010 a_10 anti-K0 pi- PHSP;
0.000020 a_1- anti-K*0 PHSP;
0.000010 a_1- K- pi+ PHSP;
0.000010 a_1- anti-K0 pi0 PHSP;
0.000005 K*- a_00 pi0 PHSP;
0.000005 anti-K*0 a_0- pi0 PHSP;
#--- 5-body K*-K*pi,rho-K-Kpi, K*-K-2pi, phi-3pi, 3pi-K-K ------------
0.000001 K*0 anti-K*0 pi- PHSP;
0.000001 K*0 K*- pi0 PHSP;
0.0000005 K*0 K*- eta PHSP;
0.0000002 K*0 K*- eta' PHSP;
0.000001 phi rho0 pi- PHSP;
0.000001 phi omega pi- PHSP;
0.000001 phi f_0 pi- PHSP;
0.000001 phi rho- pi0 PHSP;
0.0000005 phi rho- eta PHSP;
0.0000002 phi rho- eta' PHSP;
0.000001 phi pi+ pi- pi- PHSP;
0.000001 phi pi- pi0 pi0 PHSP;
0.0000005 phi pi- eta pi0 PHSP;
0.0000002 phi pi- eta' pi0 PHSP;
0.000001 K0 K- rho+ pi- PHSP;
0.000001 K0 K- rho- pi+ PHSP;
0.000001 K0 K- rho0 pi0 PHSP;
0.0000005 K0 K- rho0 eta PHSP;
0.0000002 K0 K- rho0 eta' PHSP;
0.000001 K0 K- omega pi0 PHSP;
0.000001 K0 K- f_0 pi0 PHSP;
0.000001 K+ K- rho0 pi- PHSP;
0.000001 K+ K- rho- pi0 PHSP;
0.0000005 K+ K- rho- eta PHSP;
0.0000002 K+ K- rho- eta' PHSP;
0.000001 K+ K- omega pi- PHSP;
0.000001 K0 anti-K0 rho0 pi- PHSP;
0.000001 K0 anti-K0 omega pi- PHSP;
0.000001 K0 anti-K0 f_0 pi- PHSP;
0.000001 K0 anti-K0 rho- pi0 PHSP;
0.0000005 K0 anti-K0 rho- eta PHSP;
0.0000002 K0 anti-K0 rho- eta' PHSP;
0.000001 anti-K0 K+ rho- pi- PHSP;
0.0000002 anti-K0 K+ pi- pi- pi0 PHSP;
0.0000001 anti-K0 K+ pi- pi- eta PHSP;
0.0000001 anti-K0 K+ pi- pi- eta' PHSP;
0.0000002 K+ K- pi+ pi- pi- PHSP;
0.0000002 K+ K- pi- pi0 pi0 PHSP;
0.0000001 K+ K- pi- eta pi0 PHSP;
0.0000001 K+ K- pi- eta' pi0 PHSP;
0.0000002 K0 anti-K0 pi+ pi- pi- PHSP;
0.0000002 K0 anti-K0 pi- pi0 pi0 PHSP;
0.0000001 K0 anti-K0 pi- eta pi0 PHSP;
0.0000001 K0 anti-K0 pi- eta' pi0 PHSP;
0.0000002 K0 K- pi+ pi- pi0 PHSP;
0.0000001 K0 K- pi+ pi- eta PHSP;
0.0000001 K0 K- pi+ pi- eta' PHSP;
0.0000002 K0 K- pi0 pi0 pi0 PHSP;
0.0000001 K0 K- pi0 eta pi0 PHSP;
0.0000001 K0 K- pi0 eta' pi0 PHSP;
0.000001 anti-K*0 K+ pi- pi- PHSP;
0.000001 K*+ anti-K0 pi- pi- PHSP;
0.000001 K*- K+ pi- pi0 PHSP;
0.000001 K*+ K- pi- pi0 PHSP;
0.000001 K*0 anti-K0 pi- pi0 PHSP;
0.000001 K0 anti-K*0 pi- pi0 PHSP;
0.000001 K- K*0 pi0 pi0 PHSP;
0.0000005 K- K*0 eta pi0 PHSP;
0.0000002 K- K*0 eta' pi0 PHSP;
0.000001 K*- K0 pi0 pi0 PHSP;
0.0000005 K*- K0 eta pi0 PHSP;
0.0000002 K*- K0 eta' pi0 PHSP;
#--- 5-body phi-K*-pi, phi-K-2pi, K-K-K*-pi, 2pi-K-K-K --------------------
0.000010 phi K*- pi0 PHSP;
0.000010 phi K- rho0 PHSP;
0.000010 phi K- omega PHSP;
0.000010 phi K- f_0 PHSP;
0.000010 phi anti-K0 rho- PHSP;
0.000010 phi anti-K0 pi- pi0 PHSP;
0.000010 phi K- pi+ pi- PHSP;
0.000010 phi K- pi0 pi0 PHSP;
0.000005 phi K- eta pi0 PHSP;
0.000002 phi K- eta' pi0 PHSP;
0.000010 K+ K- K*- pi0 PHSP;
0.000010 K- K*+ K- pi0 PHSP;
0.000010 K- K*0 anti-K0 pi0 PHSP;
0.000010 K- K0 anti-K*0 pi0 PHSP;
0.000010 K0 K*- anti-K0 pi0 PHSP;
0.000010 K+ K- K- rho0 PHSP;
0.000010 K+ K- K- omega PHSP;
0.000010 K+ K- K- f_0 PHSP;
0.000010 K- K+ anti-K0 rho- PHSP;
0.000010 K- K- K+ pi0 pi0 PHSP;
0.000005 K- K- K+ eta pi0 PHSP;
0.000002 K- K- K+ eta' pi0 PHSP;
0.000010 K+ K- anti-K0 pi- pi0 PHSP;
0.000010 K0 anti-K0 K- pi0 pi0 PHSP;
0.000005 K0 anti-K0 K- eta pi0 PHSP;
0.000002 K0 anti-K0 K- eta' pi0 PHSP;
0.000010 K0 anti-K0 anti-K0 pi- pi0 PHSP;
0.000010 phi anti-K_0*0 pi- PHSP;
0.000010 phi K_0*- pi0 PHSP;
0.000005 phi K_0*- eta PHSP;
0.000002 phi K_0*- eta' PHSP;
0.000010 K- K+ K_0*- pi0 PHSP;
0.000005 K- K+ K_0*- eta PHSP;
0.000002 K- K+ K_0*- eta' PHSP;
0.000010 K- K- K_0*+ pi0 PHSP;
0.000005 K- K- K_0*+ eta PHSP;
0.000002 K- K- K_0*+ eta' PHSP;
0.000010 K- K+ anti-K_0*0 pi- PHSP;
0.000010 K- K- K_0*0 pi+ PHSP;
0.000010 anti-K0 anti-K0 K_0*0 pi- PHSP;
0.000010 K- anti-K_0*0 K0 pi0 PHSP;
0.000005 K- anti-K_0*0 K0 eta PHSP;
0.000002 K- anti-K_0*0 K0 eta' PHSP;
0.000010 K- K_0*0 anti-K0 pi0 PHSP;
0.000005 K- K_0*0 anti-K0 eta PHSP;
0.000002 K- K_0*0 anti-K0 eta' PHSP;
0.000002 phi anti-K'_10 pi- PHSP;
0.000002 phi K'_1- pi0 PHSP;
0.000001 phi K'_1- eta PHSP;
0.000001 phi K'_1- eta' PHSP;
0.000002 K- K+ anti-K'_10 pi- PHSP;
0.000002 K- K+ K'_1- pi0 PHSP;
0.000001 K- K+ K'_1- eta PHSP;
0.000001 K- K+ K'_1- eta' PHSP;
0.000002 K- K- K'_1+ pi0 PHSP;
0.000002 K- K- anti-K'_10 pi+ PHSP;
0.000002 K0 anti-K0 anti-K'_10 pi- PHSP;
0.000002 K0 anti-K0 K'_1- pi0 PHSP;
0.000001 K0 anti-K0 K'_1- eta PHSP;
0.000001 K0 anti-K0 K'_1- eta' PHSP;
0.000002 anti-K0 anti-K0 K'_10 pi- PHSP;
0.000002 K0 K0 K'_1- pi0 PHSP;
0.000001 K0 K0 K'_1- eta PHSP;
0.000001 K0 K0 K'_1- eta' PHSP;
0.000010 K- K0 anti-K'_10 pi0 PHSP;
0.000005 K- K0 anti-K'_10 eta PHSP;
0.000002 K- K0 anti-K'_10 eta' PHSP;
0.000010 K- K'_10 anti-K0 pi0 PHSP;
0.000005 K- K'_10 anti-K0 eta PHSP;
0.000002 K- K'_10 anti-K0 eta' PHSP;
#--- 5-body phi-phi-K, phi-phi-pi, phi-3K, phi-K-K-pi, 5K, 4K-pi ------------
0.000004900 phi phi K- PHSP; #[Reconstructed PDG2011]
0.000001 phi phi pi- PHSP;
0.000001 phi K+ K- K- PHSP;
0.000001 phi K0 anti-K0 K- PHSP;
0.000001 phi K0 anti-K0 pi- PHSP;
0.000001 phi K0 K- pi0 PHSP;
0.000001 K+ K- K+ K- pi- PHSP;
0.000001 K+ K- K0 anti-K0 pi- PHSP;
0.000001 K+ K- K- K0 pi0 PHSP;
0.000001 K0 anti-K0 K0 K- pi0 PHSP;
#--- 6-body phi-phi-K*, phi-3Kpi, phi-K-K-2pi ------------
0.000003 phi phi K*- PHSP;
0.000001 phi K+ K- K*- PHSP;
0.000001 phi K0 anti-K0 K*- PHSP;
0.000001 phi K0 K- K*0 PHSP;
0.000001 phi K+ K- K- pi0 PHSP;
0.000001 phi K+ K- anti-K0 pi- PHSP;
0.000001 phi K0 anti-K0 K- pi0 PHSP;
0.000001 phi K0 anti-K0 anti-K0 pi- PHSP;
0.000001 phi K0 K- K- pi+ PHSP;
#--- 6-body a1a1 ------------
0.000050 a_1- a_10 PHSP;
#
# B -> cc= s sum = 1.92%
#
0.001014000 J/psi K- SVS; #[Reconstructed PDG2011]
0.001430000 J/psi K*- SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; #[Reconstructed PDG2011]
0.000049000 J/psi pi- SVS; #[Reconstructed PDG2011]
0.000050000 J/psi rho- SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; #[Reconstructed PDG2011]
0.0002 J/psi anti-K0 pi- PHSP;
0.0001 J/psi K- pi0 PHSP;
#rl0.0007 J/psi K- pi+ pi- PHSP;
#rl0.00035 J/psi K- pi0 pi0 PHSP;
#rl0.00035 J/psi anti-K0 pi- pi0 PHSP;
0.0001 J/psi K'_1- SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0;
0.0005 J/psi K_2*- PHSP;
0.001800000 J/psi K_1- SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; #[Reconstructed PDG2011]
0.000052000 J/psi phi K- PHSP; #[Reconstructed PDG2011]
#
0.000646000 psi(2S) K- SVS; #[Reconstructed PDG2011]
0.000620000 psi(2S) K*- SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; #[Reconstructed PDG2011]
0.0004 psi(2S) anti-K0 pi- PHSP;
0.0002 psi(2S) K- pi0 PHSP;
0.001900000 psi(2S) K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.0001 psi(2S) K- pi0 pi0 PHSP;
0.0001 psi(2S) anti-K0 pi- pi0 PHSP;
0.0004 psi(2S) K_1- PHSP;
#
0.000910000 eta_c K- PHSP; #[Reconstructed PDG2011]
0.001200000 K*- eta_c SVS; #[Reconstructed PDG2011]
0.0002 eta_c anti-K0 pi- PHSP;
0.0001 eta_c K- pi0 PHSP;
0.0002 eta_c K- pi+ pi- PHSP;
0.0001 eta_c K- pi0 pi0 PHSP;
0.0001 eta_c anti-K0 pi- pi0 PHSP;
#
0.000340000 eta_c(2S) K- PHSP; #[Reconstructed PDG2011]
0.00048 K*- eta_c(2S) SVS;
0.00008 eta_c(2S) anti-K0 pi- PHSP;
0.00005 eta_c(2S) K- pi0 PHSP;
0.00008 eta_c(2S) K- pi+ pi- PHSP;
0.00005 eta_c(2S) K- pi0 pi0 PHSP;
0.00005 eta_c(2S) anti-K0 pi- pi0 PHSP;
#
0.000133000 chi_c0 K- PHSP; #[Reconstructed PDG2011]
0.0004 K*- chi_c0 SVS;
0.0002 chi_c0 anti-K0 pi- PHSP;
0.0001 chi_c0 K- pi0 PHSP;
0.0002 chi_c0 K- pi+ pi- PHSP;
0.0001 chi_c0 K- pi0 pi0 PHSP;
0.0001 chi_c0 anti-K0 pi- pi0 PHSP;
#
0.000460000 chi_c1 K- SVS; #[Reconstructed PDG2011]
0.000300000 chi_c1 K*- SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; #[Reconstructed PDG2011]
0.0004 chi_c1 anti-K0 pi- PHSP;
0.0002 chi_c1 K- pi0 PHSP;
0.0004 chi_c1 K- pi+ pi- PHSP;
0.0002 chi_c1 K- pi0 pi0 PHSP;
0.0002 chi_c1 anti-K0 pi- pi0 PHSP;
#
0.00002 chi_c2 K- STS;
0.00002 chi_c2 K*- PHSP;
0.0002 chi_c2 anti-K0 pi- PHSP;
0.0001 chi_c2 K- pi0 PHSP;
0.0002 chi_c2 K- pi+ pi- PHSP;
0.0001 chi_c2 K- pi0 pi0 PHSP;
0.0001 chi_c2 anti-K0 pi- pi0 PHSP;
#
0.000490000 psi(3770) K- SVS; #[Reconstructed PDG2011]
0.0005 psi(3770) K*- PHSP;
0.0003 psi(3770) anti-K0 pi- PHSP;
0.0002 psi(3770) K- pi0 PHSP;
0.0002 psi(3770) K- pi+ pi- PHSP;
0.0001 psi(3770) K- pi0 pi0 PHSP;
0.0001 psi(3770) anti-K0 pi- pi0 PHSP;
0.0003 psi(3770) K_1- PHSP;
#
# b -> c (sc=) -> D Ds X Sum = 10%
#
0.010000000 D0 D_s- PHSP; #[Reconstructed PDG2011]
0.008200000 D*0 D_s- SVS; #[Reconstructed PDG2011]
0.007600000 D_s*- D0 SVS; #[Reconstructed PDG2011]
0.017100000 D_s*- D*0 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; #[Reconstructed PDG2011]
0.0006 D'_10 D_s- SVS;
0.0012 D'_10 D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0012 D_10 D_s- SVS;
0.0024 D_10 D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0042 D_2*0 D_s- STS;
0.0040 D_2*0 D_s*- PHSP;
#
#
# SVV_HELAMP from factorization, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html:
#
0.0036 D_s- D+ pi- PHSP;
0.0018 D_s- D0 pi0 PHSP;
0.0037 D_s*- D+ pi- PHSP;
0.0018 D_s*- D0 pi0 PHSP;
0.0033 D_s- D+ pi- pi0 PHSP;
0.0033 D_s- D0 pi- pi+ PHSP;
0.0008 D_s- D0 pi0 pi0 PHSP;
0.0033 D_s*- D+ pi- pi0 PHSP;
0.0033 D_s*- D0 pi- pi+ PHSP;
0.0008 D_s*- D0 pi0 pi0 PHSP;
#
#
# b -> c (sc=) -> D D= K X Sum = 8%
# update: Ref. [B1]:
#
0.0017 D0 D- anti-K0 PHSP;
0.0052 D0 D*- anti-K0 PHSP;
0.0031 D*0 D- anti-K0 PHSP;
0.007800000 D*0 D*- anti-K0 PHSP; #[Reconstructed PDG2011]
# External+internal W-emission amplitude
0.002100000 D0 anti-D0 K- PHSP; #[Reconstructed PDG2011]
0.0018 D*0 anti-D0 K- PHSP;
0.004700000 D0 anti-D*0 K- PHSP; #[Reconstructed PDG2011]
0.005300000 D*0 anti-D*0 K- PHSP; #[Reconstructed PDG2011]
# Internal W-emission amplitude (color suppressed modes)
0.0005 D- D+ K- PHSP;
0.0005 D*- D+ K- PHSP;
0.001500000 D- D*+ K- PHSP; #[Reconstructed PDG2011]
0.0015 D*- D*+ K- PHSP;
#
0.0025 D0 D- anti-K*0 PHSP;
0.0025 D*0 D- anti-K*0 PHSP;
0.0025 D0 D*- anti-K*0 PHSP;
0.0050 D*0 D*- anti-K*0 PHSP;
#
0.0025 D0 anti-D0 K*- PHSP;
0.0025 D*0 anti-D0 K*- PHSP;
0.0025 D0 anti-D*0 K*- PHSP;
0.0050 D*0 anti-D*0 K*- PHSP;
#
0.0005 D- D+ K*- PHSP;
0.0005 D*- D+ K*- PHSP;
0.0005 D- D*+ K*- PHSP;
0.0010 D*- D*+ K*- PHSP;
#
# B->D(*)D(*). See Ref [B1]:
#
0.000380000 D- D0 PHSP; #[Reconstructed PDG2011]
0.000390000 D*- D0 SVS; #[Reconstructed PDG2011]
0.000630000 D*0 D- SVS; #[Reconstructed PDG2011]
0.000810000 D*0 D*- SVV_HELAMP 0.47 0.0 0.96 0.0 0.56 0.0; #[Reconstructed PDG2011]
#
# B -> D(*) X Exclusive Modes
#
0.005190000 D*0 pi- SVS; #[Reconstructed PDG2011]
0.004840000 D0 pi- PHSP; #[Reconstructed PDG2011]
0.013400000 rho- D0 SVS; #[Reconstructed PDG2011]
# D* rho HELAMP parameters taken from ICHEP 98-852.
0.009800000 D*0 rho- SVV_HELAMP 0.228 0.95 0.932 0.0 0.283 1.13; #[Reconstructed PDG2011]
#
0.0005 D0 pi0 pi- PHSP;
0.0005 D*0 pi0 pi- PHSP;
0.001070000 D+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.001350000 D*+ pi- pi- PHSP; #[Reconstructed PDG2011]
#
# D a1 updated Ref. [B1]:
0.004000000 a_1- D0 SVS; #[Reconstructed PDG2011]
0.000200000 D0 rho0 pi- PHSP; #[Reconstructed PDG2011]
0.006800000 D0 pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
#
# SVV_HELAMP from factorization, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html:
# updated Ref. [B1]:
#
#
0.019000000 D*0 a_1- SVV_HELAMP 0.200 0.0 0.866 0.0 0.458 0.0; #[Reconstructed PDG2011]
#
0.00042 D*0 rho0 pi- PHSP;
0.010300000 D*0 pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
#
0.0020 D+ rho- pi- PHSP;
0.0020 D+ pi0 pi- pi- PHSP;
0.0020 D*+ rho- pi- PHSP;
0.015000000 D*+ pi0 pi- pi- PHSP; #[Reconstructed PDG2011]
0.0005 D*0 rho- pi0 PHSP;
0.0005 D*0 pi- pi0 pi0 PHSP;
#
# B->D** pi and D** rho, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html
# further update October 26, 2004 Lange
#
0.000876 D_10 pi- SVS;
0.0005 D'_10 pi- SVS;
0.00052 D_2*0 pi- STS;
0.0007 D_10 rho- PHSP;
0.0022 D'_10 rho- PHSP;
0.0038 D_2*0 rho- PHSP;
0.00061 D_0*0 pi- PHSP;
#
#
# B->DK, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html:
# update: Ref [B1]:
#
0.000368000 D0 K- PHSP; #[Reconstructed PDG2011]
0.000421000 D*0 K- SVS; #[Reconstructed PDG2011]
0.000530000 K*- D0 SVS; #[Reconstructed PDG2011]
0.000810000 D*0 K*- SVV_HELAMP 0.228 0.0 0.932 0.0 0.283 0.0; #[Reconstructed PDG2011]
#October 26, 2004 Lange
0.0000005 D- pi0 PHSP;
0.0000005 D*- pi0 SVS;
0.000011 D- anti-K0 PHSP;
0.000006 D*- anti-K0 SVS;
#
#October 26, 2004 - Lange
0.00075 D0 D_s0*- PHSP;
0.0009 D*0 D_s0*- SVS;
0.003100000 D_s1- D0 SVS; #[Reconstructed PDG2011]
0.012000000 D*0 D_s1- SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.00055 D0 K- anti-K0 PHSP;
0.00075 D0 K- anti-K*0 PHSP;
0.001500000 D*0 K- anti-K*0 PHSP; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.002750000 D0 omega pi- PHSP; #[Reconstructed PDG2011]
0.004500000 D*0 omega pi- PHSP; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.00045 D0 D'_s1- PHSP;
0.00094 D*0 D'_s1- PHSP;
#
# Lam_c X / Sigma_c X 4.0 %
#
#0.04000 cd_1 anti-uu_1 PYTHIA 23;
0.032587684 cd_1 anti-uu_1 PYTHIA 23; #[Reconstructed PDG2011]
#
# Xi_c X 2.5%
#
#0.02400 cs_1 anti-uu_1 PYTHIA 23;
0.008887593 cs_1 anti-uu_1 PYTHIA 23; #[Reconstructed PDG2011]
#
#
0.222451667 anti-u d c anti-u PYTHIA 48; #[Reconstructed PDG2011]
0.042462776 anti-u d c anti-u PYTHIA 13; #[Reconstructed PDG2011]
0.022218888 anti-u s c anti-u PYTHIA 13; #[Reconstructed PDG2011]
#lange - try to crank up the psi production....
0.073075460 anti-c s c anti-u PYTHIA 13; #[Reconstructed PDG2011]
0.003950000 anti-c d c anti-u PYTHIA 13; #[Reconstructed PDG2011]
0.002962500 anti-u d u anti-u PYTHIA 48; #[Reconstructed PDG2011]
0.003950000 anti-c s u anti-u PYTHIA 48; #[Reconstructed PDG2011]
# JGS 11/5/02 This and similar a few lines above have been divided by two
# to solve a double-counting problem for this channel
0.002024389 anti-u u d anti-u PYTHIA 48; #[Reconstructed PDG2011]
0.000069145 anti-d d d anti-u PYTHIA 48; #[Reconstructed PDG2011]
0.000088900 anti-s s d anti-u PYTHIA 48; #[Reconstructed PDG2011]
0.002172556 anti-u u s anti-u PYTHIA 48; #[Reconstructed PDG2011]
0.001777537 anti-d d s anti-u PYTHIA 48; #[Reconstructed PDG2011]
0.001481296 anti-s s s anti-u PYTHIA 48; #[Reconstructed PDG2011]
0.004937500 s anti-u PYTHIA 32; #[Reconstructed PDG2011]
#
####
0.000550000 D0 K- K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000750000 D0 K- K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.018000000 D*0 pi+ pi- pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.005700000 D*0 pi- pi- pi- pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002600000 D*+ pi- pi- pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000180000 D_s+ pi- K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000145000 D_s*+ pi- K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011000 D_s+ K- K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001070000 J/psi K- pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000108000 J/psi eta K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000350000 J/psi omega K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011800 J/psi anti-p- Lambda0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000025800 psi(2S) pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000020000 chi_c1 pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000018000 eta K_0*- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000009100 eta K_2*- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000024000 omega K_0*- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000021000 omega K_2*- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000010100 anti-K*0 pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000001070 f_2 K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000005600 anti-K_2*0 pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000001200 K*- anti-K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000006100 phi K_1- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000008400 phi K_2*- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000043000 K_1- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000007900 eta K- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000003500 phi K- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000007600 K- pi+ pi- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000020000 anti-K*0 pi- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000046000 anti-K0 pi- pi0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000014000 K_2*- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000980 rho- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000001620 anti-p- p+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000005900 anti-p- p+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000003600 anti-p- p+ K*- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002500 anti-p- Lambda0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000003000 anti-p- Lambda0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 anti-p- Lambda0 pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004800 anti-p- Lambda0 rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002000 anti-p- Lambda0 f_2 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000003400 anti-Lambda0 Lambda0 K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002200 anti-Lambda0 Lambda0 K*- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000280000 Lambda_c+ anti-p- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001800000 Lambda_c+ anti-p- pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002300000 Lambda_c+ anti-p- pi- pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000035000 Sigma_c0 anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000440000 Sigma_c0 anti-p- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000440000 Sigma_c0 anti-p- pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000280000 Sigma_c++ anti-p- pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay B+
# Updated to PDG 2008
# b -> c semileptonic
#
-0.056800000 anti-D*0 e+ nu_e PHOTOS HQET 0.77 1.33 0.92; #[Reconstructed PDG2011]
-0.022300000 anti-D0 e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.0040 anti-D_10 e+ nu_e PHOTOS ISGW2;
-0.0024 anti-D_0*0 e+ nu_e PHOTOS ISGW2;
-0.0007 anti-D'_10 e+ nu_e PHOTOS ISGW2;
-0.0018 anti-D_2*0 e+ nu_e PHOTOS ISGW2;
-0.006100000 D*- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; #[Reconstructed PDG2011]
-0.0003 anti-D*0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS;
+0.056800000 anti-D*0 e+ nu_e FSR HQET 0.77 1.33 0.92; #[Reconstructed PDG2011]
+0.022300000 anti-D0 e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.0040 anti-D_10 e+ nu_e FSR ISGW2;
+0.0024 anti-D_0*0 e+ nu_e FSR ISGW2;
+0.0007 anti-D'_10 e+ nu_e FSR ISGW2;
+0.0018 anti-D_2*0 e+ nu_e FSR ISGW2;
+0.006100000 D*- pi+ e+ nu_e FSR GOITY_ROBERTS; #[Reconstructed PDG2011]
+0.0003 anti-D*0 pi0 e+ nu_e FSR GOITY_ROBERTS;
# covered by other decays
-0.0000 D- pi+ e+ nu_e PHOTOS GOITY_ROBERTS;
-0.0010 anti-D0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS;
+0.0000 D- pi+ e+ nu_e FSR GOITY_ROBERTS;
+0.0010 anti-D0 pi0 e+ nu_e FSR GOITY_ROBERTS;
-0.056800000 anti-D*0 mu+ nu_mu PHOTOS HQET 0.77 1.33 0.92; #[Reconstructed PDG2011]
-0.022300000 anti-D0 mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.0040 anti-D_10 mu+ nu_mu PHOTOS ISGW2;
-0.0024 anti-D_0*0 mu+ nu_mu PHOTOS ISGW2;
-0.0007 anti-D'_10 mu+ nu_mu PHOTOS ISGW2;
-0.0018 anti-D_2*0 mu+ nu_mu PHOTOS ISGW2;
-0.006100000 D*- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; #[Reconstructed PDG2011]
-0.0003 anti-D*0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS;
-0.0000 D- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS;
-0.0010 anti-D0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS;
+0.056800000 anti-D*0 mu+ nu_mu FSR HQET 0.77 1.33 0.92; #[Reconstructed PDG2011]
+0.022300000 anti-D0 mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.0040 anti-D_10 mu+ nu_mu FSR ISGW2;
+0.0024 anti-D_0*0 mu+ nu_mu FSR ISGW2;
+0.0007 anti-D'_10 mu+ nu_mu FSR ISGW2;
+0.0018 anti-D_2*0 mu+ nu_mu FSR ISGW2;
+0.006100000 D*- pi+ mu+ nu_mu FSR GOITY_ROBERTS; #[Reconstructed PDG2011]
+0.0003 anti-D*0 pi0 mu+ nu_mu FSR GOITY_ROBERTS;
+0.0000 D- pi+ mu+ nu_mu FSR GOITY_ROBERTS;
+0.0010 anti-D0 pi0 mu+ nu_mu FSR GOITY_ROBERTS;
#
# b -> c tau nu
#
0.020000000 anti-D*0 tau+ nu_tau ISGW2; #[Reconstructed PDG2011]
0.007000000 anti-D0 tau+ nu_tau ISGW2; #[Reconstructed PDG2011]
0.0013 anti-D_10 tau+ nu_tau ISGW2;
0.0013 anti-D_0*0 tau+ nu_tau ISGW2;
0.0020 anti-D'_10 tau+ nu_tau ISGW2;
0.0020 anti-D_2*0 tau+ nu_tau ISGW2;
#
# b -> u l nu
#
#
#
-0.000077000 pi0 e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000037000 eta e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000128000 rho0 e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000115000 omega e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000270 eta' e+ nu_e PHOTOS ISGW2;
-0.000000 anti-D(2S)0 e+ nu_e PHOTOS ISGW2;
-0.000000 anti-D*(2S)0 e+ nu_e PHOTOS ISGW2;
+0.000077000 pi0 e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.000037000 eta e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.000128000 rho0 e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.000115000 omega e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.000270 eta' e+ nu_e FSR ISGW2;
+0.000000 anti-D(2S)0 e+ nu_e FSR ISGW2;
+0.000000 anti-D*(2S)0 e+ nu_e FSR ISGW2;
0.001948 Xu0 e+ nu_e VUB 4.8 1.29 0.22 20 0.30 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51;
#
-0.000077000 pi0 mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000037000 eta mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000128000 rho0 mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000115000 omega mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000270 eta' mu+ nu_mu PHOTOS ISGW2;
-0.000000 anti-D(2S)0 mu+ nu_mu PHOTOS ISGW2;
-0.000000 anti-D*(2S)0 mu+ nu_mu PHOTOS ISGW2;
+0.000077000 pi0 mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.000037000 eta mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.000128000 rho0 mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.000115000 omega mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.000270 eta' mu+ nu_mu FSR ISGW2;
+0.000000 anti-D(2S)0 mu+ nu_mu FSR ISGW2;
+0.000000 anti-D*(2S)0 mu+ nu_mu FSR ISGW2;
0.001948 Xu0 mu+ nu_mu VUB 4.8 1.29 0.22 20 0.30 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51;
#
0.000030 pi0 tau+ nu_tau ISGW2;
0.000012 eta tau+ nu_tau ISGW2;
0.000042 rho0 tau+ nu_tau ISGW2;
0.000042 omega tau+ nu_tau ISGW2;
0.000018 eta' tau+ nu_tau ISGW2;
0.000046 a_10 tau+ nu_tau ISGW2;
0.000027 b_10 tau+ nu_tau ISGW2;
0.000004 a_00 tau+ nu_tau ISGW2;
0.000002 f_0 tau+ nu_tau ISGW2;
0.000002 f'_0 tau+ nu_tau ISGW2;
0.000023 f_1 tau+ nu_tau ISGW2;
0.000023 f'_1 tau+ nu_tau ISGW2;
0.000013 h_1 tau+ nu_tau ISGW2;
0.000013 h'_1 tau+ nu_tau ISGW2;
0.000020 f_2 tau+ nu_tau ISGW2;
0.000020 f'_2 tau+ nu_tau ISGW2;
0.000000 anti-D(2S)0 tau+ nu_tau ISGW2;
0.000000 anti-D*(2S)0 tau+ nu_tau ISGW2;
#
#
#
# b->u hadronic
# Ref. [B1]:
#
0.000016000 D_s+ pi0 PHSP; #[Reconstructed PDG2011]
0.000020 D_s*+ pi0 SVS;
#
0.000028 rho0 D_s+ SVS;
0.000028 D_s*+ rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# b-> s gamma
#
0.000042100 K*+ gamma HELAMP 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
#0.0000135 K_1+ gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000065 K'_1+ gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000128 K'*+ gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000166 K_2*+ gamma HELAMP 1.0 0.0 1.0 0.0;
#0.0000017 K''*+ gamma HELAMP 1.0 0.0 1.0 0.0;
0.0003118 Xsu gamma BTOXSGAMMA 2;
#
-0.000000550 K+ e+ e- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.000001550 K*+ e+ e- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.0000050 Xsu e+ e- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.000000520 K+ mu+ mu- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.000001160 K*+ mu+ mu- PHOTOS BTOSLLBALL; #[Reconstructed PDG2011]
-0.0000025 Xsu mu+ mu- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
-0.0000001 K+ tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 K*+ tau+ tau- PHOTOS BTOSLLBALL;
-0.0000002 Xsu tau+ tau- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41;
+0.000000550 K+ e+ e- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.000001550 K*+ e+ e- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.0000050 Xsu e+ e- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.000000520 K+ mu+ mu- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.000001160 K*+ mu+ mu- FSR BTOSLLBALL; #[Reconstructed PDG2011]
+0.0000025 Xsu mu+ mu- FSR BTOXSLL 4.8 0.2 0.0 0.41;
+0.0000001 K+ tau+ tau- FSR BTOSLLBALL;
+0.0000002 K*+ tau+ tau- FSR BTOSLLBALL;
+0.0000002 Xsu tau+ tau- FSR BTOXSLL 4.8 0.2 0.0 0.41;
#
# b -> l nu
#
0.000180000 tau+ nu_tau SLN; #[Reconstructed PDG2011]
-0.000000 mu+ nu_mu PHOTOS SLN;
-0.000000 e+ nu_e PHOTOS SLN;
+0.000000 mu+ nu_mu FSR SLN;
+0.000000 e+ nu_e FSR SLN;
#
#------------------------------------------------------------------------------
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv
#
# Exclusive hadronic b->u
#
0.000026 pi+ pi0 pi0 CB3PI-P00 alpha;
0.000000 pi+ pi+ pi- CB3PI-MPP alpha;
####
0.000004070 eta pi+ PHSP; #[Reconstructed PDG2011]
0.000002330 eta K+ PHSP; #[Reconstructed PDG2011]
0.000019300 K*+ eta SVS; #[Reconstructed PDG2011]
0.000007000 rho+ eta SVS; #[Reconstructed PDG2011]
0.000002700 eta' pi+ PHSP; #[Reconstructed PDG2011]
0.000070600 eta' K+ PHSP; #[Reconstructed PDG2011]
0.000004900 K*+ eta' SVS; #[Reconstructed PDG2011]
0.000008700 rho+ eta' SVS; #[Reconstructed PDG2011]
0.000006900 omega pi+ SVS; #[Reconstructed PDG2011]
0.000006700 omega K+ SVS; #[Reconstructed PDG2011]
0.0000010 omega K*+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000015900 omega rho+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.0000000 phi pi+ SVS;
0.000008300 phi K+ SVS; #[Reconstructed PDG2011]
#2-body modes from Jim Olsen
# (K_S0 K- and K_L0 K- -> 1x10^-6, Jim Olsen - Mar 27, 2001)
# (pi- pi0 -> 5x10^-6 and K- pi0 -> 11x10^-6, Jim Olsen - Mar 27, 2001)
# PR LHCb 04/08/04 split into KS/KL
0.000000 K0 pi+ PHSP;
0.000011550 K_S0 pi+ PHSP; #[Reconstructed PDG2011]
0.000011550 K_L0 pi+ PHSP; #[Reconstructed PDG2011]
0.000001360 anti-K0 K+ PHSP; #[Reconstructed PDG2011]
0.000005700 pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.000012900 K+ pi0 PHSP; #[Reconstructed PDG2011]
#
# 3-body John Back (jback@slac.stanford.edu) - Oct 15, 2002
# JGS intersperses modes with pi0->eta,eta'
# B+ modes
#
# rho0 3-body modes
0.000008300 rho0 pi+ SVS; #[Reconstructed PDG2011]
0.000003700 rho0 K+ SVS; #[Reconstructed PDG2011]
#
# rho+ 3-body modes
0.000010900 rho+ pi0 SVS; #[Reconstructed PDG2011]
0.000008000 rho+ K0 SVS; #[Reconstructed PDG2011]
#
# rho(1450) 3-body modes
0.0000022 rho(2S)0 pi+ SVS;
0.000001 rho(2S)0 K+ SVS;
#
# f0(980) 3-body modes
0.000001 f_0 pi+ PHSP;
0.0000092 f_0 K+ PHSP;
0.000001 a_0+ K0 PHSP;
0.000001 a_00 K+ PHSP;
0.000001 a_00 pi+ PHSP;
0.000001 a_0+ pi0 PHSP;
0.000001600 f_2 pi+ PHSP; #[Reconstructed PDG2011]
#
# K*0(892) 3-body modes
0.000045000 K_0*0 pi+ PHSP; #[Reconstructed PDG2011]
0.0000010 anti-K_0*0 K+ PHSP;
0.000002 K_0*+ pi0 PHSP;
0.000002 K_0*+ anti-K0 PHSP;
#
# K*+(892) 3-body modes
0.000006900 K*+ pi0 SVS; #[Reconstructed PDG2011]
0.000003 K*+ anti-K0 SVS;
#
#
# Non-resonant 3-body left-overs
# Most modes are set at 1e-6
#
# pi+pi-pi+: high mass + f0(400-1200) = (1+1)e-6
#0402270.000002 pi+ pi- pi+ PHSP;
#
# K+ pi- pi+: high mass + f0(400-1200) = (5+5)e-6
0.000000000 K+ pi- pi+ PHSP; #[Reconstructed PDG2011]
#
# K+ K- pi+: just non-resonant
0.000005000 K+ K- pi+ PHSP; #[Reconstructed PDG2011]
#
# K+K-K+: high mass structure near 1500 + non-res: total - phiK = 30-4
0.000025400 K+ K- K+ PHSP; #[Reconstructed PDG2011]
#
#
# K+K+pi-: suppressed mode (1e-7)
0.0000001 K+ K+ pi- PHSP;
# K-pi+pi+: suppressed mode (1e-7)
0.0000001 K- pi+ pi+ PHSP;
#
#
# K+ anti-K0 pi0
0.000001 K+ anti-K0 pi0 PHSP;
0.000001 K+ anti-K0 eta PHSP;
0.000001 K+ anti-K0 eta' PHSP;
#
# pi+ K0 pi0
0.000001 pi+ K0 pi0 PHSP;
0.000001 pi+ K0 eta PHSP;
0.000001 pi+ K0 eta' PHSP;
#
# pi+ pi0 pi0
#0402270.000001 pi+ pi0 pi0 PHSP;
0.000001 pi+ pi0 eta PHSP;
0.000001 pi+ pi0 eta' PHSP;
0.000001 pi+ eta eta PHSP;
0.000001 pi+ eta eta' PHSP;
#
# K+ pi0 pi0
0.000001 K+ pi0 pi0 PHSP;
0.000001 K+ pi0 eta PHSP;
0.000001 K+ pi0 eta' PHSP;
0.000001 K+ eta eta PHSP;
0.000001 K+ eta eta' PHSP;
0.000001 K+ eta' eta' PHSP;
#
# K+ K0 anti-K0: 4*BF(K+KsKs) (4 is a guess)
0.0000460 K+ K0 anti-K0 PHSP;
#
# pi+ K0 anti-K0
0.000001 pi+ K0 anti-K0 PHSP;
#
#^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
# 2- and 3-body modes revised Feb.2005 Markus Cristinziani, SLAC
#---------------------------------------------------------------------------
#
#4-body modes from Andrei Gritsan
#--- 4-body rho-rho, rho-pi-pi, pi-pi-pi-pi --------------------------
# PR LHCb 22 Apr 2004 Set long. pol. for rho rho
0.000024000 rho+ rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000010 rho0 pi+ pi0 PHSP;
0.000005 rho0 pi+ eta PHSP;
0.000002 rho0 pi+ eta' PHSP;
0.000010 omega pi+ pi0 PHSP;
0.000005 omega pi+ eta PHSP;
0.000002 omega pi+ eta' PHSP;
0.000010 rho+ pi+ pi- PHSP;
# PR Add rho- pi+ pi+
0.000010 rho- pi+ pi+ PHSP;
0.000010 rho+ pi0 pi0 PHSP;
0.000005 rho+ pi0 eta PHSP;
0.000002 rho+ eta eta PHSP;
0.000002 rho+ pi0 eta' PHSP;
0.000010 pi- pi+ pi+ pi0 PHSP;
0.000005 pi- pi+ pi+ eta PHSP;
0.000002 pi- pi+ pi+ eta' PHSP;
0.000010 pi+ pi0 pi0 pi0 PHSP;
0.000005 pi+ eta pi0 pi0 PHSP;
0.000002 pi+ eta eta pi0 PHSP;
0.000002 pi+ eta' pi0 pi0 PHSP;
0.000001 pi+ eta' eta pi0 PHSP;
0.000020000 a_10 pi+ SVS; #[Reconstructed PDG2011]
0.000026000 a_1+ pi0 SVS; #[Reconstructed PDG2011]
0.0000067 b_10 pi+ SVS;
0.000010 b_1+ pi0 SVS;
0.000010 rho+ f_0 SVS;
0.000010 rho+ a_00 SVS;
0.000002 rho0 a_0+ SVS;
0.000010 f_0 pi+ pi0 PHSP;
0.000001 a_00 pi+ pi0 PHSP;
0.000001 a_0+ pi0 pi0 PHSP;
0.000001 a_0- pi+ pi+ PHSP;
#--- 4-body rho-K*, a1-K, rho-pi-K, K*-pi-pi, pi-pi-pi-K -------------------
0.000009200 rho+ K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000010 rho0 K*+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000010 pi+ pi0 K*0 PHSP;
0.000005 pi+ eta K*0 PHSP;
0.000069800 pi- pi+ K*+ PHSP; #[Reconstructed PDG2011]
0.000010 pi0 pi0 K*+ PHSP;
0.000005 pi0 eta K*+ PHSP;
0.000002 eta eta K*+ PHSP;
0.000002 pi0 eta' K*+ PHSP;
0.000001 eta eta' K*+ PHSP;
0.000010 rho+ K0 pi0 PHSP;
0.000005 rho+ K0 eta PHSP;
0.000002 rho+ K0 eta' PHSP;
0.000010 rho+ K+ pi- PHSP;
0.000010 rho- K+ pi+ PHSP;
0.000005 rho0 K0 pi+ PHSP;
0.000005 rho0 K+ pi0 PHSP;
0.000002 rho0 K+ eta PHSP;
0.000001 rho0 K+ eta' PHSP;
0.000005 omega K0 pi+ PHSP;
0.000005 omega K+ pi0 PHSP;
0.000002 omega K+ eta PHSP;
0.000001 omega K+ eta' PHSP;
0.000010 pi+ pi+ pi- K0 PHSP;
0.000010 pi+ pi0 pi0 K0 PHSP;
0.000005 pi+ eta pi0 K0 PHSP;
0.000002 pi+ eta eta K0 PHSP;
0.000010 pi+ pi- pi0 K+ PHSP;
0.000005 pi+ pi- eta K+ PHSP;
0.000010 pi0 pi0 pi0 K+ PHSP;
0.000005 pi0 pi0 eta K+ PHSP;
0.000002 pi0 eta eta K+ PHSP;
0.000002 pi0 pi0 eta' K+ PHSP;
0.000001 pi0 eta eta' K+ PHSP;
0.000010 rho+ K_0*0 PHSP;
0.000006 rho0 K_0*+ PHSP;
0.000010 pi+ pi0 K_0*0 PHSP;
0.000010 pi0 pi0 K_0*+ PHSP;
0.000005200 K*+ f_0 SVS; #[Reconstructed PDG2011]
0.000010 a_10 K+ SVS;
0.000035000 a_1+ K0 SVS; #[Reconstructed PDG2011]
0.0000091 b_10 K+ SVS;
0.000010 b_1+ K0 SVS;
0.000005 K*+ a_00 SVS;
0.000005 K*0 a_0+ SVS;
#--- 4-body K*-K*, rho-K-K, K*-K-pi, phi-pi-pi, pi-pi-K-K ------------
0.000001 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 phi rho+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0;
0.000001 phi pi+ pi0 PHSP;
0.0000005 phi pi+ eta PHSP;
0.0000002 phi pi+ eta' PHSP;
0.000001 K+ K- rho+ PHSP;
0.000001 K0 anti-K0 rho+ PHSP;
0.000001 anti-K0 K+ rho0 PHSP;
0.000001 anti-K0 K+ omega PHSP;
0.000001 K+ K- pi+ pi0 PHSP;
0.0000005 K+ K- pi+ eta PHSP;
0.0000002 K+ K- pi+ eta' PHSP;
0.000001 K0 anti-K0 pi+ pi0 PHSP;
0.0000005 K0 anti-K0 pi+ eta PHSP;
0.0000002 K0 anti-K0 pi+ eta' PHSP;
0.000001 anti-K0 K+ pi+ pi- PHSP;
0.000001 anti-K0 K+ pi0 pi0 PHSP;
0.0000005 anti-K0 K+ pi0 eta PHSP;
0.0000002 anti-K0 K+ eta eta PHSP;
0.0000002 anti-K0 K+ pi0 eta' PHSP;
0.0000001 anti-K0 K+ eta eta' PHSP;
0.000001 K*+ K- pi+ PHSP;
0.000001 K*- K+ pi+ PHSP;
0.000001 K*0 anti-K0 pi+ PHSP;
0.000001 K0 anti-K*0 pi+ PHSP;
0.000001 K+ anti-K*0 pi0 PHSP;
0.0000005 K+ anti-K*0 eta PHSP;
0.0000002 K+ anti-K*0 eta' PHSP;
0.000001 K*+ anti-K0 pi0 PHSP;
0.0000005 K*+ anti-K0 eta PHSP;
0.0000002 K*+ anti-K0 eta' PHSP;
#--- 4-body phi-K*, phi-K-pi, K-K-K*, pi-K-K-K -----------------------
0.000010000 phi K*+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000010 phi K0 pi+ PHSP;
0.000010 phi K+ pi0 PHSP;
0.000005 phi K+ eta PHSP;
0.000002 phi K+ eta' PHSP;
0.000026000 K- K+ K*+ PHSP; #[Reconstructed PDG2011]
0.000010 K+ K*- K+ PHSP;
0.000010 K+ K*0 anti-K0 PHSP;
0.000010 K+ K0 anti-K*0 PHSP;
0.000010 K0 K*+ anti-K0 PHSP;
0.000010 K+ K- K+ pi0 PHSP;
0.000005 K+ K- K+ eta PHSP;
0.000002 K+ K- K+ eta' PHSP;
0.000010 K+ K- K0 pi+ PHSP;
0.000010 K0 anti-K0 K+ pi0 PHSP;
0.000005 K0 anti-K0 K+ eta PHSP;
0.000002 K0 anti-K0 K+ eta' PHSP;
0.000010 K0 anti-K0 K0 pi+ PHSP;
0.000007000 phi K_0*+ PHSP; #[Reconstructed PDG2011]
0.000010 K- K+ K_0*+ PHSP;
0.000010 K+ K+ K_0*- PHSP;
0.000010 K+ anti-K_0*0 K0 PHSP;
0.000010 K+ K_0*0 anti-K0 PHSP;
0.000002 phi K'_1+ PHSP;
0.000002 K- K+ K'_1+ PHSP;
#--- 4-body phi-phi, phi-K-K, K-K-K-K --------------------------------
0.000001 phi anti-K0 K+ PHSP;
0.000001 K+ K- K+ anti-K0 PHSP;
0.000001 K0 anti-K0 anti-K0 K+ PHSP;
#
#5-body modes from Jim Smith - 1/30/05
#--- 5-body rho-rho-pi, rho-pi-pi-pi, pi-pi-pi-pi-pi -------------------
0.000010 rho0 rho0 pi+ PHSP;
0.000010 rho+ rho0 pi0 PHSP;
0.000005 rho+ rho0 eta PHSP;
0.000002 rho+ rho0 eta' PHSP;
0.000010 rho+ rho- pi+ PHSP;
0.000010 omega rho0 pi+ PHSP;
0.000010 omega rho+ pi0 PHSP;
0.000005 omega rho+ eta PHSP;
0.000002 omega rho+ eta' PHSP;
0.000002 rho0 pi+ pi- pi+ PHSP;
0.000002 rho0 pi+ pi0 pi0 PHSP;
0.000001 rho0 pi+ eta pi0 PHSP;
0.000001 rho0 pi+ eta' pi0 PHSP;
0.000002 omega pi+ pi0 pi0 PHSP;
0.000001 omega pi+ eta pi0 PHSP;
0.000001 omega pi+ eta' pi0 PHSP;
0.000002 rho- pi+ pi+ pi0 PHSP;
0.000001 rho- pi+ pi+ eta PHSP;
0.000001 rho- pi+ pi+ eta' PHSP;
0.000002 rho+ pi+ pi- pi0 PHSP;
0.000001 rho+ pi+ pi- eta PHSP;
0.000001 rho+ pi+ pi- eta' PHSP;
0.000002 rho+ pi0 pi0 pi0 PHSP;
0.000001 rho+ pi0 eta pi0 PHSP;
0.000001 rho+ eta eta pi0 PHSP;
0.000001 rho+ pi0 eta' pi0 PHSP;
0.000001 pi- pi+ pi+ pi0 pi0 PHSP;
0.000001 pi- pi+ pi+ eta pi0 PHSP;
0.000001 pi- pi+ pi+ eta' pi0 PHSP;
0.000001 pi+ pi0 pi0 pi0 pi0 PHSP;
0.000001 pi+ eta pi0 pi0 pi0 PHSP;
0.000001 pi+ eta' pi0 pi0 pi0 PHSP;
0.000010 a_1+ rho0 PHSP;
0.000010 a_1+ omega PHSP;
0.000010 a_1+ f_0 PHSP;
0.000010 a_10 pi+ pi0 PHSP;
0.000005 a_10 pi+ eta PHSP;
0.000002 a_10 pi+ eta' PHSP;
0.000010 a_1- pi+ pi+ PHSP;
0.000010 a_1+ pi+ pi- PHSP;
0.000010 a_1+ pi0 pi0 PHSP;
0.000005 a_1+ pi0 eta PHSP;
0.000002 a_1+ pi0 eta' PHSP;
0.000010 rho+ f_0 pi0 PHSP;
0.000005 rho+ f_0 eta PHSP;
0.000002 rho+ f_0 eta' PHSP;
0.000010 rho0 f_0 pi+ PHSP;
0.000010 omega f_0 pi+ PHSP;
0.000010 rho+ a_00 pi0 PHSP;
0.000005 rho+ a_00 eta PHSP;
0.000002 rho+ a_00 eta' PHSP;
0.000010 rho- a_0+ pi+ PHSP;
0.000010 rho0 a_0+ pi0 PHSP;
0.000005 rho0 a_0+ eta PHSP;
0.000002 rho0 a_0+ eta' PHSP;
0.000002 f_0 pi+ pi- pi+ PHSP;
0.000002 f_0 pi+ pi0 pi0 PHSP;
0.000001 f_0 pi+ pi0 eta PHSP;
0.000001 f_0 pi+ pi0 eta' PHSP;
0.000001 a_00 pi+ pi0 pi0 PHSP;
0.000001 a_0+ pi0 pi0 pi0 PHSP;
0.000001 a_0- pi+ pi+ pi0 PHSP;
#--- 5-body rho-K*pi, rho-2pi-K, K*-3pi, 4pi-K -------------------
0.000010 rho+ K*+ pi- PHSP;
0.000010 rho- K*+ pi+ PHSP;
0.000010 rho+ K*0 pi0 PHSP;
0.000005 rho+ K*0 eta PHSP;
0.000002 rho+ K*0 eta' PHSP;
0.000010 rho0 K*0 pi+ PHSP;
0.000010 rho0 K*+ pi0 PHSP;
0.000005 rho0 K*+ eta PHSP;
0.000002 rho0 K*+ eta' PHSP;
0.000010 omega K*0 pi+ PHSP;
0.000010 omega K*+ pi0 PHSP;
0.000005 omega K*+ eta PHSP;
0.000002 omega K*+ eta' PHSP;
0.000010 pi+ pi- K*0 pi+ PHSP;
0.000010 pi+ pi0 K*0 pi0 PHSP;
0.000005 pi+ eta K*0 pi0 PHSP;
0.000002 pi+ eta' K*0 pi0 PHSP;
0.000010 pi- pi+ K*+ pi0 PHSP;
0.000005 pi- pi+ K*+ eta PHSP;
0.000002 pi- pi+ K*+ eta' PHSP;
0.000010 pi0 pi0 K*+ pi0 PHSP;
0.000005 pi0 eta K*+ pi0 PHSP;
0.000002 eta eta K*+ pi0 PHSP;
0.000002 pi0 eta' K*+ pi0 PHSP;
0.000001 eta eta' K*+ pi0 PHSP;
0.000010 rho+ K0 pi+ pi- PHSP;
0.000010 rho+ K0 pi0 pi0 PHSP;
0.000005 rho+ K0 eta pi0 PHSP;
0.000002 rho+ K0 eta' pi0 PHSP;
0.000010 rho+ K+ pi- pi0 PHSP;
0.000010 rho- K+ pi+ pi0 PHSP;
0.000010 rho- K0 pi+ pi+ PHSP;
0.000010 rho0 K0 pi+ pi0 PHSP;
0.000010 rho0 K+ pi0 pi0 PHSP;
0.000005 rho0 K+ eta pi0 PHSP;
0.000002 rho0 K+ eta' pi0 PHSP;
0.000010 omega K0 pi+ pi0 PHSP;
0.000010 omega K+ pi0 pi0 PHSP;
0.000005 omega K+ eta pi0 PHSP;
0.000002 omega K+ eta' pi0 PHSP;
0.000002 pi+ pi+ pi- K0 pi0 PHSP;
0.000001 pi+ pi+ pi- K0 eta PHSP;
0.000001 pi+ pi+ pi- K0 eta' PHSP;
0.000002 pi+ pi0 pi0 K0 pi0 PHSP;
0.000001 pi+ eta pi0 K0 pi0 PHSP;
0.000001 pi+ eta eta K0 pi0 PHSP;
0.000002 pi+ pi- pi+ K+ pi- PHSP;
0.000002 pi+ pi- pi0 K+ pi0 PHSP;
0.000001 pi+ pi- eta K+ pi0 PHSP;
0.000001 pi+ pi- eta' K+ pi0 PHSP;
0.000002 pi0 pi0 pi0 K+ pi0 PHSP;
0.000001 pi0 pi0 eta K+ pi0 PHSP;
0.000001 pi0 eta eta K+ pi0 PHSP;
0.000001 pi0 pi0 eta' K+ pi0 PHSP;
0.000001 pi0 eta eta' K+ pi0 PHSP;
0.000010 rho0 K_0*0 pi+ PHSP;
0.000010 rho+ K_0*0 pi0 PHSP;
0.000005 rho+ K_0*0 eta PHSP;
0.000002 rho+ K_0*0 eta' PHSP;
0.000010 rho+ K_0*+ pi- PHSP;
0.000010 rho0 K_0*+ pi0 PHSP;
0.000005 rho0 K_0*+ eta PHSP;
0.000002 rho0 K_0*+ eta' PHSP;
0.000010 pi+ pi+ K_0*0 pi- PHSP;
0.000010 pi+ pi0 K_0*0 pi0 PHSP;
0.000005 pi+ pi0 K_0*0 eta PHSP;
0.000002 pi+ pi0 K_0*0 eta' PHSP;
0.000010 pi0 pi0 K_0*+ pi0 PHSP;
0.000005 pi0 pi0 K_0*+ eta PHSP;
0.000002 pi0 pi0 K_0*+ eta' PHSP;
0.000010 K*0 f_0 pi+ PHSP;
0.000010 K*+ f_0 pi0 PHSP;
0.000005 K*+ f_0 eta PHSP;
0.000002 K*+ f_0 eta' PHSP;
0.000020 a_10 K*+ PHSP;
0.000010 a_10 K+ pi0 PHSP;
0.000010 a_10 K0 pi+ PHSP;
0.000020 a_1+ K*0 PHSP;
0.000010 a_1+ K+ pi- PHSP;
0.000010 a_1+ K0 pi0 PHSP;
0.000005 K*+ a_00 pi0 PHSP;
0.000005 K*0 a_0+ pi0 PHSP;
#--- 5-body K*-K*pi,rho-K-Kpi, K*-K-2pi, phi-3pi, 3pi-K-K ------------
0.000001 K*0 anti-K*0 pi+ PHSP;
0.000001 anti-K*0 K*+ pi0 PHSP;
0.0000005 anti-K*0 K*+ eta PHSP;
0.0000002 anti-K*0 K*+ eta' PHSP;
0.000001 phi rho0 pi+ PHSP;
0.000001 phi omega pi+ PHSP;
0.000001 phi f_0 pi+ PHSP;
0.000001 phi rho+ pi0 PHSP;
0.0000005 phi rho+ eta PHSP;
0.0000002 phi rho+ eta' PHSP;
0.000001 phi pi+ pi- pi+ PHSP;
0.000001 phi pi+ pi0 pi0 PHSP;
0.0000005 phi pi+ eta pi0 PHSP;
0.0000002 phi pi+ eta' pi0 PHSP;
0.000001 anti-K0 K+ rho+ pi- PHSP;
0.000001 anti-K0 K+ rho- pi+ PHSP;
0.000001 anti-K0 K+ rho0 pi0 PHSP;
0.0000005 anti-K0 K+ rho0 eta PHSP;
0.0000002 anti-K0 K+ rho0 eta' PHSP;
0.000001 anti-K0 K+ omega pi0 PHSP;
0.000001 anti-K0 K+ f_0 pi0 PHSP;
0.000001 K+ K- rho0 pi+ PHSP;
0.000001 K+ K- rho+ pi0 PHSP;
0.0000005 K+ K- rho+ eta PHSP;
0.0000002 K+ K- rho+ eta' PHSP;
0.000001 K+ K- omega pi+ PHSP;
0.000001 K0 anti-K0 rho0 pi+ PHSP;
0.000001 K0 anti-K0 omega pi+ PHSP;
0.000001 K0 anti-K0 f_0 pi+ PHSP;
0.000001 K0 anti-K0 rho+ pi0 PHSP;
0.0000005 K0 anti-K0 rho+ eta PHSP;
0.0000002 K0 anti-K0 rho+ eta' PHSP;
0.000001 K0 K- rho+ pi+ PHSP;
0.0000002 K0 K- pi+ pi+ pi0 PHSP;
0.0000001 K0 K- pi+ pi+ eta PHSP;
0.0000001 K0 K- pi+ pi+ eta' PHSP;
0.0000002 K+ K- pi+ pi- pi+ PHSP;
0.0000002 K+ K- pi+ pi0 pi0 PHSP;
0.0000001 K+ K- pi+ eta pi0 PHSP;
0.0000001 K+ K- pi+ eta' pi0 PHSP;
0.0000002 K0 anti-K0 pi+ pi- pi+ PHSP;
0.0000002 K0 anti-K0 pi+ pi0 pi0 PHSP;
0.0000001 K0 anti-K0 pi+ eta pi0 PHSP;
0.0000001 K0 anti-K0 pi+ eta' pi0 PHSP;
0.0000002 anti-K0 K+ pi+ pi- pi0 PHSP;
0.0000001 anti-K0 K+ pi+ pi- eta PHSP;
0.0000001 anti-K0 K+ pi+ pi- eta' PHSP;
0.0000002 anti-K0 K+ pi0 pi0 pi0 PHSP;
0.0000001 anti-K0 K+ pi0 eta pi0 PHSP;
0.0000001 anti-K0 K+ pi0 eta' pi0 PHSP;
0.000001 K*0 K- pi+ pi+ PHSP;
0.000001 K*- K0 pi+ pi+ PHSP;
0.000001 K*+ K- pi+ pi0 PHSP;
0.000001 K*- K+ pi+ pi0 PHSP;
0.000001 K*0 anti-K0 pi+ pi0 PHSP;
0.000001 K0 anti-K*0 pi+ pi0 PHSP;
0.000001 K+ anti-K*0 pi0 pi0 PHSP;
0.0000005 K+ anti-K*0 eta pi0 PHSP;
0.0000002 K+ anti-K*0 eta' pi0 PHSP;
0.000001 K*+ anti-K0 pi0 pi0 PHSP;
0.0000005 K*+ anti-K0 eta pi0 PHSP;
0.0000002 K*+ anti-K0 eta' pi0 PHSP;
#--- 5-body phi-K*-pi, phi-K-2pi, K-K-K*-pi, 2pi-K-K-K --------------------
0.000010 phi K*+ pi0 PHSP;
0.000010 phi K+ rho0 PHSP;
0.000010 phi K+ omega PHSP;
0.000010 phi K+ f_0 PHSP;
0.000010 phi K0 rho+ PHSP;
0.000010 phi K0 pi+ pi0 PHSP;
0.000010 phi K+ pi+ pi- PHSP;
0.000010 phi K+ pi0 pi0 PHSP;
0.000005 phi K+ eta pi0 PHSP;
0.000002 phi K+ eta' pi0 PHSP;
0.000010 K- K+ K*+ pi0 PHSP;
0.000010 K+ K*- K+ pi0 PHSP;
0.000010 K+ K*0 anti-K0 pi0 PHSP;
0.000010 K+ K0 anti-K*0 pi0 PHSP;
0.000010 K0 K*+ anti-K0 pi0 PHSP;
0.000010 K- K+ K+ rho0 PHSP;
0.000010 K- K+ K+ omega PHSP;
0.000010 K- K+ K+ f_0 PHSP;
0.000010 K- K+ K0 rho+ PHSP;
0.000010 K+ K- K+ pi0 pi0 PHSP;
0.000005 K+ K- K+ eta pi0 PHSP;
0.000002 K+ K- K+ eta' pi0 PHSP;
0.000010 K+ K- K0 pi+ pi0 PHSP;
0.000010 K0 anti-K0 K+ pi0 pi0 PHSP;
0.000005 K0 anti-K0 K+ eta pi0 PHSP;
0.000002 K0 anti-K0 K+ eta' pi0 PHSP;
0.000010 K0 anti-K0 K0 pi+ pi0 PHSP;
0.000010 phi K_0*0 pi+ PHSP;
0.000010 phi K_0*+ pi0 PHSP;
0.000005 phi K_0*+ eta PHSP;
0.000002 phi K_0*+ eta' PHSP;
0.000010 K- K+ K_0*+ pi0 PHSP;
0.000005 K- K+ K_0*+ eta PHSP;
0.000002 K- K+ K_0*+ eta' PHSP;
0.000010 K+ K+ K_0*- pi0 PHSP;
0.000005 K+ K+ K_0*- eta PHSP;
0.000002 K+ K+ K_0*- eta' PHSP;
0.000010 K- K+ K_0*0 pi+ PHSP;
0.000010 K+ K+ anti-K_0*0 pi- PHSP;
0.000010 K0 K0 anti-K_0*0 pi+ PHSP;
0.000010 K+ anti-K_0*0 K0 pi0 PHSP;
0.000005 K+ anti-K_0*0 K0 eta PHSP;
0.000002 K+ anti-K_0*0 K0 eta' PHSP;
0.000010 K+ K_0*0 anti-K0 pi0 PHSP;
0.000005 K+ K_0*0 anti-K0 eta PHSP;
0.000002 K+ K_0*0 anti-K0 eta' PHSP;
0.000002 phi K'_10 pi+ PHSP;
0.000002 phi K'_1+ pi0 PHSP;
0.000001 phi K'_1+ eta PHSP;
0.000001 phi K'_1+ eta' PHSP;
0.000002 K- K+ K'_10 pi+ PHSP;
0.000002 K- K+ K'_1+ pi0 PHSP;
0.000001 K- K+ K'_1+ eta PHSP;
0.000001 K- K+ K'_1+ eta' PHSP;
0.000002 K+ K+ K'_1- pi0 PHSP;
0.000002 K+ K+ anti-K'_10 pi- PHSP;
0.000002 K0 anti-K0 K'_10 pi+ PHSP;
0.000002 K0 anti-K0 K'_1+ pi0 PHSP;
0.000001 K0 anti-K0 K'_1+ eta PHSP;
0.000001 K0 anti-K0 K'_1+ eta' PHSP;
0.000002 K0 K0 anti-K'_10 pi+ PHSP;
0.000002 anti-K0 anti-K0 K'_1+ pi0 PHSP;
0.000001 anti-K0 anti-K0 K'_1+ eta PHSP;
0.000001 anti-K0 anti-K0 K'_1+ eta' PHSP;
0.000010 K+ K0 anti-K'_10 pi0 PHSP;
0.000005 K+ K0 anti-K'_10 eta PHSP;
0.000002 K+ K0 anti-K'_10 eta' PHSP;
0.000010 K+ K'_10 anti-K0 pi0 PHSP;
0.000005 K+ K'_10 anti-K0 eta PHSP;
0.000002 K+ K'_10 anti-K0 eta' PHSP;
#--- 5-body phi-phi-K, phi-phi-pi, phi-3K, phi-K-K-pi, 5K, 4K-pi ------------
0.000004900 phi phi K+ PHSP; #[Reconstructed PDG2011]
0.000001 phi phi pi+ PHSP;
0.000001 phi K+ K- K+ PHSP;
0.000001 phi K0 anti-K0 K+ PHSP;
0.000001 phi K0 anti-K0 pi+ PHSP;
0.000001 phi anti-K0 K+ pi0 PHSP;
0.000001 K+ K- K+ K- pi+ PHSP;
0.000001 K+ K- K0 anti-K0 pi+ PHSP;
0.000001 K+ K- K+ anti-K0 pi0 PHSP;
0.000001 K0 anti-K0 anti-K0 K+ pi0 PHSP;
#--- 6-body phi-phi-K*, phi-3Kpi, phi-K-K-2pi ------------
0.000003 phi phi K*+ PHSP;
0.000001 phi K+ K- K*+ PHSP;
0.000001 phi K0 anti-K0 K*+ PHSP;
0.000001 phi anti-K0 K+ K*0 PHSP;
0.000001 phi K+ K- K+ pi0 PHSP;
0.000001 phi K+ K- K0 pi+ PHSP;
0.000001 phi K0 anti-K0 K+ pi0 PHSP;
0.000001 phi K0 anti-K0 K0 pi+ PHSP;
0.000001 phi anti-K0 K+ K+ pi- PHSP;
#--- 6-body a1a1 ------------
0.000050 a_1+ a_10 PHSP;
#
# B -> cc= s sum = 1.92%
#
0.001014000 J/psi K+ SVS; #[Reconstructed PDG2011]
0.001430000 J/psi K*+ SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; #[Reconstructed PDG2011]
0.000049000 J/psi pi+ SVS; #[Reconstructed PDG2011]
0.000050000 J/psi rho+ SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; #[Reconstructed PDG2011]
0.0002 J/psi K0 pi+ PHSP;
0.0001 J/psi K+ pi0 PHSP;
#rl0.0007 J/psi K+ pi- pi+ PHSP;
#rl0.00035 J/psi K+ pi0 pi0 PHSP;
#rl0.00035 J/psi K0 pi+ pi0 PHSP;
0.0001 J/psi K'_1+ SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0;
0.0005 J/psi K_2*+ PHSP;
0.001800000 J/psi K_1+ SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; #[Reconstructed PDG2011]
0.000052000 J/psi phi K+ PHSP; #[Reconstructed PDG2011]
#
0.000646000 psi(2S) K+ SVS; #[Reconstructed PDG2011]
0.000620000 psi(2S) K*+ SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; #[Reconstructed PDG2011]
0.0004 psi(2S) K0 pi+ PHSP;
0.0002 psi(2S) K+ pi0 PHSP;
0.001900000 psi(2S) K+ pi- pi+ PHSP; #[Reconstructed PDG2011]
0.0001 psi(2S) K+ pi0 pi0 PHSP;
0.0001 psi(2S) K0 pi+ pi0 PHSP;
0.0004 psi(2S) K_1+ PHSP;
#
0.000910000 eta_c K+ PHSP; #[Reconstructed PDG2011]
0.001200000 K*+ eta_c SVS; #[Reconstructed PDG2011]
0.0002 eta_c K0 pi+ PHSP;
0.0001 eta_c K+ pi0 PHSP;
0.0002 eta_c K+ pi- pi+ PHSP;
0.0001 eta_c K+ pi0 pi0 PHSP;
0.0001 eta_c K0 pi+ pi0 PHSP;
#
0.000340000 eta_c(2S) K+ PHSP; #[Reconstructed PDG2011]
0.00048 K*+ eta_c(2S) SVS;
0.00008 eta_c(2S) K0 pi+ PHSP;
0.00005 eta_c(2S) K+ pi0 PHSP;
0.00008 eta_c(2S) K+ pi- pi+ PHSP;
0.00005 eta_c(2S) K+ pi0 pi0 PHSP;
0.00005 eta_c(2S) K0 pi+ pi0 PHSP;
#
0.000133000 chi_c0 K+ PHSP; #[Reconstructed PDG2011]
0.0004 K*+ chi_c0 SVS;
0.0002 chi_c0 K0 pi+ PHSP;
0.0001 chi_c0 K+ pi0 PHSP;
0.0002 chi_c0 K+ pi- pi+ PHSP;
0.0001 chi_c0 K+ pi0 pi0 PHSP;
0.0001 chi_c0 K0 pi+ pi0 PHSP;
#
0.000460000 chi_c1 K+ SVS; #[Reconstructed PDG2011]
0.000300000 chi_c1 K*+ SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; #[Reconstructed PDG2011]
0.0004 chi_c1 K0 pi+ PHSP;
0.0002 chi_c1 K+ pi0 PHSP;
0.0004 chi_c1 K+ pi- pi+ PHSP;
0.0002 chi_c1 K+ pi0 pi0 PHSP;
0.0002 chi_c1 K0 pi+ pi0 PHSP;
#
0.00002 chi_c2 K+ STS;
0.00002 chi_c2 K*+ PHSP;
0.0002 chi_c2 K0 pi+ PHSP;
0.0001 chi_c2 K+ pi0 PHSP;
0.0002 chi_c2 K+ pi- pi+ PHSP;
0.0001 chi_c2 K+ pi0 pi0 PHSP;
0.0001 chi_c2 K0 pi+ pi0 PHSP;
#
0.000490000 psi(3770) K+ SVS; #[Reconstructed PDG2011]
0.0005 psi(3770) K*+ PHSP;
0.0003 psi(3770) K0 pi+ PHSP;
0.0002 psi(3770) K+ pi0 PHSP;
0.0002 psi(3770) K+ pi- pi+ PHSP;
0.0001 psi(3770) K+ pi0 pi0 PHSP;
0.0001 psi(3770) K0 pi+ pi0 PHSP;
0.0003 psi(3770) K_1+ PHSP;
#
# b -> c (sc=) -> D Ds X Sum = 10%
#
0.010000000 anti-D0 D_s+ PHSP; #[Reconstructed PDG2011]
0.008200000 anti-D*0 D_s+ SVS; #[Reconstructed PDG2011]
0.007600000 D_s*+ anti-D0 SVS; #[Reconstructed PDG2011]
0.017100000 D_s*+ anti-D*0 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; #[Reconstructed PDG2011]
0.0006 anti-D'_10 D_s+ SVS;
0.0012 anti-D'_10 D_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0012 anti-D_10 D_s+ SVS;
0.0024 anti-D_10 D_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0;
0.0042 anti-D_2*0 D_s+ STS;
0.0040 anti-D_2*0 D_s*+ PHSP;
#
#
#
#
#
0.0036 D_s+ D- pi+ PHSP;
0.0018 D_s+ anti-D0 pi0 PHSP;
0.0037 D_s*+ D- pi+ PHSP;
0.0018 D_s*+ anti-D0 pi0 PHSP;
0.0033 D_s+ D- pi+ pi0 PHSP;
0.0033 D_s+ anti-D0 pi+ pi- PHSP;
0.0008 D_s+ anti-D0 pi0 pi0 PHSP;
0.0033 D_s*+ D- pi+ pi0 PHSP;
0.0033 D_s*+ anti-D0 pi+ pi- PHSP;
0.0008 D_s*+ anti-D0 pi0 pi0 PHSP;
#
# b -> c (sc=) -> D D= K X Sum = 8%
# update: Ref. [B1]:
# update October 26, 2004
# External W-emission amplitude
0.0017 anti-D0 D+ K0 PHSP;
0.0052 anti-D0 D*+ K0 PHSP;
0.0031 anti-D*0 D+ K0 PHSP;
0.007800000 anti-D*0 D*+ K0 PHSP; #[Reconstructed PDG2011]
# External+internal W-emission amplitude
0.002100000 anti-D0 D0 K+ PHSP; #[Reconstructed PDG2011]
0.0018 anti-D*0 D0 K+ PHSP;
0.004700000 anti-D0 D*0 K+ PHSP; #[Reconstructed PDG2011]
0.005300000 anti-D*0 D*0 K+ PHSP; #[Reconstructed PDG2011]
# Internal W-emission amplitude (color suppressed modes)
0.0005 D+ D- K+ PHSP;
0.0005 D*+ D- K+ PHSP;
0.001500000 D+ D*- K+ PHSP; #[Reconstructed PDG2011]
0.0015 D*+ D*- K+ PHSP;
#
0.0025 anti-D0 D+ K*0 PHSP;
0.0025 anti-D*0 D+ K*0 PHSP;
0.0025 anti-D0 D*+ K*0 PHSP;
0.0050 anti-D*0 D*+ K*0 PHSP;
#
0.0025 anti-D0 D0 K*+ PHSP;
0.0025 anti-D*0 D0 K*+ PHSP;
0.0025 anti-D0 D*0 K*+ PHSP;
0.0050 anti-D*0 D*0 K*+ PHSP;
#
0.0005 D+ D- K*+ PHSP;
0.0005 D*+ D- K*+ PHSP;
0.0005 D+ D*- K*+ PHSP;
0.0010 D*+ D*- K*+ PHSP;
#
# B->D(*)D(*). See Ref [B1]:
#
0.000380000 D+ anti-D0 PHSP; #[Reconstructed PDG2011]
0.000390000 D*+ anti-D0 SVS; #[Reconstructed PDG2011]
0.000630000 anti-D*0 D+ SVS; #[Reconstructed PDG2011]
0.000810000 anti-D*0 D*+ SVV_HELAMP 0.56 0.0 0.96 0.0 0.47 0.0; #[Reconstructed PDG2011]
#
# B -> D(*) X Exclusive Modes
# October 26, 2004 Lange update
0.005190000 anti-D*0 pi+ SVS; #[Reconstructed PDG2011]
0.004840000 anti-D0 pi+ PHSP; #[Reconstructed PDG2011]
0.013400000 rho+ anti-D0 SVS; #[Reconstructed PDG2011]
# D* rho HELAMP parameters taken from ICHEP 98-852.
0.009800000 anti-D*0 rho+ SVV_HELAMP 0.283 1.13 0.932 0.0 0.228 0.95; #[Reconstructed PDG2011]
#
0.0005 anti-D0 pi0 pi+ PHSP;
0.0005 anti-D*0 pi0 pi+ PHSP;
0.001070000 D- pi+ pi+ PHSP; #[Reconstructed PDG2011]
0.001350000 D*- pi+ pi+ PHSP; #[Reconstructed PDG2011]
#
# D a1 updated Ref. [B1]:
0.004000000 a_1+ anti-D0 SVS; #[Reconstructed PDG2011]
0.000200000 anti-D0 rho0 pi+ PHSP; #[Reconstructed PDG2011]
0.006800000 anti-D0 pi- pi+ pi+ PHSP; #[Reconstructed PDG2011]
#
# SVV_HELAMP from factorization, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html:
# updated Ref. [B1]:
# October 26, 2004 Lange update
#
0.019000000 anti-D*0 a_1+ SVV_HELAMP 0.458 0.0 0.866 0.0 0.200 0.0; #[Reconstructed PDG2011]
#
0.00042 anti-D*0 rho0 pi+ PHSP;
0.010300000 anti-D*0 pi- pi+ pi+ PHSP; #[Reconstructed PDG2011]
#
0.0020 D- rho+ pi+ PHSP;
0.0020 D- pi0 pi+ pi+ PHSP;
0.0020 D*- rho+ pi+ PHSP;
0.015000000 D*- pi0 pi+ pi+ PHSP; #[Reconstructed PDG2011]
0.0005 anti-D*0 rho+ pi0 PHSP;
0.0005 anti-D*0 pi+ pi0 pi0 PHSP;
#
# B->D** pi and D** rho, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html
#
#
0.000876 anti-D_10 pi+ SVS;
0.0005 anti-D'_10 pi+ SVS;
0.00052 anti-D_2*0 pi+ STS;
0.0007 anti-D_10 rho+ PHSP;
0.0022 anti-D'_10 rho+ PHSP;
0.0038 anti-D_2*0 rho+ PHSP;
0.00061 anti-D_0*0 pi+ PHSP;
#
#
# B->DK, recommendation
# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html:
# update: Ref [B1]:
#
0.000368000 anti-D0 K+ PHSP; #[Reconstructed PDG2011]
0.000421000 anti-D*0 K+ SVS; #[Reconstructed PDG2011]
0.000530000 K*+ anti-D0 SVS; #[Reconstructed PDG2011]
0.000810000 anti-D*0 K*+ SVV_HELAMP 0.283 0.0 0.932 0.0 0.228 0.0; #[Reconstructed PDG2011]
#October 26, 2004 Lange
0.0000005 D+ pi0 PHSP;
0.0000005 D*+ pi0 SVS;
0.000011 D+ anti-K0 PHSP;
0.000006 D*+ anti-K0 SVS;
#
#October 26, 2004 - Lange
0.00075 anti-D0 D_s0*+ PHSP;
0.00090 anti-D*0 D_s0*+ SVS;
0.003100000 D_s1+ anti-D0 SVS; #[Reconstructed PDG2011]
0.012000000 anti-D*0 D_s1+ SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.000550000 anti-D0 K+ anti-K0 PHSP; #[Reconstructed PDG2011]
0.000750000 anti-D0 K+ anti-K*0 PHSP; #[Reconstructed PDG2011]
0.00150 anti-D*0 K+ anti-K*0 PHSP;
#
# Feb 2009
#
0.002750000 anti-D0 omega pi+ PHSP; #[Reconstructed PDG2011]
0.004500000 anti-D*0 omega pi+ PHSP; #[Reconstructed PDG2011]
#
# Feb 2009
#
0.00045 anti-D0 D'_s1+ PHSP;
0.00094 anti-D*0 D'_s1+ PHSP;
#
# Lam_c X / Sigma_c X
#
#0.04000 anti-cd_1 uu_1 PYTHIA 23;
0.032572352 anti-cd_1 uu_1 PYTHIA 23; #[Reconstructed PDG2011]
#
# Xi_c X 2.4%
#
#0.02400 anti-cs_1 uu_1 PYTHIA 23;
0.008883411 anti-cs_1 uu_1 PYTHIA 23; #[Reconstructed PDG2011]
#
#
0.222347008 u anti-d anti-c u PYTHIA 48; #[Reconstructed PDG2011]
0.042442798 u anti-d anti-c u PYTHIA 13; #[Reconstructed PDG2011]
0.022208435 u anti-s anti-c u PYTHIA 13; #[Reconstructed PDG2011]
#lange - try to crank up the psi production....
0.073041080 c anti-s anti-c u PYTHIA 13; #[Reconstructed PDG2011]
0.003948141 c anti-d anti-c u PYTHIA 13; #[Reconstructed PDG2011]
0.002961106 u anti-d anti-u u PYTHIA 48; #[Reconstructed PDG2011]
0.003948141 c anti-s anti-u u PYTHIA 48; #[Reconstructed PDG2011]
# JGS 11/5/02 This and similar a few lines above have been divided by two
# to solve a double-counting problem for this channel
0.002023436 u anti-u anti-d u PYTHIA 48; #[Reconstructed PDG2011]
0.000069112 d anti-d anti-d u PYTHIA 48; #[Reconstructed PDG2011]
0.000088858 s anti-s anti-d u PYTHIA 48; #[Reconstructed PDG2011]
0.002171534 u anti-u anti-s u PYTHIA 48; #[Reconstructed PDG2011]
0.001776701 d anti-d anti-s u PYTHIA 48; #[Reconstructed PDG2011]
0.001480600 s anti-s anti-s u PYTHIA 48; #[Reconstructed PDG2011]
0.004935177 anti-s u PYTHIA 32; #[Reconstructed PDG2011]
####
0.001500000 anti-D*0 K+ K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.018000000 anti-D*0 pi- pi+ pi+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.005700000 anti-D*0 pi+ pi+ pi+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002600000 D*- pi+ pi+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000180000 D_s- pi+ K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000145000 D_s*- pi+ K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011000 D_s- K+ K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001070000 J/psi K+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000108000 J/psi eta K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000350000 J/psi omega K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011800 J/psi p+ anti-Lambda0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000025800 psi(2S) pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000020000 chi_c1 pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000018000 eta K_0*+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000009100 eta K_2*+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000024000 omega K_0*+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000021000 omega K_2*+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000010100 K*0 pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000001070 f_2 K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000005600 K_2*0 pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000001200 K*+ K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000006100 phi K_1+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000008400 phi K_2*+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000043000 K_1+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000007900 eta K+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000003500 phi K+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000007600 K+ pi- pi+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000020000 K*0 pi+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000046000 K0 pi+ pi0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000014000 K_2*+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000980 rho+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000001620 p+ anti-p- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000005900 p+ anti-p- K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000003600 p+ anti-p- K*+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002500 p+ anti-Lambda0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000003000 p+ anti-Lambda0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 p+ anti-Lambda0 pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004800 p+ anti-Lambda0 rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002000 p+ anti-Lambda0 f_2 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000003400 Lambda0 anti-Lambda0 K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002200 Lambda0 anti-Lambda0 K*+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000280000 anti-Lambda_c- p+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001800000 anti-Lambda_c- p+ pi+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002300000 anti-Lambda_c- p+ pi+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000035000 anti-Sigma_c0 p+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000440000 anti-Sigma_c0 p+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000440000 anti-Sigma_c0 p+ pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000280000 anti-Sigma_c-- p+ pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#-----------------------------------------------------------------
# B references:
#
# [B1]: http://www.slac.stanford.edu/BFROOT/www/Physics/Tools/generators/dec-update/2002/Breco-recommendations.html
#
#-----------------------------------------------------------------
#
#
# B* mesons
#
Decay B*+
1.0000 B+ gamma VSP_PWAVE;
Enddecay
Decay B*-
1.0000 B- gamma VSP_PWAVE;
Enddecay
Decay B*0
1.0000 B0 gamma VSP_PWAVE;
Enddecay
Decay anti-B*0
1.0000 anti-B0 gamma VSP_PWAVE;
Enddecay
Decay B_s*0
1.0000 B_s0 gamma VSP_PWAVE;
Enddecay
Decay anti-B_s*0
1.0000 anti-B_s0 gamma VSP_PWAVE;
Enddecay
#
# B_s decays.
#
#
# To count up the BR for this decay:
# awk ' /^0./{ sum = sum + $1 ;print sum } ' junk.dec
#
# anti-B_s decays.
# -------------------------------------------------------
# whb&fkw 3/28/01 Taken from fkw's QQ tables.
# most dubious part are the B to baryons.
# fkw 4/28/00 made the Bs parallel to the Bd as best as I could
# -------------------------------------------------------
#
# Lange - Nov14 - NOT adjusted for D_s->phipi change
#
Decay anti-B_s0
# b --> c (l nu)
# Sum = 24.5%
-0.0210 D_s+ e- anti-nu_e PHOTOS ISGW2;
-0.0490 D_s*+ e- anti-nu_e PHOTOS ISGW2;
-0.0040 D_s1+ e- anti-nu_e PHOTOS ISGW2;
-0.0040 D_s0*+ e- anti-nu_e PHOTOS ISGW2;
-0.0070 D'_s1+ e- anti-nu_e PHOTOS ISGW2;
-0.0070 D_s2*+ e- anti-nu_e PHOTOS ISGW2;
-#
-0.0210 D_s+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0490 D_s*+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0040 D_s1+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0040 D_s0*+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0070 D'_s1+ mu- anti-nu_mu PHOTOS ISGW2;
-0.0070 D_s2*+ mu- anti-nu_mu PHOTOS ISGW2;
+0.0210 D_s+ e- anti-nu_e FSR ISGW2;
+0.0490 D_s*+ e- anti-nu_e FSR ISGW2;
+0.0040 D_s1+ e- anti-nu_e FSR ISGW2;
+0.0040 D_s0*+ e- anti-nu_e FSR ISGW2;
+0.0070 D'_s1+ e- anti-nu_e FSR ISGW2;
+0.0070 D_s2*+ e- anti-nu_e FSR ISGW2;
+#
+0.0210 D_s+ mu- anti-nu_mu FSR ISGW2;
+0.0490 D_s*+ mu- anti-nu_mu FSR ISGW2;
+0.0040 D_s1+ mu- anti-nu_mu FSR ISGW2;
+0.0040 D_s0*+ mu- anti-nu_mu FSR ISGW2;
+0.0070 D'_s1+ mu- anti-nu_mu FSR ISGW2;
+0.0070 D_s2*+ mu- anti-nu_mu FSR ISGW2;
#
#0.0070 D_s+ tau- anti-nu_tau ISGW2;
#0.0150 D_s*+ tau- anti-nu_tau ISGW2;
#0.0013 D_s1+ tau- anti-nu_tau ISGW2;
#0.0013 D_s0*+ tau- anti-nu_tau ISGW2;
#0.0023 D'_s1+ tau- anti-nu_tau ISGW2;
#0.0023 D_s2*+ tau- anti-nu_tau ISGW2;
# fkw 5/04/01 changed the above to account for the non-res part that I
# had to take out.
0.0080 D_s+ tau- anti-nu_tau ISGW2;
0.0160 D_s*+ tau- anti-nu_tau ISGW2;
0.0018 D_s1+ tau- anti-nu_tau ISGW2;
0.0018 D_s0*+ tau- anti-nu_tau ISGW2;
0.0028 D'_s1+ tau- anti-nu_tau ISGW2;
0.0028 D_s2*+ tau- anti-nu_tau ISGW2;
#
# fkw 4/28/00 the next few are decays where a u\bar u or d\bar d is popped
# between the charm quark and the spectator. I can thus not
# just replace a D by a Ds as above when going from Bd to Bs.
# fkw 5/04/01 Had to take these out because they crash EvtGen.
# Will have to fix this eventually !!!
#0.0010 D*0 K+ tau- anti-nu_tau GOITY_ROBERTS;
#0.0010 D*+ K0 tau- anti-nu_tau GOITY_ROBERTS;
#0.0010 D0 K+ tau- anti-nu_tau GOITY_ROBERTS;
#0.0010 D+ K0 tau- anti-nu_tau GOITY_ROBERTS;
# fkw 4/28/00 B0B -> TAU D PI0 = 1/2 of TAU D PI+ because of pi0 wave function
# However, the same factor of 1/2 doesn't apply to BSB !!!
#
# fkw 3/28/01 There seem to be no semi-leptonic B to baryon decays in nature.
# I don't pretend to understand why. PDG 2000 has a limit of
# < 3.2e-3 where one might naively expect
# 10% * BR(B->/\c) = 0.1 * (6.4+-1.1)%
#0.0050 anti-nu_e e- ??? Baryon
#0.0050 anti-nu_mu mu- ??? Baryon
#
# b --> c (s c=)
# Sum = 11.44%
# 2-body = 4.72%
# more-body = 6.72%
0.010400000 D_s- D_s+ PHSP; #[Reconstructed PDG2011]
0.0099 D_s*+ D_s- SVS;
0.0099 D_s*- D_s+ SVS;
0.0197 D_s*- D_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# fkw 4/28/00 more states with popped q\bar q.
# The one's here involve only popped and spectator.
# Popping stuff in the cs from the W comes further below.
# The same isospin comment applies here as above in the
# semi-leptonic decays with tau and popped q\bar q.
0.0096 D_s- D+ K0 PHSP;
0.0096 D_s- anti-D0 K+ PHSP;
0.0096 D_s*- D+ K0 PHSP;
0.0096 D_s*- D0 K+ PHSP;
#
0.0024 D_s- D+ pi0 K0 PHSP;
0.0048 D_s- D0 pi+ K0 PHSP;
0.0048 D_s- D+ pi- K+ PHSP;
0.0024 D_s- D0 pi0 K+ PHSP;
#
0.0024 D_s*- D+ pi0 K0 PHSP;
0.0048 D_s*- D0 pi+ K0 PHSP;
0.0048 D_s*- D+ pi- K+ PHSP;
0.0024 D_s*- D0 pi0 K+ PHSP;
#
#
# b --> (c ) (c ) (s )
# Sum = 8.0%
# DDK amplitudes R.A.Briere 10/97
# fkw 4/28/00 these are q\bar q popping that don't involve the spectator
# Bd->Bs just involves switching the c\bar d to c\bar s.
#
0.0150 D_s*+ anti-D*0 K- PHSP;
0.0150 D_s*+ D*- anti-K0 PHSP;
#
0.0050 D_s*+ anti-D0 K- PHSP;
0.0050 D_s*+ D- anti-K0 PHSP;
#
0.0050 D_s+ anti-D*0 K- PHSP;
0.0050 D_s+ D*- anti-K0 PHSP;
#
0.0020 D_s+ anti-D0 K- PHSP;
0.0020 D_s+ D- anti-K0 PHSP;
#
0.0030 D_s*+ anti-D*0 K*- PHSP;
0.0030 D_s*+ D*- anti-K*0 PHSP;
#
0.0050 D_s*+ anti-D0 K*- PHSP;
0.0050 D_s*+ D- anti-K*0 PHSP;
#
0.0025 D_s+ anti-D*0 K*- PHSP;
0.0025 D_s+ D*- anti-K*0 PHSP;
#
0.0025 D_s+ anti-D0 K*- PHSP;
0.0025 D_s+ D- anti-K*0 PHSP;
#
#
# b --> c (d c=)
# Sum = 1.0%
0.0017 D_s- D+ PHSP;
0.0017 D*+ D_s- SVS;
0.0017 D_s*- D+ SVS;
0.0017 D_s*- D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# fkw 4/38/00 more popping at the lower vertex
# but with upper vertex cabbibo suppressed.
0.0007 D- D+ K0 PHSP;
0.0007 D- anti-D0 K+ PHSP;
0.0007 D*- D+ K0 PHSP;
0.0007 D*- D0 K+ PHSP;
#
0.0003 D- D+ pi0 K0 PHSP;
0.0007 D- D0 pi+ K0 PHSP;
0.0003 D- D+ pi- K+ PHSP;
0.0007 D- D0 pi0 K+ PHSP;
#
0.0003 D*- D+ pi0 K0 PHSP;
0.0007 D*- D0 pi+ K0 PHSP;
0.0003 D*- D+ pi- K+ PHSP;
0.0007 D*- D0 pi0 K+ PHSP;
#
# b --> c (s u=)
# exclusive
# Sum = 0.09%
0.00015 D_s*+ K- SVS;
0.000150000 D_s+ K- PHSP; #[Reconstructed PDG2011]
0.00030 D_s*+ K*- SVV_HELAMP 0.228 0.0 0.932 0.0 0.0283 0.0;
0.00030 K*- D_s+ SVS;
#
# fkw 4/28/00 Strategy for charmonium modes:
# Take Bd BR's, replace spectator,
# assume etaprime = 2/3 ss
# and eta = 1/3 ss
#
# Note: Just for kicks I gave the c\bar c decays a small piece that is
# self tagging. See if you can find it. This is already in
# the B0 decays in cleo's version of decay.dec .
#
# B --> (c c=) (s s=)
# 2.65%
# should be: psi = 0.80% CLNS 94/1315 but isn't quite right.
0.00064 J/psi eta' SVS;
0.00032 J/psi eta SVS;
0.001300000 J/psi phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.00008 J/psi K0 SVS;
0.00070 J/psi K- K+ PHSP;
0.00070 J/psi anti-K0 K0 PHSP;
0.00070 J/psi anti-K0 K+ pi- PHSP;
0.00070 J/psi anti-K0 K0 pi0 PHSP;
0.00070 J/psi K- K+ pi0 PHSP;
# LHCb PR 04/02/04 Add (cc) phi n pi(+/0)
0.00039 J/psi phi pi+ pi- PHSP;
0.00039 J/psi phi pi0 pi0 PHSP;
# LHCb PR add (cc) phi eta(') + npi see CDF QQ
0.0002 J/psi eta pi+ pi- PHSP;
0.0002 J/psi eta pi0 pi0 PHSP;
0.0004 J/psi eta' pi+ pi- PHSP;
0.0004 J/psi eta' pi0 pi0 PHSP;
0.0002 J/psi pi+ pi- PHSP;
0.0002 J/psi pi0 pi0 PHSP;
# psi' = 0.34% CLNS 94/1315
#
0.000465 psi(2S) eta' SVS;
0.000235 psi(2S) eta SVS;
0.000680000 psi(2S) phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.0003 psi(2S) K- K+ PHSP;
0.0003 psi(2S) anti-K0 K0 PHSP;
0.0003 psi(2S) anti-K0 K+ pi- PHSP;
0.0003 psi(2S) anti-K0 K0 pi0 PHSP;
0.0003 psi(2S) K- K+ pi0 PHSP;
0.00034 psi(2S) phi pi+ pi- PHSP;
0.00034 psi(2S) phi pi0 pi0 PHSP;
0.0002 psi(2S) eta pi+ pi- PHSP;
0.0002 psi(2S) eta pi0 pi0 PHSP;
0.0004 psi(2S) eta' pi+ pi- PHSP;
0.0004 psi(2S) eta' pi0 pi0 PHSP;
0.0002 psi(2S) pi+ pi- PHSP;
0.0002 psi(2S) pi0 pi0 PHSP;
#
# chic0 = 0.05% (20% of chic2)
# Bodwin et.al. Phys Rev D46 1992
0.00010 chi_c0 eta' PHSP;
0.00005 chi_c0 eta PHSP;
0.00020 phi chi_c0 SVS;
0.00003 chi_c0 K- K+ PHSP;
0.00003 chi_c0 anti-K0 K0 PHSP;
0.00003 chi_c0 anti-K0 K+ pi- PHSP;
0.00003 chi_c0 anti-K0 K0 pi0 PHSP;
0.00003 chi_c0 K- K+ pi0 PHSP;
#
#
# chic1 = 0.37% CLNS 94/1315
0.0007 chi_c1 eta' SVS;
0.0003 chi_c1 eta SVS;
0.0014 chi_c1 phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00026 chi_c1 K- K+ PHSP;
0.00026 chi_c1 anti-K0 K0 PHSP;
0.00026 chi_c1 anti-K0 K+ pi- PHSP;
0.00026 chi_c1 anti-K0 K0 pi0 PHSP;
0.00026 chi_c1 K- K+ pi0 PHSP;
0.00040 chi_c1 phi pi+ pi- PHSP;
0.00040 chi_c1 phi pi0 pi0 PHSP;
0.0001 chi_c1 eta pi+ pi- PHSP;
0.0001 chi_c1 eta pi0 pi0 PHSP;
0.0002 chi_c1 eta' pi+ pi- PHSP;
0.0002 chi_c1 eta' pi0 pi0 PHSP;
#
#
# chic2 = 0.25% CLNS 94/1315
0.000465 chi_c2 eta' STS;
0.000235 chi_c2 eta STS;
#0.0010 chi_c2 phi STV; whb: model doesn't exist!
0.00016 chi_c2 K- K+ PHSP;
0.00016 chi_c2 anti-K0 K0 PHSP;
0.00016 chi_c2 anti-K0 K+ pi- PHSP;
0.00016 chi_c2 anti-K0 K0 pi0 PHSP;
0.00016 chi_c2 K- K+ pi0 PHSP;
#
#
# etac(1s) = 0.41% Guess: CBX 97-65
#
0.0008 eta_c eta' PHSP;
0.0004 eta_c eta PHSP;
0.0015 phi eta_c SVS;
0.00028 eta_c K- K+ PHSP;
0.00028 eta_c anti-K0 K0 PHSP;
0.00028 eta_c anti-K0 K+ pi- PHSP;
0.00028 eta_c anti-K0 K0 pi0 PHSP;
0.00028 eta_c K- K+ pi0 PHSP;
0.00040 eta_c phi pi+ pi- PHSP;
0.00040 eta_c phi pi0 pi0 PHSP;
0.0001 eta_c eta pi+ pi- PHSP;
0.0001 eta_c eta pi0 pi0 PHSP;
0.0002 eta_c eta' pi+ pi- PHSP;
0.0002 eta_c eta' pi0 pi0 PHSP;
#
#
# etac(2s) = 0.18% Guess: CBX 97-65
0.0004 eta_c(2S) eta' PHSP;
0.0002 eta_c(2S) eta PHSP;
0.0006 phi eta_c(2S) SVS;
0.00012 eta_c(2S) K- K+ PHSP;
0.00012 eta_c(2S) anti-K0 K0 PHSP;
0.00012 eta_c(2S) anti-K0 K+ pi- PHSP;
0.00012 eta_c(2S) anti-K0 K0 pi0 PHSP;
0.00012 eta_c(2S) K- K+ pi0 PHSP;
#
#
# hc = 0.25% (100% of chic2)
# Bodwin et.al. Phys Rev D46 1992
#
0.000465 h_c eta' SVS;
0.000235 h_c eta SVS;
0.0010 h_c phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00016 h_c K- K+ PHSP;
0.00016 h_c anti-K0 K0 PHSP;
0.00016 h_c anti-K0 K+ pi- PHSP;
0.00016 h_c anti-K0 K0 pi0 PHSP;
0.00016 h_c K- K+ pi0 PHSP;
#
#
# b --> c (d u=)
# Exclusive Channels = 6.33%
# fkw 4/28/00 I rearanged this a bit after copying it from
# B0B decay list.
#
# first come the external W-emission decays:
#
0.0008 D_s1+ pi- SVS;
0.0021 D_s1+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0013 D_s2*+ pi- STS;
#0.0037 D_s2*+ rho- STV; # whb: model doesn't exist
#
0.0027 D_s*+ pi- SVS;
0.003200000 D_s+ pi- PHSP; #[Reconstructed PDG2011]
0.0073 rho- D_s+ SVS;
0.0070 D_s*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.0085 a_1- D_s+ SVS;
0.0009 D_s+ rho0 pi- PHSP;
0.0009 D_s+ rho- pi0 PHSP;
0.008400000 D_s+ pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.0009 D_s+ pi0 pi- pi0 PHSP;
#
0.0122 D_s*+ a_1- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0010 D_s*+ rho0 pi- PHSP;
0.0010 D_s*+ rho- pi0 PHSP;
0.0077 D_s*+ pi+ pi- pi- PHSP;
0.0010 D_s*+ pi0 pi- pi0 PHSP;
#
# then the color suppressed decays:
#
# fkw 4/28/00 color suppressed modes bumped up by factor 2 from isospin
# i.e. Bs doesn't have the factor 2 suppression Bd has.
0.0002 D*0 K0 SVS;
0.0002 D0 K0 PHSP;
0.0002 K*0 D0 SVS;
0.0002 D*0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# PR LHCb Add p pbar mode
0.000000001 p+ anti-p- PHSP;
# fkw 4/28/00 ignore the internal W emission decays with additional
# q\bar q popping.
#
# Here come the various types of "inclusive unknown" decays:
#
# Start with B to baryons:
# fkw 3/28/01 I don't know what I'm doing here!!! This needs to be checked!!!
# Mark Whitehead 30/4/2010 Weighted PYHTIA to get total BF = 100%
0.019574780 cs_0 anti-ud_0 PYTHIA 23; #[Reconstructed PDG2011]
0.039129957 cs_1 anti-ud_1 PYTHIA 23; #[Reconstructed PDG2011]
#
# Next come external W-emission:
0.301256716 anti-u d c anti-s PYTHIA 48; #[Reconstructed PDG2011]
0.048443906 anti-u d c anti-s PYTHIA 25; #[Reconstructed PDG2011]
# Now the internal W-emission:
0.019086636 anti-u c d anti-s PYTHIA 48; #[Reconstructed PDG2011]
# Then some b->u external W-emission with upper vertex charm
0.003912996 anti-c s u anti-s PYTHIA 48; #[Reconstructed PDG2011]
# and finally some cabibbo suppressed external and internal W-emission
0.014683536 anti-u s c anti-s PYTHIA 48; #[Reconstructed PDG2011]
0.002152148 anti-u s c anti-s PYTHIA 25; #[Reconstructed PDG2011]
0.000880424 anti-u c s anti-s PYTHIA 48; #[Reconstructed PDG2011]
# and some c cbar d stuff as well as c cbar s
0.005391151 anti-c d c anti-s PYTHIA 13; #[Reconstructed PDG2011]
0.001468354 anti-c d c anti-s PYTHIA 13; #[Reconstructed PDG2011]
# and some miscellaneous charmless stuff
0.003521696 anti-u u d anti-s PYTHIA 48; #[Reconstructed PDG2011]
0.000684774 anti-d d d anti-s PYTHIA 48; #[Reconstructed PDG2011]
0.000880424 anti-s s d anti-s PYTHIA 48; #[Reconstructed PDG2011]
0.001956498 anti-u u s anti-s PYTHIA 48; #[Reconstructed PDG2011]
0.001565198 anti-d d s anti-s PYTHIA 48; #[Reconstructed PDG2011]
0.001271724 anti-s s s anti-s PYTHIA 48; #[Reconstructed PDG2011]
0.004891245 s anti-s PYTHIA 32; #[Reconstructed PDG2011]
# fkw 5/10/00 the b->ulnu decays are loosely modelled according to B0 in EvtGen
-0.000200 K+ e- anti-nu_e PHOTOS ISGW2;
-0.000300 K*+ e- anti-nu_e PHOTOS ISGW2;
-0.000300 K_1+ e- anti-nu_e PHOTOS ISGW2;
-0.000200 K'_1+ e- anti-nu_e PHOTOS ISGW2;
+0.000200 K+ e- anti-nu_e FSR ISGW2;
+0.000300 K*+ e- anti-nu_e FSR ISGW2;
+0.000300 K_1+ e- anti-nu_e FSR ISGW2;
+0.000200 K'_1+ e- anti-nu_e FSR ISGW2;
#
#
-0.000200 K+ mu- anti-nu_mu PHOTOS ISGW2;
-0.000300 K*+ mu- anti-nu_mu PHOTOS ISGW2;
-0.000300 K_1+ mu- anti-nu_mu PHOTOS ISGW2;
-0.000200 K'_1+ mu- anti-nu_mu PHOTOS ISGW2;
+0.000200 K+ mu- anti-nu_mu FSR ISGW2;
+0.000300 K*+ mu- anti-nu_mu FSR ISGW2;
+0.000300 K_1+ mu- anti-nu_mu FSR ISGW2;
+0.000200 K'_1+ mu- anti-nu_mu FSR ISGW2;
# -------------
# 2e-3 for charmless semi-leptonic
#***********************************************************
#
# fkw 5/10/00
#
# ideas behind these (largely) made up Br's for charmless
# hadronic B decays:
# (1) any PP and PV modes that are used or calculated
# in globfit code by Hou,Smith,Wuerthwein are taken from
# the latest fit i.e. May2000
# (2) anything else is from Ali,Kramer,Lue
#
# None of this should be taken too serious!
#
#***********************************************************
# Mark Whitehead 30/4/2010 Updated K+K-
# PR LHCb 04/07/04 update BR
0.000033000 K- K+ PHSP; #[Reconstructed PDG2011]
# PR LHCb 04/07/04 split into KS/KL
0.0000000 anti-K0 K0 PHSP;
0.0000100 K_S0 K_S0 PHSP;
0.0000100 K_L0 K_L0 PHSP;
# PR LHCb 04/07/04 update BR
0.000004900 pi- K+ PHSP; #[Reconstructed PDG2011]
0.0000002 pi0 K0 PHSP;
# PR LHCb 04/07/04 add Bs->pi+ pi-
0.00000001 pi+ pi- PHSP;
#
0.0000012 omega eta SVS;
0.0000025 omega eta' SVS;
0.0000013 phi eta SVS;
0.0000025 phi eta' SVS;
0.00000008 omega anti-K0 SVS;
0.000000002 phi anti-K0 SVS;
#
#next is just twice PI- RHO0
0.0000250 K*+ pi- SVS;
0.0000120 rho- K+ SVS;
0.00000002 rho0 K0 SVS;
0.00000002 K*0 pi0 SVS;
#
0.0000046 K*- K+ SVS;
# PR LHCb 04/07/04 Split into KS/KL
0.0000000 anti-K*0 K0 SVS;
0.0000020 anti-K*0 K_S0 SVS;
0.0000020 anti-K*0 K_L0 SVS;
0.0000082 K*+ K- SVS;
# PR LHCb 04/07/04 Split into KS/KL
0.0000000 K*0 anti-K0 SVS;
0.0000020 K*0 K_S0 SVS;
0.0000020 K*0 K_L0 SVS;
#
0.0000580 eta' eta' PHSP;
0.0000250 eta' eta PHSP;
0.0000040 eta eta PHSP;
#### Already included above 0.0000200 phi eta SVS;
#### Already included above 0.0000100 phi eta' SVS;
#
#next comes stuff from Ali,Kramer,Lue PRD58, 094009 FOR NC=3
0.00000007 K0 eta' PHSP;
0.00000023 K0 eta PHSP;
0.000000021 K*0 eta' SVS;
0.00000007 K*0 eta SVS;
#
#next comes stuff from Ali,Kramer,Lue PRD58, 094009 FOR NC=3
# for vector-vector final states
0.000020 rho- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0000008 rho0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.000000005 omega K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.000006 K*- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
# PR LHCb 04/07/04 Update BR
0.000004 anti-K*0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.000014000 phi phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000000004 phi K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# decays that go via b->d penguins
#### Already included above 0.0000004 phi K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
# PR LHCb : add Bs -> mu+ mu-
0.0000000035 mu- mu+ PHSP;
#PR LHCb 04/08/2004 add Bs -> tau+ tau- (BR not to take too seriously)
0.0000000020 tau- tau+ PHSP;
# PR LHCb 04/05/2004 : add Bs -> phi gamma
0.000057000 phi gamma SVP_HELAMP 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
# PR LHCb 04/08/2004 : add Bs -> phi mu mu, phi e e
0.0000023 phi e- e+ BTOSLLALI;
0.0000023 phi mu- mu+ BTOSLLALI;
# PR LHCb 16 apr 2004 : add Bs -> gamma gamma
0.0000005 gamma gamma PHSP;
#--------------
# 257.122e-6 for all the charmless hadronic
#
0.000150000 D_s- K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
# B_s decays.
# -------------------------------------------------------
# whb&fkw 3/28/01 Taken from fkw's QQ tables.
# most dubious part are the B to baryons.
# fkw 4/28/00 made the Bs parallel to the Bd as best as I could
# -------------------------------------------------------
Decay B_s0
-0.0210 D_s- e+ nu_e PHOTOS ISGW2;
-0.0490 D_s*- e+ nu_e PHOTOS ISGW2;
-0.0040 D_s1- e+ nu_e PHOTOS ISGW2;
-0.0040 D_s0*- e+ nu_e PHOTOS ISGW2;
-0.0070 D'_s1- e+ nu_e PHOTOS ISGW2;
-0.0070 D_s2*- e+ nu_e PHOTOS ISGW2;
-0.0210 D_s- mu+ nu_mu PHOTOS ISGW2;
-0.0490 D_s*- mu+ nu_mu PHOTOS ISGW2;
-0.0040 D_s1- mu+ nu_mu PHOTOS ISGW2;
-0.0040 D_s0*- mu+ nu_mu PHOTOS ISGW2;
-0.0070 D'_s1- mu+ nu_mu PHOTOS ISGW2;
-0.0070 D_s2*- mu+ nu_mu PHOTOS ISGW2;
+0.0210 D_s- e+ nu_e FSR ISGW2;
+0.0490 D_s*- e+ nu_e FSR ISGW2;
+0.0040 D_s1- e+ nu_e FSR ISGW2;
+0.0040 D_s0*- e+ nu_e FSR ISGW2;
+0.0070 D'_s1- e+ nu_e FSR ISGW2;
+0.0070 D_s2*- e+ nu_e FSR ISGW2;
+0.0210 D_s- mu+ nu_mu FSR ISGW2;
+0.0490 D_s*- mu+ nu_mu FSR ISGW2;
+0.0040 D_s1- mu+ nu_mu FSR ISGW2;
+0.0040 D_s0*- mu+ nu_mu FSR ISGW2;
+0.0070 D'_s1- mu+ nu_mu FSR ISGW2;
+0.0070 D_s2*- mu+ nu_mu FSR ISGW2;
#fkw 5/04/01 changed these to account for taking out non-res
#0.0070 D_s- tau+ nu_tau ISGW2;
#0.0150 D_s*- tau+ nu_tau ISGW2;
#0.0013 D_s1- tau+ nu_tau ISGW2;
#0.0013 D_s0*- tau+ nu_tau ISGW2;
#0.0023 D'_s1- tau+ nu_tau ISGW2;
#0.0023 D_s2*- tau+ nu_tau ISGW2;
0.0080 D_s- tau+ nu_tau ISGW2;
0.0160 D_s*- tau+ nu_tau ISGW2;
0.0018 D_s1- tau+ nu_tau ISGW2;
0.0018 D_s0*- tau+ nu_tau ISGW2;
0.0028 D'_s1- tau+ nu_tau ISGW2;
0.0028 D_s2*- tau+ nu_tau ISGW2;
#
# fkw 4/28/00 the next few are decays where a u\bar u or d\bar d is popped
# between the charm quark and the spectator. I can thus not
# just replace a D by a Ds as above when going from Bd to Bs.
#
# fkw 5/04/01 Had to take non-res out because it crashed EvtGen.
#0.0010 anti-D*0 K- tau+ nu_tau GOITY_ROBERTS;
#0.0010 D*- anti-K0 tau+ nu_tau GOITY_ROBERTS;
#0.0010 anti-D0 K- tau+ nu_tau GOITY_ROBERTS;
#0.0010 D- anti-K0 tau+ nu_tau GOITY_ROBERTS;
# fkw 4/28/00 B0 -> TAU D PI0 = 1/2 of TAU D PI- because of pi0 wave function
# However, the same factor of 1/2 doesn't apply to BS0 !!!
# fkw 3/28/01 There seem to be no semi-leptonic B to baryon decays in nature.
# I don't pretend to understand why. PDG 2000 has a limit of
# < 3.2e-3 where one might naively expect
# 10% * BR(B->/\c) = 0.1 * (6.4+-1.1)%
#0.0050 nu_e e+ B-Baryon
#0.0050 nu_mu mu+ B-Baryon
#
# b --> c (s c=)
# Sum = 11.44%
# 2-body = 4.72%
# more-body = 6.72%
0.010400000 D_s- D_s+ PHSP; #[Reconstructed PDG2011]
0.0099 D_s*+ D_s- SVS;
0.0099 D_s*- D_s+ SVS;
0.0197 D_s*- D_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# fkw 4/28/00 more states with popped q\bar q.
# The one's here involve only popped and spectator.
# Popping stuff in the cs from the W comes further below.
# The same isospin comment applies here as above in the
# semi-leptonic decays with tau and popped q\bar q.
0.0096 D_s+ D- anti-K0 PHSP;
0.0096 D_s+ D0 K- PHSP;
0.0096 D_s*+ D- anti-K0 PHSP;
0.0096 D_s*+ anti-D0 K- PHSP;
#
0.0024 D_s+ D- pi0 anti-K0 PHSP;
0.0048 D_s+ anti-D0 pi- anti-K0 PHSP;
0.0048 D_s+ D- pi+ K- PHSP;
0.0024 D_s+ anti-D0 pi0 K- PHSP;
#
0.0024 D_s*+ D- pi0 anti-K0 PHSP;
0.0048 D_s*+ anti-D0 pi- anti-K0 PHSP;
0.0048 D_s*+ D- pi+ K- PHSP;
0.0024 D_s*+ anti-D0 pi0 K- PHSP;
#
#
# b --> (c ) (c ) (s )
# Sum = 8.0%
# DDK amplitudes R.A.Briere 10/97
# fkw 4/28/00 these are q\bar q popping that don't involve the spectator
# Bd->Bs just involves switching the c\bar d to c\bar s.
#
0.0150 D_s*- D*0 K+ PHSP;
0.0150 D_s*- D*+ K0 PHSP;
0.0050 D_s*- D0 K+ PHSP;
0.0050 D_s*- D+ K0 PHSP;
0.0050 D_s- D*0 K+ PHSP;
0.0050 D_s- D*+ K0 PHSP;
0.0020 D_s- D0 K+ PHSP;
0.0020 D_s- D+ K0 PHSP;
0.0030 D_s*- D*0 K*+ PHSP;
0.0030 D_s*- D*+ K*0 PHSP;
0.0050 D_s*- D0 K*+ PHSP;
0.0050 D_s*- D+ K*0 PHSP;
0.0025 D_s- D*0 K*+ PHSP;
0.0025 D_s- D*+ K*0 PHSP;
0.0025 D_s- D0 K*+ PHSP;
0.0025 D_s- D+ K*0 PHSP;
#
#
# b --> c (d c=)
# Sum = 1.36%
0.0017 D_s+ D- PHSP;
0.0017 D*- D_s+ SVS;
0.0017 D_s*+ D- SVS;
0.0017 D_s*+ D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# fkw 4/38/00 more popping at the lower vertex
# but with upper vertex cabbibo suppressed.
0.0007 D+ D- anti-K0 PHSP;
0.0007 D+ D0 K- PHSP;
0.0007 D*+ D- anti-K0 PHSP;
0.0007 D*+ anti-D0 K- PHSP;
#
0.0003 D+ D- pi0 anti-K0 PHSP;
0.0007 D+ anti-D0 pi- anti-K0 PHSP;
0.0003 D+ D- pi+ K- PHSP;
0.0007 D+ anti-D0 pi0 K- PHSP;
#
0.0003 D*+ D- pi0 anti-K0 PHSP;
0.0007 D*+ anti-D0 pi- anti-K0 PHSP;
0.0003 D*+ D- pi+ K- PHSP;
0.0007 D*+ anti-D0 pi0 K- PHSP;
#
# b --> c (u s=)
# exclusive
# Sum = 0.9%
0.00015 D_s*- K+ SVS;
0.000150000 D_s- K+ PHSP; #[Reconstructed PDG2011]
0.00030 D_s*- K*+ SVV_HELAMP 0.0283 0.0 0.932 0.0 0.228 0.0;
0.00030 K*+ D_s- SVS;
#
# fkw 4/28/00 Strategy for charmonium modes:
# Take Bd BR's, replace spectator,
# assume etaprime = 2/3 ss
# and eta = 1/3 ss
#
# Note: Just for kicks I gave the c\bar c decays a small piece that is
# self tagging. See if you can find it. This is already in
# the B0 decays in cleo's version of decay.dec .
#
# B --> (c c=) (s s=)
# 2.65%
# should be: psi = 0.80% CLNS 94/1315 but isn't quite right.
0.00064 J/psi eta' SVS;
0.00032 J/psi eta SVS;
0.001300000 J/psi phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.00008 J/psi K0 SVS;
0.00070 J/psi K- K+ PHSP;
0.00070 J/psi anti-K0 K0 PHSP;
0.00070 J/psi K0 K- pi+ PHSP;
0.00070 J/psi anti-K0 K0 pi0 PHSP;
0.00070 J/psi K- K+ pi0 PHSP;
# LHCb PR 04/02/04 Add (cc) phi n pi(+/0)
0.00039 J/psi phi pi+ pi- PHSP;
0.00039 J/psi phi pi0 pi0 PHSP;
# LHCb PR Add (cc) phi eta(') + npi like in CDF QQ
0.0002 J/psi eta pi+ pi- PHSP;
0.0002 J/psi eta pi0 pi0 PHSP;
0.0004 J/psi eta' pi+ pi- PHSP;
0.0004 J/psi eta' pi0 pi0 PHSP;
0.0002 J/psi pi+ pi- PHSP;
0.0002 J/psi pi0 pi0 PHSP;
# psi' = 0.34% CLNS 94/1315
0.000465 psi(2S) eta' SVS;
0.000235 psi(2S) eta SVS;
0.000680000 psi(2S) phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.0003 psi(2S) K- K+ PHSP;
0.0003 psi(2S) anti-K0 K0 PHSP;
0.0003 psi(2S) K0 K- pi+ PHSP;
0.0003 psi(2S) anti-K0 K0 pi0 PHSP;
0.0003 psi(2S) K- K+ pi0 PHSP;
0.00034 psi(2S) phi pi+ pi- PHSP;
0.00034 psi(2S) phi pi0 pi0 PHSP;
0.0002 psi(2S) eta pi+ pi- PHSP;
0.0002 psi(2S) eta pi0 pi0 PHSP;
0.0004 psi(2S) eta' pi+ pi- PHSP;
0.0004 psi(2S) eta' pi0 pi0 PHSP;
0.0002 psi(2S) pi+ pi- PHSP;
0.0002 psi(2S) pi0 pi0 PHSP;
#
# chic0 = 0.05% (20% of chic2)
# Bodwin et.al. Phys Rev D46 1992
0.00010 chi_c0 eta' PHSP;
0.00005 chi_c0 eta PHSP;
0.00020 phi chi_c0 SVS;
0.00003 chi_c0 K- K+ PHSP;
0.00003 chi_c0 anti-K0 K0 PHSP;
0.00003 chi_c0 K0 K- pi+ PHSP;
0.00003 chi_c0 anti-K0 K0 pi0 PHSP;
0.00003 chi_c0 K- K+ pi0 PHSP;
#
#
# chic1 = 0.37% CLNS 94/1315
0.0007 chi_c1 eta' SVS;
0.0003 chi_c1 eta SVS;
0.0014 chi_c1 phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00026 chi_c1 K- K+ PHSP;
0.00026 chi_c1 anti-K0 K0 PHSP;
0.00026 chi_c1 K0 K- pi+ PHSP;
0.00026 chi_c1 anti-K0 K0 pi0 PHSP;
0.00026 chi_c1 K- K+ pi0 PHSP;
0.00040 chi_c1 phi pi+ pi- PHSP;
0.00040 chi_c1 phi pi0 pi0 PHSP;
0.0001 chi_c1 eta pi+ pi- PHSP;
0.0001 chi_c1 eta pi0 pi0 PHSP;
0.0002 chi_c1 eta' pi+ pi- PHSP;
0.0002 chi_c1 eta' pi0 pi0 PHSP;
#
#
# chic2 = 0.25% CLNS 94/1315
0.000465 chi_c2 eta' STS;
0.000235 chi_c2 eta STS;
#0.0010 chi_c2 phi STV; whb: doesn't exist
0.00016 chi_c2 K- K+ PHSP;
0.00016 chi_c2 anti-K0 K0 PHSP;
0.00016 chi_c2 K0 K- pi+ PHSP;
0.00016 chi_c2 anti-K0 K0 pi0 PHSP;
0.00016 chi_c2 K- K+ pi0 PHSP;
#
#
# etac(1s) = 0.41% Guess: CBX 97-65
0.0008 eta_c eta' PHSP;
0.0004 eta_c eta PHSP;
0.0015 phi eta_c SVS;
0.00028 eta_c K- K+ PHSP;
0.00028 eta_c K0 anti-K0 PHSP;
0.00028 eta_c K0 K- pi+ PHSP;
0.00028 eta_c K0 anti-K0 pi0 PHSP;
0.00028 eta_c K- K+ pi0 PHSP;
0.00040 eta_c phi pi+ pi- PHSP;
0.00040 eta_c phi pi0 pi0 PHSP;
0.0001 eta_c eta pi+ pi- PHSP;
0.0001 eta_c eta pi0 pi0 PHSP;
0.0002 eta_c eta' pi+ pi- PHSP;
0.0002 eta_c eta' pi0 pi0 PHSP;
#
#
# etac(2s) = 0.18% Guess: CBX 97-65
0.0004 eta_c(2S) eta' PHSP;
0.0002 eta_c(2S) eta PHSP;
0.0006 phi eta_c(2S) SVS;
0.00012 eta_c(2S) K- K+ PHSP;
0.00012 eta_c(2S) anti-K0 K0 PHSP;
0.00012 eta_c(2S) K0 K- pi+ PHSP;
0.00012 eta_c(2S) anti-K0 K0 pi0 PHSP;
0.00012 eta_c(2S) K- K+ pi0 PHSP;
#
#
# hc = 0.25% (100% of chic2)
# Bodwin et.al. Phys Rev D46 1992
0.000465 h_c eta' SVS;
0.000235 h_c eta SVS;
0.0010 h_c phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00016 h_c K- K+ PHSP;
0.00016 h_c anti-K0 K0 PHSP;
0.00016 h_c K0 K- pi+ PHSP;
0.00016 h_c anti-K0 K0 pi0 PHSP;
0.00016 h_c K- K+ pi0 PHSP;
#
#
# b --> c (d u=)
# Exclusive Channels = 6.33%
# fkw 4/28/00 I rearanged this a bit after copying it from
# B0B decay list.
#
# first come the external W-emission decays:
#
0.0008 D_s1- pi+ SVS;
0.0021 D_s1- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0013 D_s2*- pi+ STS;
#0.0037 D_s2*- rho+ STV; #whb: STV does not exist yet
#
0.0027 D_s*- pi+ SVS;
0.003200000 D_s- pi+ PHSP; #[Reconstructed PDG2011]
0.0073 rho+ D_s- SVS;
0.0070 D_s*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.0085 a_1+ D_s- SVS;
0.0009 D_s- rho0 pi+ PHSP;
0.0009 D_s- rho+ pi0 PHSP;
0.008400000 D_s- pi- pi+ pi+ PHSP; #[Reconstructed PDG2011]
0.0009 D_s- pi0 pi+ pi0 PHSP;
#
0.0122 D_s*- a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0010 D_s*- rho0 pi+ PHSP;
0.0010 D_s*- rho+ pi0 PHSP;
0.0077 D_s*- pi- pi+ pi+ PHSP;
0.0010 D_s*- pi0 pi+ pi0 PHSP;
#
# then the color suppressed decays:
#
# fkw 4/28/00 color suppressed modes bumped up by factor 2 from isospin
# i.e. Bs doesn't have the factor 2 suppression Bd has.
0.0002 anti-D*0 anti-K0 SVS;
0.0002 anti-D0 anti-K0 PHSP;
0.0002 anti-K*0 anti-D0 SVS;
0.0002 anti-D*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# PR LHCb : add p ppbar mode
0.000000001 p+ anti-p- PHSP;
# fkw 4/28/00 ignore the internal W emission decays with additional
# q\bar q popping.
#
# Here come the various types of "inclusive unknown" decays:
#
# Start with B to baryons:
# fkw 3/28/01 I don't know what I'm doing here!!! This needs to be checked!!!
# Mark Whitehead 30/4/2010 Weight PYTHIA to get Total BF=100%
0.019574780 anti-cs_0 ud_0 PYTHIA 23; #[Reconstructed PDG2011]
0.039129957 anti-cs_1 ud_1 PYTHIA 23; #[Reconstructed PDG2011]
#
# Next come external W-emission:
0.301256716 u anti-d anti-c s PYTHIA 48; #[Reconstructed PDG2011]
0.048443906 u anti-d anti-c s PYTHIA 25; #[Reconstructed PDG2011]
# Now the internal W-emission:
0.019086636 u anti-c anti-d s PYTHIA 48; #[Reconstructed PDG2011]
# Then some b->u external W-emission with upper vertex charm
0.003912996 c anti-s anti-u s PYTHIA 48; #[Reconstructed PDG2011]
# and finally some cabibbo suppressed external and internal W-emission
0.014683536 u anti-s anti-c s PYTHIA 48; #[Reconstructed PDG2011]
0.002152148 u anti-s anti-c s PYTHIA 25; #[Reconstructed PDG2011]
0.000880424 u anti-c anti-s s PYTHIA 48; #[Reconstructed PDG2011]
# and some c cbar d stuff as well as c cbar s
0.005391151 c anti-d anti-c s PYTHIA 13; #[Reconstructed PDG2011]
0.001468354 c anti-d anti-c s PYTHIA 13; #[Reconstructed PDG2011]
# and some miscellaneous charmless stuff
0.003521696 u anti-u anti-d s PYTHIA 48; #[Reconstructed PDG2011]
0.000684774 d anti-d anti-d s PYTHIA 48; #[Reconstructed PDG2011]
0.000880424 s anti-s anti-d s PYTHIA 48; #[Reconstructed PDG2011]
0.001956498 u anti-u anti-s s PYTHIA 48; #[Reconstructed PDG2011]
0.001565198 d anti-d anti-s s PYTHIA 48; #[Reconstructed PDG2011]
0.001271724 s anti-s anti-s s PYTHIA 48; #[Reconstructed PDG2011]
0.004891245 anti-s s PYTHIA 32; #[Reconstructed PDG2011]
# fkw 5/10/00 the b->ulnu decays are loosely modelled according to B0 in EvtGen
-0.000200 K- e+ nu_e PHOTOS ISGW2;
-0.000300 K*- e+ nu_e PHOTOS ISGW2;
-0.000300 K_1- e+ nu_e PHOTOS ISGW2;
-0.000200 K'_1- e+ nu_e PHOTOS ISGW2;
+0.000200 K- e+ nu_e FSR ISGW2;
+0.000300 K*- e+ nu_e FSR ISGW2;
+0.000300 K_1- e+ nu_e FSR ISGW2;
+0.000200 K'_1- e+ nu_e FSR ISGW2;
#
#
-0.000200 K- mu+ nu_mu PHOTOS ISGW2;
-0.000300 K*- mu+ nu_mu PHOTOS ISGW2;
-0.000300 K_1- mu+ nu_mu PHOTOS ISGW2;
-0.000200 K'_1- mu+ nu_mu PHOTOS ISGW2;
+0.000200 K- mu+ nu_mu FSR ISGW2;
+0.000300 K*- mu+ nu_mu FSR ISGW2;
+0.000300 K_1- mu+ nu_mu FSR ISGW2;
+0.000200 K'_1- mu+ nu_mu FSR ISGW2;
# -------------
# 2e-3 for charmless semi-leptonic
#***********************************************************
#
# fkw 5/10/00
#
# ideas behind these (largely) made up Br's for charmless
# hadronic B decays:
# (1) any PP and PV modes that are used or calculated
# in globfit code by Hou,Smith,Wuerthwein are taken from
# the latest fit i.e. May2000
# (2) anything else is from Ali,Kramer,Lue
#
# None of this should be taken too serious!
#
#***********************************************************
# Mark Whitehead 30/4/2010 Update K+K-
# PR LHCb update Br Bs -> K- K+
0.000033000 K- K+ PHSP; #[Reconstructed PDG2011]
# PR LHCb 4/07/04 Split in KS/KL
0.0000000 anti-K0 K0 PHSP;
0.0000100 K_S0 K_S0 PHSP;
0.0000100 K_L0 K_L0 PHSP;
#
0.000004900 pi+ K- PHSP; #[Reconstructed PDG2011]
0.0000002 pi0 anti-K0 PHSP;
# PR LHCb 4/07/04 add Bs -> pi+ pi-
0.00000001 pi+ pi- PHSP;
#
0.0000012 omega eta SVS;
0.0000025 omega eta' SVS;
0.0000013 phi eta SVS;
0.0000025 phi eta' SVS;
0.00000008 omega K0 SVS;
0.000000002 phi K0 SVS;
#
0.0000250 K*- pi+ SVS;
0.0000120 rho+ K- SVS;
0.00000002 rho0 K0 SVS;
0.00000002 anti-K*0 pi0 SVS;
#
0.0000046 K*+ K- SVS;
# PR LHCb 4/07/04 split in KS/KL
0.0000000 K*0 anti-K0 SVS;
0.0000020 K*0 K_S0 SVS;
0.0000020 K*0 K_L0 SVS;
0.0000082 K*- K+ SVS;
# PR LHCb 4/07/04 split in KS/KL
0.0000000 anti-K*0 K0 SVS;
0.0000020 anti-K*0 K_S0 SVS;
0.0000020 anti-K*0 K_L0 SVS;
#
0.0000580 eta' eta' PHSP;
0.0000250 eta' eta PHSP;
0.0000040 eta eta PHSP;
### Already included above 0.0000200 phi eta SVS;
### Already included above 0.0000100 phi eta' SVS;
#
#next comes stuff from Ali,Kramer,Lue PRD58, 094009 FOR NC=3
0.00000007 anti-K0 eta' PHSP;
0.00000023 anti-K0 eta PHSP;
0.000000021 anti-K*0 eta' SVS;
0.00000007 anti-K*0 eta SVS;
#
#next comes stuff from Ali,Kramer,Lue PRD58, 094009 FOR NC=3
# for vector-vector final states
0.000020 rho+ K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0000008 rho0 anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.000000005 omega anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.000006 K*- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
# PR LHCb Update BR
0.000004 anti-K*0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.000014000 phi phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000000004 phi anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
# decays that go via b->d penguins
#### Already included above 0.0000004 phi anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#PR LHCb add Bs -> mu+ mu-
0.0000000035 mu+ mu- PHSP;
#PR LHCb 04/08/2004 add Bs -> tau+ tau- (BR not to take too seriously)
0.0000000020 tau+ tau- PHSP;
# PR LHCb 04/05/2004 : add Bs -> phi gamma
0.000057000 phi gamma SVP_HELAMP 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
# PR LHCb 04/08/2004 : add Bs -> phi mu mu, phi e e
0.0000023 phi e+ e- BTOSLLALI;
0.0000023 phi mu+ mu- BTOSLLALI;
# PR LHCb 16 Apr 2004 : add Bs -> gamma gamma
0.0000005 gamma gamma PHSP;
#--------------
# 257.122e-6 for all the charmless hadronic
#
0.000150000 D_s+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
# whb: QQ B_c included- Near end of File
#Decay B_c-
#CHANNEL 0 0.0700 TAU- NUTB
#CHANNEL 1 0.1100 NUEB E- *CC*
#CHANNEL 1 0.1100 NUMB MU- *CC*
#CHANNEL 1 0.0300 NUTB TAU- *CC*
#CHANNEL 0 0.3400 *DU* *CC*
#CHANNEL 0 0.0700 *SC* *CC*
#CHANNEL 0 0.2700 *SC*
#0.0700 tau- anti-nu_tau PHSP;
#0.1100 anti-nu_e e- *CC* Simpleleptonic;
#0.1100 anti-nu_mu mu- *CC* Simple leptonic;
#0.0300 anti-nu_tau tau- *CC* Simple leptonic;
#0.3400 *DU* *CC* PHSP;
#0.0700 *SC* *CC* PHSP;
#0.2700 *SC* PHSP;
#Enddecay
#
#Decay B_c+
#CHANNEL 0 0.0700 TAU+ NUT
#CHANNEL 1 0.1100 NUE E+ *CC*
#CHANNEL 1 0.1100 NUM MU+ *CC*
#CHANNEL 1 0.0300 NUT TAU+ *CC*
#CHANNEL 0 0.3400 *UD* *CC*
#CHANNEL 0 0.0700 *CS* *CC*
#CHANNEL 0 0.2700 *CS*
#0.0700 tau+ nu_tau PHSP;
#0.1100 nu_e E+ *CC* Simple leptonic;
#0.1100 nu_mu mu+ *CC* Simple leptonic;
#0.0300 nu_tau tau+ *CC* Simple leptonic;
#0.3400 *UD* *CC* PHSP;
#0.0700 *CS* *CC* PHSP;
#0.2700 *CS* PHSP;
#Enddecay
#
# Updated to PDG 2008
#
Decay tau-
-0.154002925 e- anti-nu_e nu_tau PHOTOS TAULNUNU; #[Reconstructed PDG2011]
-0.170000000 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; #[Reconstructed PDG2011]
+0.154002925 e- anti-nu_e nu_tau FSR TAULNUNU; #[Reconstructed PDG2011]
+0.170000000 mu- anti-nu_mu nu_tau FSR TAULNUNU; #[Reconstructed PDG2011]
0.109100000 pi- nu_tau TAUSCALARNU; #[Reconstructed PDG2011]
0.006960000 K- nu_tau TAUSCALARNU; #[Reconstructed PDG2011]
0.255100000 pi- pi0 nu_tau TAUHADNU -0.108 0.775 0.149 1.364 0.400; #[Reconstructed PDG2011]
0.001124109 nu_tau gamma pi- pi0 PYTHIA 41; #[Reconstructed PDG2011]
0.079301562 pi0 pi0 pi- nu_tau TAUHADNU -0.108 0.775 0.149 1.364 0.400 1.23 0.4; #[Reconstructed PDG2011]
0.000385656 nu_tau K- pi0 pi0 PYTHIA 41; #[Reconstructed PDG2011]
0.008508640 nu_tau pi- pi0 pi0 pi0 PYTHIA 41; #[Reconstructed PDG2011]
0.000864699 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
#0.2515 rho- nu_tau TAUVECTORNU;
#0.1790 a_1- nu_tau TAUVECTORNU;
# Modes with K0s
#
0.000319939 nu_tau pi- anti-K0 PYTHIA 41; #[Reconstructed PDG2011]
0.001590000 nu_tau K- K0 PYTHIA 41; #[Reconstructed PDG2011]
0.001700000 nu_tau K0 pi- anti-K0 PYTHIA 41; #[Reconstructed PDG2011]
0.001590000 nu_tau K- pi0 K0 PYTHIA 41; #[Reconstructed PDG2011]
0.004000000 nu_tau pi- anti-K0 pi0 PYTHIA 41; #[Reconstructed PDG2011]
# 3 Charged Particles
#
0.093200000 pi- pi- pi+ nu_tau TAUHADNU -0.108 0.775 0.149 1.364 0.400 1.23 0.4; #[Reconstructed PDG2011]
0.046100000 nu_tau pi- pi+ pi- pi0 PYTHIA 41; #[Reconstructed PDG2011]
0.000501526 nu_tau pi- pi- pi+ pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.000155646 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.003420000 nu_tau K- pi+ pi- PYTHIA 41; #[Reconstructed PDG2011]
0.001360000 nu_tau K- pi+ pi- pi0 PYTHIA 41; #[Reconstructed PDG2011]
0.001400000 nu_tau K- pi- K+ PYTHIA 41; #[Reconstructed PDG2011]
0.000015800 nu_tau K- K+ K- PYTHIA 41; #[Reconstructed PDG2011]
# 5 Charged Particles
#
0.000700406 nu_tau pi- pi- pi- pi+ pi+ PHSP; #[Reconstructed PDG2011]
0.000129705 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; #[Reconstructed PDG2011]
# Misc other modes
#
0.012000000 K*- nu_tau TAUVECTORNU; #[Reconstructed PDG2011]
0.001390000 nu_tau eta pi- pi0 PYTHIA 41; #[Reconstructed PDG2011]
0.003199387 nu_tau pi- omega pi0 PYTHIA 41; #[Reconstructed PDG2011]
0.000410000 nu_tau K- omega PYTHIA 41; #[Reconstructed PDG2011]
0.002200000 anti-K*0 pi- nu_tau PHSP; #[Reconstructed PDG2011]
0.002100000 K*0 K- nu_tau PHSP; #[Reconstructed PDG2011]
0.000034000 phi pi- nu_tau PHSP; #[Reconstructed PDG2011]
0.000037000 phi K- nu_tau PHSP; #[Reconstructed PDG2011]
0.003600000 mu- anti-nu_mu nu_tau gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.017500000 e- anti-nu_e nu_tau gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.004290000 K- pi0 nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002200000 anti-K0 rho- nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000260000 pi- anti-K0 pi0 pi0 nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000310000 pi- K0 anti-K0 pi0 nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000061000 K- K+ pi- pi0 nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000028000 e- e- e+ anti-nu_e nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.004700000 K_1- nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001700000 K'_1- nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001500000 K'*- nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000150000 eta pi- pi0 pi0 nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000161000 eta K- nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000138000 eta K*- nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000048000 eta K- pi0 nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000093000 eta anti-K0 pi- nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000360000 f_1 pi- nu_tau PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
CDecay tau+
#
# Vector Mesons Updated PDG 2008
#
Decay D*+
0.6770 D0 pi+ VSS;
0.3070 D+ pi0 VSS;
0.0160 D+ gamma VSP_PWAVE;
Enddecay
Decay D*-
0.6770 anti-D0 pi- VSS;
0.3070 D- pi0 VSS;
0.0160 D- gamma VSP_PWAVE;
Enddecay
Decay D*0
0.619000000 D0 pi0 VSS; #[Reconstructed PDG2011]
0.381000000 D0 gamma VSP_PWAVE; #[Reconstructed PDG2011]
Enddecay
Decay anti-D*0
0.6190 anti-D0 pi0 VSS;
0.3810 anti-D0 gamma VSP_PWAVE;
Enddecay
#
Decay D_s*+
0.942000000 D_s+ gamma VSP_PWAVE; #[Reconstructed PDG2011]
0.058000000 D_s+ pi0 VSS; #[Reconstructed PDG2011]
Enddecay
Decay D_s*-
0.942000000 D_s- gamma VSP_PWAVE; #[Reconstructed PDG2011]
0.058000000 D_s- pi0 VSS; #[Reconstructed PDG2011]
Enddecay
#
#
# D+ Meson
#
Decay D+
-0.055300000 anti-K*0 e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.088300000 anti-K0 e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002773020 anti-K_10 e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002927076 anti-K_2*0 e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.004050000 pi0 e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.001330000 eta e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000385142 eta' e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002200000 rho0 e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.001600000 omega e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.041000000 K- pi+ e+ nu_e PHOTOS PHSP; #[Reconstructed PDG2011]
-0.001078397 anti-K0 pi0 e+ nu_e PHOTOS PHSP; #[Reconstructed PDG2011]
-#
-0.055000000 anti-K*0 mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.094000000 anti-K0 mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002773020 anti-K_10 mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002927076 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.003312218 pi0 mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002002736 eta mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000385142 eta' mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002500000 rho0 mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002156793 omega mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.039000000 K- pi+ mu+ nu_mu PHOTOS PHSP; #[Reconstructed PDG2011]
-0.001078397 anti-K0 pi0 mu+ nu_mu PHOTOS PHSP; #[Reconstructed PDG2011]
-#
-#
-0.000382000 mu+ nu_mu PHOTOS SLN; #[Reconstructed PDG2011]
+0.055300000 anti-K*0 e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.088300000 anti-K0 e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.002773020 anti-K_10 e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.002927076 anti-K_2*0 e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.004050000 pi0 e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.001330000 eta e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.000385142 eta' e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.002200000 rho0 e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.001600000 omega e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.041000000 K- pi+ e+ nu_e FSR PHSP; #[Reconstructed PDG2011]
+0.001078397 anti-K0 pi0 e+ nu_e FSR PHSP; #[Reconstructed PDG2011]
+#
+0.055000000 anti-K*0 mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.094000000 anti-K0 mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002773020 anti-K_10 mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002927076 anti-K_2*0 mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.003312218 pi0 mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002002736 eta mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.000385142 eta' mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002500000 rho0 mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002156793 omega mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.039000000 K- pi+ mu+ nu_mu FSR PHSP; #[Reconstructed PDG2011]
+0.001078397 anti-K0 pi0 mu+ nu_mu FSR PHSP; #[Reconstructed PDG2011]
+#
+#
+0.000382000 mu+ nu_mu FSR SLN; #[Reconstructed PDG2011]
0.000770283 tau+ nu_tau SLN; #[Reconstructed PDG2011]
#
0.014900000 K_S0 pi+ PHSP; #[Reconstructed PDG2011]
0.014600000 K_L0 pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 pi+ PHSP; #[Reconstructed PDG2011]
#
0.025950843 a_1+ K_S0 SVS; #[Reconstructed PDG2011]
0.025950843 a_1+ K_L0 SVS; #[Reconstructed PDG2011]
0.000000000 a_1+ anti-K0 SVS; #[Reconstructed PDG2011]
#
0.027090862 anti-K'_10 pi+ SVS; #[Reconstructed PDG2011]
#0.0115 anti-K_0*0N pi+ PHSP;
0.013387523 anti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
#
# the Dalitz mode below includes K*bar(892)0 pi+,
# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances.
0.094000000 K- pi+ pi+ D_DALITZ; #[Reconstructed PDG2011]
# the Dalitz mode below includes K0bar rho+,
# and K*bar(892)0 pi+ resonances
0.069000000 K_S0 pi+ pi0 D_DALITZ; #[Reconstructed PDG2011]
0.051539652 K_L0 pi+ pi0 D_DALITZ; #[Reconstructed PDG2011]
0.000000000 anti-K0 pi+ pi0 D_DALITZ; #[Reconstructed PDG2011]
#0.0100 anti-K0 eta pi+ PHSP;
#
0.001247859 K_S0 rho0 pi+ PHSP; #[Reconstructed PDG2011]
0.001247859 K_L0 rho0 pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 rho0 pi+ PHSP; #[Reconstructed PDG2011]
#
0.003851416 anti-K0 omega pi+ PHSP; #[Reconstructed PDG2011]
0.007032686 K- rho+ pi+ PHSP; #[Reconstructed PDG2011]
0.009274210 K*- pi+ pi+ PHSP; #[Reconstructed PDG2011]
0.047187552 anti-K*0 pi0 pi+ PHSP; #[Reconstructed PDG2011]
#0.0100 anti-K*0 eta pi+ PHSP;
0.001101505 anti-K*0 rho0 pi+ PHSP; #[Reconstructed PDG2011]
0.003851416 anti-K*0 omega pi+ PHSP; #[Reconstructed PDG2011]
#0.0100 K*- rho+ pi+ PHSP;
#
0.008473116 K- pi+ pi+ pi0 PHSP; #[Reconstructed PDG2011]
#
0.002472609 K_S0 pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002472609 K_L0 pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
#
#0.0188 anti-K0 pi+ pi0 pi0 PHSP;
0.005700000 K- pi+ pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.003851416 K- pi+ pi+ pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.006701464 anti-K0 pi+ pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.002695991 anti-K0 pi+ pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.004600000 K_S0 K_S0 K+ PHSP; #[Reconstructed PDG2011]
0.003111944 K_L0 K_L0 K+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 anti-K0 K+ PHSP; #[Reconstructed PDG2011]
#
0.004660214 phi pi+ SVS; #[Reconstructed PDG2011]
0.023000000 phi pi+ pi0 PHSP; #[Reconstructed PDG2011]
#
0.002860000 K_S0 K+ PHSP; #[Reconstructed PDG2011]
0.002195307 K_L0 K+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K+ PHSP; #[Reconstructed PDG2011]
#
0.002179902 anti-K*0 K+ SVS; #[Reconstructed PDG2011]
#
0.016000000 K*+ K_S0 SVS; #[Reconstructed PDG2011]
0.011145999 K*+ K_L0 SVS; #[Reconstructed PDG2011]
0.000000000 K*+ anti-K0 SVS; #[Reconstructed PDG2011]
#
#0.0180 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.002826940 K+ K- pi+ PHSP; #[Reconstructed PDG2011]
0.000770283 K+ anti-K0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K0 pi+ PHSP; #[Reconstructed PDG2011]
0.000770283 K*+ K- pi+ PHSP; #[Reconstructed PDG2011]
0.000770283 K+ K*- pi+ PHSP; #[Reconstructed PDG2011]
0.000770283 K*+ anti-K0 pi0 PHSP; #[Reconstructed PDG2011]
0.000770283 K+ anti-K*0 pi0 PHSP; #[Reconstructed PDG2011]
0.000770283 anti-K*0 K0 pi+ PHSP; #[Reconstructed PDG2011]
0.000770283 anti-K0 K*0 pi+ PHSP; #[Reconstructed PDG2011]
#
0.001260000 pi0 pi+ PHSP; #[Reconstructed PDG2011]
0.000830000 rho0 pi+ SVS; #[Reconstructed PDG2011]
0.002440000 pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.004700000 pi+ pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.011600000 pi+ pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.003851416 pi+ pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.003430000 eta pi+ PHSP; #[Reconstructed PDG2011]
0.004400000 eta' pi+ PHSP; #[Reconstructed PDG2011]
0.001380000 eta pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.002310850 eta pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001540566 eta pi+ pi0 pi0 PHSP; #[Reconstructed PDG2011]
#lange jul22,2002
0.001660000 pi+ pi+ pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
#
# March 2009 New Modes
0.009300000 anti-K*0 a_1+ PHSP; #[Reconstructed PDG2011]
0.010545178 K+ K- pi+ pi0 PHSP; #[Reconstructed PDG2011]
#
0.001740000 K+ K_S0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001270967 K+ K_L0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 K+ anti-K0 pi+ pi- PHSP; #[Reconstructed PDG2011]
#
0.002380000 K_S0 K- pi+ pi+ PHSP; #[Reconstructed PDG2011]
0.001756246 K_L0 K- pi+ pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 K0 K- pi+ pi+ PHSP; #[Reconstructed PDG2011]
#
0.000230000 K+ K- pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
#
0.000240000 K+ K- K_S0 pi+ PHSP; #[Reconstructed PDG2011]
0.000161759 K+ K- K_L0 pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 K+ K- anti-K0 pi+ PHSP; #[Reconstructed PDG2011]
# Doubly Cabibbo suppressed modes
0.000237000 K+ pi0 PHSP; #[Reconstructed PDG2011]
0.000332000 K+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000089000 K+ K+ K- PHSP; #[Reconstructed PDG2011]
0.001720000 K- rho0 pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001600000 eta' pi+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000210000 K+ rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
#
Decay D-
-0.055300000 K*0 e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.088300000 K0 e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002773020 K_10 e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002927076 K_2*0 e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.004050000 pi0 e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.001330000 eta e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000385142 eta' e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002200000 rho0 e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.001600000 omega e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.041000000 K+ pi- e- anti-nu_e PHOTOS PHSP; #[Reconstructed PDG2011]
-0.001078397 K0 pi0 e- anti-nu_e PHOTOS PHSP; #[Reconstructed PDG2011]
-#
-0.055000000 K*0 mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.094000000 K0 mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002773020 K_10 mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002927076 K_2*0 mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.003312218 pi0 mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002002736 eta mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000385142 eta' mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002500000 rho0 mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002156793 omega mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.039000000 K+ pi- mu- anti-nu_mu PHOTOS PHSP; #[Reconstructed PDG2011]
-0.001078397 K0 pi0 mu- anti-nu_mu PHOTOS PHSP; #[Reconstructed PDG2011]
-#
-0.000382000 mu- anti-nu_mu PHOTOS SLN; #[Reconstructed PDG2011]
+0.055300000 K*0 e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.088300000 K0 e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.002773020 K_10 e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.002927076 K_2*0 e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.004050000 pi0 e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.001330000 eta e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.000385142 eta' e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.002200000 rho0 e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.001600000 omega e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.041000000 K+ pi- e- anti-nu_e FSR PHSP; #[Reconstructed PDG2011]
+0.001078397 K0 pi0 e- anti-nu_e FSR PHSP; #[Reconstructed PDG2011]
+#
+0.055000000 K*0 mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.094000000 K0 mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002773020 K_10 mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002927076 K_2*0 mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.003312218 pi0 mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002002736 eta mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.000385142 eta' mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002500000 rho0 mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002156793 omega mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.039000000 K+ pi- mu- anti-nu_mu FSR PHSP; #[Reconstructed PDG2011]
+0.001078397 K0 pi0 mu- anti-nu_mu FSR PHSP; #[Reconstructed PDG2011]
+#
+0.000382000 mu- anti-nu_mu FSR SLN; #[Reconstructed PDG2011]
0.000770283 tau- anti-nu_tau SLN; #[Reconstructed PDG2011]
#
0.014900000 K_S0 pi- PHSP; #[Reconstructed PDG2011]
0.014600000 K_L0 pi- PHSP; #[Reconstructed PDG2011]
0.000000000 K0 pi- PHSP; #[Reconstructed PDG2011]
#
0.025950843 a_1- K_S0 SVS; #[Reconstructed PDG2011]
0.025950843 a_1- K_L0 SVS; #[Reconstructed PDG2011]
0.000000000 a_1- K0 SVS; #[Reconstructed PDG2011]
#
0.027090862 K'_10 pi- SVS; #[Reconstructed PDG2011]
#0.0115 K_0*0N pi- PHSP;
0.013387523 K*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
#
# the Dalitz mode below includes K*(892)0 pi-, K*(1430)0 pi-, and K*(1680)0 pi- resonances.
0.094000000 K+ pi- pi- D_DALITZ; #[Reconstructed PDG2011]
# the Dalitz mode below includes K0 rho-, and K*(892)0 pi- resonances.
0.069000000 K_S0 pi- pi0 D_DALITZ; #[Reconstructed PDG2011]
0.051539652 K_L0 pi- pi0 D_DALITZ; #[Reconstructed PDG2011]
0.000000000 K0 pi- pi0 D_DALITZ; #[Reconstructed PDG2011]
#
#0.0100 K0 eta pi- PHSP;
0.001247859 K_S0 rho0 pi- PHSP; #[Reconstructed PDG2011]
0.001247859 K_L0 rho0 pi- PHSP; #[Reconstructed PDG2011]
0.000000000 K0 rho0 pi- PHSP; #[Reconstructed PDG2011]
#
0.003851416 K0 omega pi- PHSP; #[Reconstructed PDG2011]
0.007032686 K+ rho- pi- PHSP; #[Reconstructed PDG2011]
0.009274210 K*+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.047187552 K*0 pi0 pi- PHSP; #[Reconstructed PDG2011]
#0.0100 K*0 eta pi- PHSP;
0.001101505 K*0 rho0 pi- PHSP; #[Reconstructed PDG2011]
0.003851416 K*0 omega pi- PHSP; #[Reconstructed PDG2011]
#0.0100 K*+ rho- pi- PHSP;
#
0.008473116 K+ pi- pi- pi0 PHSP; #[Reconstructed PDG2011]
#
0.002472609 K_S0 pi- pi- pi+ PHSP; #[Reconstructed PDG2011]
0.002472609 K_L0 pi- pi- pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 K0 pi- pi- pi+ PHSP; #[Reconstructed PDG2011]
#
#0.0188 K0 pi- pi0 pi0 PHSP;
0.005700000 K+ pi- pi- pi- pi+ PHSP; #[Reconstructed PDG2011]
0.003851416 K+ pi- pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.006701464 K0 pi- pi- pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.002695991 K0 pi- pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.004600000 K_S0 K_S0 K- PHSP; #[Reconstructed PDG2011]
0.003111944 K_L0 K_L0 K- PHSP; #[Reconstructed PDG2011]
0.000000000 K0 K0 K- PHSP; #[Reconstructed PDG2011]
#
0.004660214 phi pi- SVS; #[Reconstructed PDG2011]
0.023000000 phi pi- pi0 PHSP; #[Reconstructed PDG2011]
#
0.002860000 K_S0 K- PHSP; #[Reconstructed PDG2011]
0.002195307 K_L0 K- PHSP; #[Reconstructed PDG2011]
0.000000000 K0 K- PHSP; #[Reconstructed PDG2011]
#
0.002179902 K*0 K- SVS; #[Reconstructed PDG2011]
#
0.016000000 K*- K_S0 SVS; #[Reconstructed PDG2011]
0.011145999 K*- K_L0 SVS; #[Reconstructed PDG2011]
0.000000000 K*- K0 SVS; #[Reconstructed PDG2011]
#
#0.0180 K*0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.002826940 K- K+ pi- PHSP; #[Reconstructed PDG2011]
0.000770283 K- K0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K0 pi- PHSP; #[Reconstructed PDG2011]
0.000770283 K*- K+ pi- PHSP; #[Reconstructed PDG2011]
0.000770283 K- K*+ pi- PHSP; #[Reconstructed PDG2011]
0.000770283 K*- K0 pi0 PHSP; #[Reconstructed PDG2011]
0.000770283 K- K*0 pi0 PHSP; #[Reconstructed PDG2011]
0.000770283 K*0 anti-K0 pi- PHSP; #[Reconstructed PDG2011]
0.000770283 K0 anti-K*0 pi- PHSP; #[Reconstructed PDG2011]
#
0.001260000 pi0 pi- PHSP; #[Reconstructed PDG2011]
0.000830000 rho0 pi- SVS; #[Reconstructed PDG2011]
0.002440000 pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.004700000 pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.011600000 pi- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.003851416 pi- pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.003430000 eta pi- PHSP; #[Reconstructed PDG2011]
0.004400000 eta' pi- PHSP; #[Reconstructed PDG2011]
0.001380000 eta pi- pi0 PHSP; #[Reconstructed PDG2011]
0.002310850 eta pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001540566 eta pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
#lange jul22,2002
0.001660000 pi+ pi- pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
#
# March 2009 New Modes
0.009300000 K*0 a_1- PHSP; #[Reconstructed PDG2011]
0.010545178 K+ K- pi- pi0 PHSP; #[Reconstructed PDG2011]
#
0.001740000 K- K_S0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001270967 K- K_L0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 K- K0 pi+ pi- PHSP; #[Reconstructed PDG2011]
#
0.002380000 K_S0 K+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.001756246 K_L0 K+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K+ pi- pi- PHSP; #[Reconstructed PDG2011]
#
0.000230000 K+ K- pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
#
0.000240000 K+ K- K_S0 pi- PHSP; #[Reconstructed PDG2011]
0.000161759 K+ K- K_L0 pi- PHSP; #[Reconstructed PDG2011]
0.000000000 K+ K- K0 pi- PHSP; #[Reconstructed PDG2011]
# Doubly Cabibbo suppressed modes
0.000237000 K- pi0 PHSP; #[Reconstructed PDG2011]
0.000332000 K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000089000 K- K+ K- PHSP; #[Reconstructed PDG2011]
0.001720000 K+ rho0 pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001600000 eta' pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000210000 K- rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay K*BR
1.0000 anti-K0 pi0 VSS;
Enddecay
#
#
Decay D0
# updated according to suggestions by P. Roudeau,
# using PDG2004 measurements and imposing the equality
# of sl partial widths for D+ and D0.
# Include additional decay anti-K0 pi- e+ nu_e , K- pi0 e+ nu_e.
#
-0.021700000 K*- e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.035500000 K- e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000760000 K_1- e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.001374504 K_2*- e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002890000 pi- e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.001900000 rho- e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.027000000 anti-K0 pi- e+ nu_e PHOTOS PHSP; #[Reconstructed PDG2011]
-0.016000000 K- pi0 e+ nu_e PHOTOS PHSP; #[Reconstructed PDG2011]
-#
-0.019800000 K*- mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.033100000 K- mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000815539 K_1- mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.001374504 K_2*- mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002370000 pi- mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002015940 rho- mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.001007970 anti-K0 pi- mu+ nu_mu PHOTOS PHSP; #[Reconstructed PDG2011]
-0.000549802 K- pi0 mu+ nu_mu PHOTOS PHSP; #[Reconstructed PDG2011]
+0.021700000 K*- e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.035500000 K- e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.000760000 K_1- e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.001374504 K_2*- e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.002890000 pi- e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.001900000 rho- e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.027000000 anti-K0 pi- e+ nu_e FSR PHSP; #[Reconstructed PDG2011]
+0.016000000 K- pi0 e+ nu_e FSR PHSP; #[Reconstructed PDG2011]
+#
+0.019800000 K*- mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.033100000 K- mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.000815539 K_1- mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.001374504 K_2*- mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002370000 pi- mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002015940 rho- mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.001007970 anti-K0 pi- mu+ nu_mu FSR PHSP; #[Reconstructed PDG2011]
+0.000549802 K- pi0 mu+ nu_mu FSR PHSP; #[Reconstructed PDG2011]
#
0.038900000 K- pi+ PHSP; #[Reconstructed PDG2011]
#
0.012200000 K_S0 pi0 PHSP; #[Reconstructed PDG2011]
0.010000000 K_L0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.004290000 K_S0 eta PHSP; #[Reconstructed PDG2011]
0.003802795 K_L0 eta PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 eta PHSP; #[Reconstructed PDG2011]
#
0.009300000 K_S0 eta' PHSP; #[Reconstructed PDG2011]
0.008980094 K_L0 eta' PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 eta' PHSP; #[Reconstructed PDG2011]
#
0.011100000 omega K_S0 SVS; #[Reconstructed PDG2011]
0.010904400 omega K_L0 SVS; #[Reconstructed PDG2011]
0.000000000 omega anti-K0 SVS; #[Reconstructed PDG2011]
#
0.001603588 anti-K*0 eta SVS; #[Reconstructed PDG2011]
0.000916336 anti-K*0 eta' SVS; #[Reconstructed PDG2011]
0.078000000 a_1+ K- SVS; #[Reconstructed PDG2011]
0.067625607 K*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.015800000 anti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.011000000 anti-K*0 omega SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
# the Dalitz mode below includes K*bar(892)0 pi0,
# K*(892)- pi+, and K- rho(770)+ resonances
0.139000000 K- pi+ pi0 D_DALITZ; #[Reconstructed PDG2011]
0.006634274 K*BR pi0 SVS; #[Reconstructed PDG2011]
0.016000000 K_1- pi+ SVS; #[Reconstructed PDG2011]
0.006505987 anti-K_10 pi0 SVS; #[Reconstructed PDG2011]
#
# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances
# LHCb PR 09 Apr 2004 split into KS/KL
0.029400000 K_S0 pi+ pi- D_DALITZ; #[Reconstructed PDG2011]
0.027856619 K_L0 pi+ pi- D_DALITZ; #[Reconstructed PDG2011]
0.000000000 anti-K0 pi+ pi- D_DALITZ; #[Reconstructed PDG2011]
#
0.008300000 K_S0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.004425904 K_L0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.024000000 anti-K*0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.010629499 anti-K*0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.009163361 K*- pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.006231086 K- rho+ pi0 PHSP; #[Reconstructed PDG2011]
0.005305586 K- pi+ rho0 PHSP; #[Reconstructed PDG2011]
0.019000000 K- pi+ omega PHSP; #[Reconstructed PDG2011]
0.009163361 K- pi+ eta PHSP; #[Reconstructed PDG2011]
0.007500000 K- pi+ eta' PHSP; #[Reconstructed PDG2011]
0.013300000 K- pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
#
0.054000000 K_S0 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.010079698 K_L0 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
#
# K- pi+ pi0 pi0 is (15 +/- 5)% in the PDG, but we decrease it to
# have everything add to 1 and get enough neutral kaons:
#0.02575 K- pi+ pi0 pi0 PHSP;
#
#0.0143 anti-K0 pi0 pi0 pi0 PHSP;
0.000000000 K- pi+ pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.003482077 K- pi+ pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.002800000 K_S0 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002684865 K_L0 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
#
#0.0638 anti-K0 pi+ pi- pi0 pi0 PHSP;
#0.0192 anti-K0 pi+ pi- pi0 pi0 pi0 PHSP;
#
0.002034266 phi K_S0 SVS; #[Reconstructed PDG2011]
0.002034266 phi K_L0 SVS; #[Reconstructed PDG2011]
0.000000000 phi anti-K0 SVS; #[Reconstructed PDG2011]
#
0.004650000 K_S0 K+ K- PHSP; #[Reconstructed PDG2011]
0.002785662 K_L0 K+ K- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K+ K- PHSP; #[Reconstructed PDG2011]
#
0.000950000 K_S0 K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.003940000 K+ K- PHSP; #[Reconstructed PDG2011]
0.000190000 K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.000366534 K_L0 K_L0 PHSP; #[Reconstructed PDG2011]
0.000366534 K*0 anti-K0 SVS; #[Reconstructed PDG2011]
#
0.000091634 anti-K*0 K_S0 SVS; #[Reconstructed PDG2011]
0.000091634 anti-K*0 K_L0 SVS; #[Reconstructed PDG2011]
0.000000000 anti-K*0 K0 SVS; #[Reconstructed PDG2011]
#
0.000485658 K*- K+ SVS; #[Reconstructed PDG2011]
0.001365341 K*+ K- SVS; #[Reconstructed PDG2011]
0.001282871 anti-K*0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000714742 phi pi0 SVS; #[Reconstructed PDG2011]
0.001007970 phi pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002430000 K+ K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002749008 K+ K- pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.001280000 K_S0 K_S0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001255381 K_L0 K_L0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K0 pi+ pi- PHSP; #[Reconstructed PDG2011]
#
0.001374504 anti-K0 K0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.001397000 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000800000 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.000640000 eta pi0 PHSP; #[Reconstructed PDG2011]
0.000810000 eta' pi0 PHSP; #[Reconstructed PDG2011]
0.001670000 eta eta PHSP; #[Reconstructed PDG2011]
0.009800000 rho+ pi- SVS; #[Reconstructed PDG2011]
0.004970000 rho- pi+ SVS; #[Reconstructed PDG2011]
0.003730000 rho0 pi0 SVS; #[Reconstructed PDG2011]
0.001209564 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000091634 pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.005620000 pi+ pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.009360000 pi+ pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.001510000 pi+ pi- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.005498017 pi+ pi- pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.000420000 pi+ pi- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
#
# Doubly Cabibbo suppressed decays:
0.000137450 pi- K+ PHSP; #[Reconstructed PDG2011]
0.000128287 pi- K*+ PHSP; #[Reconstructed PDG2011]
0.000274901 pi- K+ pi0 PHSP; #[Reconstructed PDG2011]
0.000247411 K+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
# PR LHCb - 19 Apr. 2004 Add D0 -> mu+ mu-
0.000000000 mu+ mu- PHSP; #[Reconstructed PDG2011]
#
# March 2009 New Modes
0.000140000 phi eta PHSP; #[Reconstructed PDG2011]
0.019000000 anti-K*0 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000220000 K- pi+ pi- pi+ pi- pi+ PHSP; #[Reconstructed PDG2011]
0.000641435 K+ K- pi0 PHSP; #[Reconstructed PDG2011]
0.003100000 K+ K- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000221000 K+ K- K- pi+ PHSP; #[Reconstructed PDG2011]
#
0.005600000 K_S0 eta pi0 PHSP; #[Reconstructed PDG2011]
0.003665345 K_L0 eta pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 eta pi0 PHSP; #[Reconstructed PDG2011]
#
0.002600000 K_S0 K+ pi- PHSP; #[Reconstructed PDG2011]
0.002382474 K_L0 K+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K+ pi- PHSP; #[Reconstructed PDG2011]
#
0.003500000 K_S0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.003344627 K_L0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 K0 K- pi+ PHSP; #[Reconstructed PDG2011]
#
0.000310000 K_S0 K_S0 K+ pi- PHSP; #[Reconstructed PDG2011]
0.000293228 K_L0 K_L0 K+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K0 K+ pi- PHSP; #[Reconstructed PDG2011]
#
0.000310000 K_S0 K_S0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.000293228 K_L0 K_L0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 K- pi+ pi- e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001820000 rho0 rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001090000 eta pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001600000 omega pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000450000 eta' pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001260000 eta eta' PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000027000 phi gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000328000 anti-K*0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
#
Decay K*0R
1.0000 K0 pi0 VSS;
Enddecay
#
#
Decay anti-D0
-0.021700000 K*+ e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.035500000 K+ e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000760000 K_1+ e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.001380270 K_2*+ e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002890000 pi+ e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.001900000 rho+ e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.027000000 K0 pi+ e- anti-nu_e PHOTOS PHSP; #[Reconstructed PDG2011]
-0.016000000 K+ pi0 e- anti-nu_e PHOTOS PHSP; #[Reconstructed PDG2011]
-#
-0.019800000 K*+ mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.033100000 K+ mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000818960 K_1+ mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.001380270 K_2*+ mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002370000 pi+ mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002024397 rho+ mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.001012198 K0 pi+ mu- anti-nu_mu PHOTOS PHSP; #[Reconstructed PDG2011]
-0.000552108 K+ pi0 mu- anti-nu_mu PHOTOS PHSP; #[Reconstructed PDG2011]
+0.021700000 K*+ e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.035500000 K+ e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.000760000 K_1+ e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.001380270 K_2*+ e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.002890000 pi+ e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.001900000 rho+ e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.027000000 K0 pi+ e- anti-nu_e FSR PHSP; #[Reconstructed PDG2011]
+0.016000000 K+ pi0 e- anti-nu_e FSR PHSP; #[Reconstructed PDG2011]
+#
+0.019800000 K*+ mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.033100000 K+ mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.000818960 K_1+ mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.001380270 K_2*+ mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002370000 pi+ mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002024397 rho+ mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.001012198 K0 pi+ mu- anti-nu_mu FSR PHSP; #[Reconstructed PDG2011]
+0.000552108 K+ pi0 mu- anti-nu_mu FSR PHSP; #[Reconstructed PDG2011]
#
0.038900000 K+ pi- PHSP; #[Reconstructed PDG2011]
#
0.012200000 K_S0 pi0 PHSP; #[Reconstructed PDG2011]
0.010000000 K_L0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 K0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.004290000 K_S0 eta PHSP; #[Reconstructed PDG2011]
0.003818748 K_L0 eta PHSP; #[Reconstructed PDG2011]
0.000000000 K0 eta PHSP; #[Reconstructed PDG2011]
#
0.009300000 K_S0 eta' PHSP; #[Reconstructed PDG2011]
0.009017767 K_L0 eta' PHSP; #[Reconstructed PDG2011]
0.000000000 K0 eta' PHSP; #[Reconstructed PDG2011]
#
0.011100000 omega K_S0 SVS; #[Reconstructed PDG2011]
0.010950146 omega K_L0 SVS; #[Reconstructed PDG2011]
0.000000000 omega K0 SVS; #[Reconstructed PDG2011]
#
0.001610316 K*0 eta SVS; #[Reconstructed PDG2011]
0.000920180 K*0 eta' SVS; #[Reconstructed PDG2011]
0.078000000 a_1- K+ SVS; #[Reconstructed PDG2011]
0.067909308 K*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.015800000 K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.011000000 K*0 omega SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
# the Dalitz mode below includes K*(892)0 pi0, K*(892)+ pi-, and K+ rho(770)- resonances
0.139000000 K+ pi- pi0 D_DALITZ; #[Reconstructed PDG2011]
0.006662106 K*0R pi0 SVS; #[Reconstructed PDG2011]
0.016000000 K_1+ pi- SVS; #[Reconstructed PDG2011]
0.006533280 K_10 pi0 SVS; #[Reconstructed PDG2011]
# the Dalitz mode below includes K*(892)+ pi- and K0 rho(770)0 resonances
# LHCb PR 09 Apr 2004, split into KS/KL
0.000000000 K0 pi+ pi- D_DALITZ; #[Reconstructed PDG2011]
0.029400000 K_S0 pi+ pi- D_DALITZ; #[Reconstructed PDG2011]
0.027973482 K_L0 pi+ pi- D_DALITZ; #[Reconstructed PDG2011]
#
0.008300000 K_S0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.004444471 K_L0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 K0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.024000000 K*0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.010674092 K*0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.009201803 K*+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.006257226 K+ rho- pi0 PHSP; #[Reconstructed PDG2011]
0.005327844 K+ pi- rho0 PHSP; #[Reconstructed PDG2011]
0.019000000 K+ pi- omega PHSP; #[Reconstructed PDG2011]
0.009201803 K+ pi- eta PHSP; #[Reconstructed PDG2011]
0.007500000 K+ pi- eta' PHSP; #[Reconstructed PDG2011]
0.013300000 K+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
#
0.054000000 K_S0 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.010121984 K_L0 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 K0 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
#
# K+ pi- pi0 pi0 is (15 +/- 5)% in the PDG, but we decrease it to
# have everything add to 1 and get enough neutral kaons:
#0.02575 K+ pi- pi0 pi0 PHSP;
#
#0.0143 K0 pi0 pi0 pi0 PHSP;
0.000000000 K+ pi- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.003496685 K+ pi- pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.002800000 K_S0 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002696128 K_L0 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 K0 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
#
#0.0638 K0 pi- pi+ pi0 pi0 PHSP;
#0.0192 K0 pi- pi+ pi0 pi0 pi0 PHSP;
#
0.002042800 phi K_S0 SVS; #[Reconstructed PDG2011]
0.002042800 phi K_L0 SVS; #[Reconstructed PDG2011]
0.000000000 phi K0 SVS; #[Reconstructed PDG2011]
#
0.004650000 K_S0 K+ K- PHSP; #[Reconstructed PDG2011]
0.002797348 K_L0 K+ K- PHSP; #[Reconstructed PDG2011]
0.000000000 K0 K+ K- PHSP; #[Reconstructed PDG2011]
#
0.000950000 K_S0 K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.003940000 K+ K- PHSP; #[Reconstructed PDG2011]
0.000190000 K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.000368072 K_L0 K_L0 PHSP; #[Reconstructed PDG2011]
0.000368072 anti-K*0 K0 SVS; #[Reconstructed PDG2011]
#
0.000092018 K*0 K_S0 SVS; #[Reconstructed PDG2011]
0.000092018 K*0 K_L0 SVS; #[Reconstructed PDG2011]
0.000000000 K*0 anti-K0 SVS; #[Reconstructed PDG2011]
#
0.000487696 K*+ K- SVS; #[Reconstructed PDG2011]
0.001371069 K*- K+ SVS; #[Reconstructed PDG2011]
0.001288252 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.000717741 phi pi0 SVS; #[Reconstructed PDG2011]
0.001012198 phi pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002430000 K+ K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002760541 K+ K- pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.001280000 K_S0 K_S0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001260647 K_L0 K_L0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K0 pi+ pi- PHSP; #[Reconstructed PDG2011]
#
0.001380270 anti-K0 K0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.001397000 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000800000 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.000640000 eta pi0 PHSP; #[Reconstructed PDG2011]
0.000810000 eta' pi0 PHSP; #[Reconstructed PDG2011]
0.001670000 eta eta PHSP; #[Reconstructed PDG2011]
0.009128189 rho+ pi- SVS; #[Reconstructed PDG2011]
0.004637709 rho- pi+ SVS; #[Reconstructed PDG2011]
0.003730000 rho0 pi0 SVS; #[Reconstructed PDG2011]
0.001214638 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000092018 pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.005620000 pi+ pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.009360000 pi+ pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.001510000 pi+ pi- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.005521082 pi+ pi- pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.000420000 pi+ pi- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
#
# Doubly Cabibbo suppressed decays:
0.000138027 pi+ K- PHSP; #[Reconstructed PDG2011]
0.000128825 pi+ K*- PHSP; #[Reconstructed PDG2011]
0.000276054 pi+ K- pi0 PHSP; #[Reconstructed PDG2011]
0.000248449 K- pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
# PR LHCb - 19 Apr. 2004 Add anti-D0 -> mu+ mu-
0.000000000 mu- mu+ PHSP; #[Reconstructed PDG2011]
#
# March 2009 New Modes
0.000140000 phi eta PHSP; #[Reconstructed PDG2011]
0.019000000 K*0 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000220000 K+ pi- pi- pi+ pi- pi+ PHSP; #[Reconstructed PDG2011]
0.000644126 K+ K- pi0 PHSP; #[Reconstructed PDG2011]
0.003100000 K+ K- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000221000 K+ K+ K- pi- PHSP; #[Reconstructed PDG2011]
#
0.005600000 K_S0 eta pi0 PHSP; #[Reconstructed PDG2011]
0.003680721 K_L0 eta pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 K0 eta pi0 PHSP; #[Reconstructed PDG2011]
#
0.002600000 K_S0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.002392469 K_L0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 K0 K- pi+ PHSP; #[Reconstructed PDG2011]
#
0.003500000 K_S0 K+ pi- PHSP; #[Reconstructed PDG2011]
0.003358658 K_L0 K+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K+ pi- PHSP; #[Reconstructed PDG2011]
#
0.000310000 K_S0 K_S0 K+ pi- PHSP; #[Reconstructed PDG2011]
0.000294458 K_L0 K_L0 K+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K0 K+ pi- PHSP; #[Reconstructed PDG2011]
#
0.000310000 K_S0 K_S0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.000294458 K_L0 K_L0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 K+ pi- pi+ e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001820000 rho0 rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001090000 eta pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001600000 omega pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000450000 eta' pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001260000 eta eta' PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000027000 phi gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000328000 K*0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
# Updated to PDG 2008
Decay D_s+
-0.024900000 phi e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.026700000 eta e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.009900000 eta' e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002058115 anti-K0 e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000762265 anti-K*0 e+ nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.018309605 phi mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.022845082 eta mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.008186726 eta' mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002058115 anti-K0 mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000762265 anti-K*0 mu+ nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.005800000 mu+ nu_mu PHOTOS SLN; #[Reconstructed PDG2011]
+0.024900000 phi e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.026700000 eta e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.009900000 eta' e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.002058115 anti-K0 e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.000762265 anti-K*0 e+ nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.018309605 phi mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.022845082 eta mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.008186726 eta' mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002058115 anti-K0 mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.000762265 anti-K*0 mu+ nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.005800000 mu+ nu_mu FSR SLN; #[Reconstructed PDG2011]
0.031100000 tau+ nu_tau SLN; #[Reconstructed PDG2011]
### Lange Nov14, 2004 - average cleo + babar (prelim) using stat error only..
0.045000000 phi pi+ SVS; #[Reconstructed PDG2011]
0.015600000 eta pi+ PHSP; #[Reconstructed PDG2011]
0.038000000 eta' pi+ PHSP; #[Reconstructed PDG2011]
0.002300000 omega pi+ SVS; #[Reconstructed PDG2011]
0.000200000 rho0 pi+ SVS; #[Reconstructed PDG2011]
0.000304906 rho+ pi0 SVS; #[Reconstructed PDG2011]
#?
0.000076226 pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.007622650 f_0 pi+ PHSP; #[Reconstructed PDG2011]
0.000914718 f_2 pi+ PHSP; #[Reconstructed PDG2011]
0.084000000 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.089000000 rho+ eta SVS; #[Reconstructed PDG2011]
0.125000000 rho+ eta' SVS; #[Reconstructed PDG2011]
0.010800000 pi+ pi- pi+ PHSP; #[Reconstructed PDG2011]
0.006500000 pi+ pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.007622650 phi pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.011433975 eta pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.011433975 eta' pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.012100000 phi pi+ pi- pi+ PHSP; #[Reconstructed PDG2011]
0.003811325 phi pi+ pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.003811325 eta pi+ pi- pi+ PHSP; #[Reconstructed PDG2011]
0.003811325 eta pi+ pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.014900000 K_S0 K+ PHSP; #[Reconstructed PDG2011]
0.011472088 K_L0 K+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K+ PHSP; #[Reconstructed PDG2011]
#
0.030490600 anti-K*0 K+ SVS; #[Reconstructed PDG2011]
0.054000000 K*+ anti-K0 SVS; #[Reconstructed PDG2011]
0.072000000 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.002286795 anti-K0 K+ pi0 PHSP; #[Reconstructed PDG2011]
0.000914718 anti-K*0 K+ pi0 PHSP; #[Reconstructed PDG2011]
0.000914718 K*+ anti-K0 pi0 PHSP; #[Reconstructed PDG2011]
0.003049060 anti-K*0 K*+ pi0 PHSP; #[Reconstructed PDG2011]
0.003811325 K+ K- pi+ PHSP; #[Reconstructed PDG2011]
#
0.009600000 K_S0 K+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.007470197 K_L0 K+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K+ pi+ pi- PHSP; #[Reconstructed PDG2011]
#
0.000762265 anti-K0 K+ pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 K+ K- pi+ pi- pi+ PHSP; #[Reconstructed PDG2011]
0.000152453 phi K+ SVS; #[Reconstructed PDG2011]
0.001390000 eta K+ PHSP; #[Reconstructed PDG2011]
0.001600000 eta' K+ PHSP; #[Reconstructed PDG2011]
0.000152453 eta K+ pi0 PHSP; #[Reconstructed PDG2011]
0.000152453 eta K+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000152453 eta' K+ pi0 PHSP; #[Reconstructed PDG2011]
0.000152453 eta' K+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000490000 K+ K- K+ PHSP; #[Reconstructed PDG2011]
#
0.001200000 K_S0 pi+ PHSP; #[Reconstructed PDG2011]
0.000968077 K_L0 pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 K0 pi+ PHSP; #[Reconstructed PDG2011]
#
0.001143397 rho+ K0 SVS; #[Reconstructed PDG2011]
0.002700000 rho0 K+ SVS; #[Reconstructed PDG2011]
0.010000000 K0 pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.001905662 a_1+ K0 SVS; #[Reconstructed PDG2011]
0.006021893 K*0 pi+ SVS; #[Reconstructed PDG2011]
0.003811325 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.003811325 K*0 pi+ pi0 PHSP; #[Reconstructed PDG2011]
#
# March 2009 New Modes
0.000820000 K+ pi0 PHSP; #[Reconstructed PDG2011]
0.004200000 K+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.008000000 pi+ pi+ pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.049000000 pi+ pi+ pi+ pi- pi- pi0 PHSP; #[Reconstructed PDG2011]
0.001300000 p+ anti-n0 PHSP; #[Reconstructed PDG2011]
#
0.000840000 K_S0 K_S0 pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000686038 K_L0 K_L0 pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K0 pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
#
0.002900000 K_S0 pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002424003 K_L0 pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 pi+ pi+ pi- PHSP; #[Reconstructed PDG2011]
# Doubly Cabibbo suppressed
0.000129000 K+ K+ pi- PHSP; #[Reconstructed PDG2011]
0.003700000 K0 e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001800000 K*0 e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 K+ K- pi+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.028000000 omega pi+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.016000000 omega pi+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
# Updated to PDG 2008
Decay D_s-
-0.024900000 phi e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.026700000 eta e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.009900000 eta' e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002058115 K0 e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000762265 K*0 e- anti-nu_e PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.018309605 phi mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.022845082 eta mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.008186726 eta' mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.002058115 K0 mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.000762265 K*0 mu- anti-nu_mu PHOTOS ISGW2; #[Reconstructed PDG2011]
-0.005800000 mu- anti-nu_mu PHOTOS SLN; #[Reconstructed PDG2011]
+0.024900000 phi e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.026700000 eta e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.009900000 eta' e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.002058115 K0 e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.000762265 K*0 e- anti-nu_e FSR ISGW2; #[Reconstructed PDG2011]
+0.018309605 phi mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.022845082 eta mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.008186726 eta' mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.002058115 K0 mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.000762265 K*0 mu- anti-nu_mu FSR ISGW2; #[Reconstructed PDG2011]
+0.005800000 mu- anti-nu_mu FSR SLN; #[Reconstructed PDG2011]
0.031100000 tau- anti-nu_tau SLN; #[Reconstructed PDG2011]
0.045000000 phi pi- SVS; #[Reconstructed PDG2011]
0.015600000 eta pi- PHSP; #[Reconstructed PDG2011]
0.038000000 eta' pi- PHSP; #[Reconstructed PDG2011]
0.002300000 omega pi- SVS; #[Reconstructed PDG2011]
0.000200000 rho0 pi- SVS; #[Reconstructed PDG2011]
0.000304906 rho- pi0 SVS; #[Reconstructed PDG2011]
0.000076226 pi- pi0 PHSP; #[Reconstructed PDG2011]
0.007622650 f_0 pi- PHSP; #[Reconstructed PDG2011]
0.000914718 f_2 pi- PHSP; #[Reconstructed PDG2011]
0.084000000 phi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.089000000 rho- eta SVS; #[Reconstructed PDG2011]
0.125000000 rho- eta' SVS; #[Reconstructed PDG2011]
0.010800000 pi- pi- pi+ PHSP; #[Reconstructed PDG2011]
0.006500000 pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.007622650 phi pi- pi0 PHSP; #[Reconstructed PDG2011]
0.011433975 eta pi- pi0 PHSP; #[Reconstructed PDG2011]
0.011433975 eta' pi- pi0 PHSP; #[Reconstructed PDG2011]
0.012100000 phi pi- pi- pi+ PHSP; #[Reconstructed PDG2011]
0.003811325 phi pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.003811325 eta pi- pi- pi+ PHSP; #[Reconstructed PDG2011]
0.003811325 eta pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
#
0.014900000 K_S0 K- PHSP; #[Reconstructed PDG2011]
0.011472088 K_L0 K- PHSP; #[Reconstructed PDG2011]
0.000000000 K0 K- PHSP; #[Reconstructed PDG2011]
#
0.030490600 K*0 K- SVS; #[Reconstructed PDG2011]
0.054000000 K*- K0 SVS; #[Reconstructed PDG2011]
0.072000000 K*0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.002286795 K0 K- pi0 PHSP; #[Reconstructed PDG2011]
0.000914718 K*0 K- pi0 PHSP; #[Reconstructed PDG2011]
0.000914718 K*- K0 pi0 PHSP; #[Reconstructed PDG2011]
0.003049060 K*0 K*- pi0 PHSP; #[Reconstructed PDG2011]
0.003811325 K+ K- pi- PHSP; #[Reconstructed PDG2011]
#
0.009600000 K_S0 K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.007470197 K_L0 K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 K0 K- pi+ pi- PHSP; #[Reconstructed PDG2011]
#
0.000762265 K0 K- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 K- K+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000152453 phi K- SVS; #[Reconstructed PDG2011]
0.001390000 eta K- PHSP; #[Reconstructed PDG2011]
0.001600000 eta' K- PHSP; #[Reconstructed PDG2011]
0.000152453 eta K- pi0 PHSP; #[Reconstructed PDG2011]
0.000152453 eta K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000152453 eta' K- pi0 PHSP; #[Reconstructed PDG2011]
0.000152453 eta' K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000490000 K- K- K+ PHSP; #[Reconstructed PDG2011]
#
0.001200000 K_S0 pi- PHSP; #[Reconstructed PDG2011]
0.000968077 K_L0 pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 pi- PHSP; #[Reconstructed PDG2011]
#
0.001143397 rho- anti-K0 SVS; #[Reconstructed PDG2011]
0.002700000 rho0 K- SVS; #[Reconstructed PDG2011]
0.010000000 anti-K0 pi- pi0 PHSP; #[Reconstructed PDG2011]
0.001905662 a_1- anti-K0 SVS; #[Reconstructed PDG2011]
0.006021893 anti-K*0 pi- SVS; #[Reconstructed PDG2011]
0.003811325 anti-K*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.003811325 anti-K*0 pi- pi0 PHSP; #[Reconstructed PDG2011]
#
# March 2009 New Modes
0.000820000 K- pi0 PHSP; #[Reconstructed PDG2011]
0.004200000 K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.008000000 pi+ pi+ pi- pi- pi- PHSP; #[Reconstructed PDG2011]
0.049000000 pi+ pi+ pi- pi- pi- pi0 PHSP; #[Reconstructed PDG2011]
0.001300000 anti-p- n0 PHSP; #[Reconstructed PDG2011]
#
0.000840000 K_S0 K_S0 pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.000686038 K_L0 K_L0 pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.000000000 anti-K0 K0 pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
#
0.002900000 K_S0 pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.002424003 K_L0 pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
0.000000000 K0 pi+ pi- pi- PHSP; #[Reconstructed PDG2011]
# Doubly Cabibbo suppressed
0.000129000 K- K- pi+ PHSP; #[Reconstructed PDG2011]
0.003700000 anti-K0 e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001800000 anti-K*0 e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 K- K+ pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.028000000 omega pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.016000000 omega pi- pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
# D**
#
Decay D_0*+
0.3333 D+ pi0 PHSP;
0.6667 D0 pi+ PHSP;
Enddecay
Decay D_0*-
0.3333 D- pi0 PHSP;
0.6667 anti-D0 pi- PHSP;
Enddecay
Decay D_0*0
0.3333 D0 pi0 PHSP;
0.6667 D+ pi- PHSP;
Enddecay
Decay anti-D_0*0
0.3333 anti-D0 pi0 PHSP;
0.6667 D- pi+ PHSP;
Enddecay
#
SetLineshapePW D_1+ D*+ pi0 2
SetLineshapePW D_1+ D*0 pi+ 2
SetLineshapePW D_1- D*- pi0 2
SetLineshapePW D_1- anti-D*0 pi- 2
SetLineshapePW D_10 D*0 pi0 2
SetLineshapePW D_10 D*+ pi- 2
SetLineshapePW anti-D_10 anti-D*0 pi0 2
SetLineshapePW anti-D_10 D*- pi+ 2
Decay D_1+
0.3333 D*+ pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.6667 D*0 pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay D_1-
0.3333 D*- pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.6667 anti-D*0 pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay D_10
0.3333 D*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.6667 D*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay anti-D_10
0.3333 anti-D*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.6667 D*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
#
Decay D'_1+
0.3333 D*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.6667 D*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay D'_1-
0.3333 D*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.6667 anti-D*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay D'_10
0.6667 D*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3333 D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay anti-D'_10
0.3333 anti-D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.6667 D*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
SetLineshapePW D_2*+ D*+ pi0 2
SetLineshapePW D_2*+ D*0 pi+ 2
SetLineshapePW D_2*- D*- pi0 2
SetLineshapePW D_2*- anti-D*0 pi- 2
SetLineshapePW D_2*0 D*0 pi0 2
SetLineshapePW D_2*0 D*+ pi- 2
SetLineshapePW anti-D_2*0 anti-D*0 pi0 2
SetLineshapePW anti-D_2*0 D*- pi+ 2
Decay D_2*+
0.1030 D*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2090 D*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2290 D+ pi0 TSS;
0.4590 D0 pi+ TSS;
Enddecay
Decay D_2*-
0.1030 D*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2090 anti-D*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2290 D- pi0 TSS;
0.4590 anti-D0 pi- TSS;
Enddecay
Decay D_2*0
0.2090 D*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1030 D*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2290 D0 pi0 TSS;
0.4590 D+ pi- TSS;
Enddecay
Decay anti-D_2*0
0.1030 anti-D*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2090 D*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2290 anti-D0 pi0 TSS;
0.4590 D- pi+ TSS;
Enddecay
#
# D_s **
#
Decay D_s0*+
# 0.5000 D+ K0 PHSP;
# 0.5000 D0 K+ PHSP;
1.000 D_s+ pi0 PHSP;
Enddecay
Decay D_s0*-
# 0.5000 D- anti-K0 PHSP;
# 0.5000 anti-D0 K- PHSP;
1.000 D_s- pi0 PHSP;
Enddecay
Decay D'_s1+
0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.0000 gamma D_s*+ PHSP;
0.0000 gamma D_s+ PHSP;
Enddecay
Decay D'_s1-
0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.0000 gamma D_s*- PHSP;
0.0000 gamma D_s- PHSP;
Enddecay
Decay D_s1+
0.80000 D_s*+ pi0 PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.20000 D_s+ gamma VSP_PWAVE;
Enddecay
Decay D_s1-
0.80000 D_s*- pi0 PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.20000 D_s- gamma VSP_PWAVE;
Enddecay
Decay D_s2*+
0.0500 D*+ K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0500 D*0 K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.4300 D+ K0 TSS;
0.4700 D0 K+ TSS;
Enddecay
Decay D_s2*-
0.0500 D*- anti-K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0500 anti-D*0 K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.4300 D- anti-K0 TSS;
0.4700 anti-D0 K- TSS;
Enddecay
#
#
# Charm Mesons: Radially Excited States
#
Decay D(2S)0
0.6667 D*+ pi- SVS;
0.3333 D*0 pi0 SVS;
Enddecay
Decay anti-D(2S)0
0.3333 anti-D*0 pi0 SVS;
0.6667 D*- pi+ SVS;
Enddecay
Decay D(2S)+
0.3333 D*+ pi0 SVS;
0.6667 D*0 pi+ SVS;
Enddecay
Decay D(2S)-
0.3333 D*- pi0 SVS;
0.6667 anti-D*0 pi- SVS;
Enddecay
Decay D*(2S)0
0.3333 D*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1667 D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1667 D0 pi0 VSS;
0.3333 D+ pi- VSS;
Enddecay
Decay anti-D*(2S)0
0.1667 anti-D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3333 D*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1667 anti-D0 pi0 VSS;
0.3333 D- pi+ VSS;
Enddecay
Decay D*(2S)+
0.1667 D*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3333 D*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1667 D+ pi0 VSS;
0.3333 D0 pi+ VSS;
Enddecay
Decay D*(2S)-
0.1667 D*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3333 anti-D*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1667 D- pi0 VSS;
0.3333 anti-D0 pi- VSS;
Enddecay
#
#
# Strange Mesons updated to PDG 2008
#
#
Decay K_S0
0.691321852 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.306221852 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000201 pi+ pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001722185 pi+ pi- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000042831 pi+ pi- e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000025 pi0 gamma gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000002399 gamma gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000344328 pi+ e- nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000344328 pi- e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
# K_L0 is decayed in GEANT
#
Decay K0
0.500 K_L0 PHSP;
0.500 K_S0 PHSP;
Enddecay
Decay anti-K0
0.500 K_L0 PHSP;
0.500 K_S0 PHSP;
Enddecay
#
Decay K*0
0.6657 K+ pi- VSS;
0.3323 K0 pi0 VSS;
0.0020 K0 gamma VSP_PWAVE;
Enddecay
#
Decay anti-K*0
0.6657 K- pi+ VSS;
0.3323 anti-K0 pi0 VSS;
0.0020 anti-K0 gamma VSP_PWAVE;
Enddecay
#
Decay K*+
0.6657 K0 pi+ VSS;
0.3323 K+ pi0 VSS;
0.0020 K+ gamma VSP_PWAVE;
Enddecay
#
Decay K*-
0.6657 anti-K0 pi- VSS;
0.3323 K- pi0 VSS;
0.0020 K- gamma VSP_PWAVE;
Enddecay
#
# The decays below are for particle aliases and used when
# generating CP violating decays that depends on the decay
# of the neutral K*
#
Decay K*L
1.0000 pi0 K_L0 VSS;
Enddecay
Decay K*S
1.0000 pi0 K_S0 VSS;
Enddecay
Decay K*BL
1.0000 pi0 K_L0 VSS;
Enddecay
Decay K*BS
1.0000 pi0 K_S0 VSS;
Enddecay
Decay K*0T
1.0000 pi- K+ VSS;
Enddecay
Decay anti-K*0T
1.0000 pi+ K- VSS;
Enddecay
#
#
Decay K_0*+
0.6667 K0 pi+ PHSP;
0.3333 K+ pi0 PHSP;
Enddecay
#
Decay K_0*-
0.6667 anti-K0 pi- PHSP;
0.3333 K- pi0 PHSP;
Enddecay
#
Decay K_0*0
0.6667 K+ pi- PHSP;
0.3333 K0 pi0 PHSP;
Enddecay
#
Decay K_0*0N
1.0000 K0 pi0 PHSP;
Enddecay
#
Decay anti-K_0*0
0.6667 K- pi+ PHSP;
0.3333 anti-K0 pi0 PHSP;
Enddecay
#
Decay anti-K_0*0N
1.0000 anti-K0 pi0 PHSP;
Enddecay
#
Decay K_10
0.2800 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1400 rho0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1067 K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0533 K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
#To large masses can cause infinit loops
0.1100 omega K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1444 K0 pi+ pi- PHSP;
0.1244 K+ pi- pi0 PHSP;
0.0412 K0 pi0 pi0 PHSP;
Enddecay
#
Decay anti-K_10
0.2800 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1400 rho0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1067 K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0533 anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
#To large masses can cause infinit loops
0.1100 omega anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1444 anti-K0 pi+ pi- PHSP;
0.1244 K- pi+ pi0 PHSP;
0.0412 anti-K0 pi0 pi0 PHSP;
Enddecay
#
Decay K_1+
0.2800 rho+ K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1067 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0533 K*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
#To large masses can cause infinit loops
0.1100 omega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1444 K+ pi+ pi- PHSP;
0.1244 K0 pi+ pi0 PHSP;
0.0412 K+ pi0 pi0 PHSP;
Enddecay
#
Decay K_1-
0.2800 rho- anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1067 anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0533 K*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
#To large masses can cause infinit loops
0.1100 omega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1444 K- pi+ pi- PHSP;
0.1244 anti-K0 pi- pi0 PHSP;
0.0412 K- pi0 pi0 PHSP;
Enddecay
#
Decay K'_1+
0.6300 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3100 K*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0200 rho+ K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 omega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0133 K+ pi+ pi- PHSP;
0.0067 K+ pi0 pi0 PHSP;
Enddecay
#
Decay K'_1-
0.6300 anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3100 K*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0200 rho- anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 omega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0133 K- pi+ pi- PHSP;
0.0067 K- pi0 pi0 PHSP;
Enddecay
#
Decay K'_10
0.6300 K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3100 K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0200 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 rho0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 omega K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0133 K0 pi+ pi- PHSP;
0.0067 K0 pi0 pi0 PHSP;
Enddecay
#
Decay anti-K'_10
0.6300 K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3100 anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0200 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 rho0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0100 omega anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0133 anti-K0 pi+ pi- PHSP;
0.0067 anti-K0 pi0 pi0 PHSP;
Enddecay
#
Decay K_2*+
0.3340 K0 pi+ TSS;
0.1670 K+ pi0 TSS;
0.1645 K*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0835 K*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0450 K*0 pi+ pi0 PHSP;
0.0450 K*+ pi+ pi- PHSP;
0.0450 K*+ pi0 pi0 PHSP;
0.0580 rho+ K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 rho0 K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 omega K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
#
Decay K_2*-
0.3340 anti-K0 pi- TSS;
0.1670 K- pi0 TSS;
0.1645 anti-K*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0835 K*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0450 anti-K*0 pi- pi0 PHSP;
0.0450 K*- pi+ pi- PHSP;
0.0450 K*- pi0 pi0 PHSP;
0.0580 rho- K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 rho0 K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 omega K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
#
Decay K_2*0
0.3340 K+ pi- TSS;
0.1670 K0 pi0 TSS;
0.1645 K*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0835 K*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0450 K*0 pi+ pi- PHSP;
0.0450 K*0 pi0 pi0 PHSP;
0.0450 K*+ pi- pi0 PHSP;
0.0580 rho- K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 rho0 K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 omega K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
#
Decay anti-K_2*0
0.3340 K- pi+ TSS;
0.1670 anti-K0 pi0 TSS;
0.1645 K*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0835 anti-K*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0450 anti-K*0 pi+ pi- PHSP;
0.0450 anti-K*0 pi0 pi0 PHSP;
0.0450 K*- pi+ pi0 PHSP;
0.0580 rho+ K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 rho0 anti-K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0290 omega anti-K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
# Decay K*(1410)
Decay K'*0
0.0467 K+ pi- VSS;
0.0233 K0 pi0 VSS;
0.5760 K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2880 K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0440 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0220 rho0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay anti-K'*0
0.0467 K- pi+ VSS;
0.0233 anti-K0 pi0 VSS;
0.5760 K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2880 anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0440 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0220 rho0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay K'*+
0.0467 K0 pi+ VSS;
0.0233 K+ pi0 VSS;
0.5760 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2880 K*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0440 rho+ K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0220 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay K'*-
0.0467 anti-K0 pi- VSS;
0.0233 K- pi0 VSS;
0.5760 anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2880 K*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0440 rho- K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0220 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
# Decay K*(1680)
Decay K''*0
0.2580 K+ pi- VSS;
0.1290 K0 pi0 VSS;
0.2093 K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1047 K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1993 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0997 rho0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay anti-K''*0
0.2580 K- pi+ VSS;
0.1290 anti-K0 pi0 VSS;
0.2093 K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1047 anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1993 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0997 rho0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay K''*+
0.2580 K0 pi+ VSS;
0.1290 K+ pi0 VSS;
0.2093 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1047 K*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1993 rho+ K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0997 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay K''*-
0.2580 anti-K0 pi- VSS;
0.1290 K- pi0 VSS;
0.2093 anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1047 K*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.1993 rho- K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0997 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay Xsd
1.00000 d anti-s PYTHIA 11;
Enddecay
Decay anti-Xsd
1.00000 anti-d s PYTHIA 11;
Enddecay
Decay Xsu
1.00000 u anti-s PYTHIA 11;
Enddecay
Decay anti-Xsu
1.00000 anti-u s PYTHIA 11;
Enddecay
# Xss decays can be uncommented when Jst74/lucomp.F recognizes Xss
Decay Xss
1.00000 s anti-s PYTHIA 11;
Enddecay
Decay anti-Xss
1.00000 anti-s s PYTHIA 11;
Enddecay
#
# Light Mesons Updated to PDG 2008
#
Decay pi0
0.988228297 gamma gamma PHSP; #[Reconstructed PDG2011]
0.011738247 e+ e- gamma PI0_DALITZ; #[Reconstructed PDG2011]
0.000033392 e+ e+ e- e- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000065 e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay eta
0.393100000 gamma gamma PHSP; #[Reconstructed PDG2011]
0.325700000 pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.227400000 pi- pi+ pi0 ETA_DALITZ; #[Reconstructed PDG2011]
0.046000000 gamma pi- pi+ PHSP; #[Reconstructed PDG2011]
0.007000000 gamma e+ e- PHSP; #[Reconstructed PDG2011]
0.000310000 gamma mu+ mu- PHSP; #[Reconstructed PDG2011]
0.000270000 gamma gamma pi0 PHSP; #[Reconstructed PDG2011]
0.000214200 pi+ pi- e+ e- PHSP; #[Reconstructed PDG2011]
0.000005800 mu+ mu- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay rho0
1.000 pi+ pi- VSS;
Enddecay
Decay rho+
1.000 pi+ pi0 VSS;
Enddecay
Decay rho-
1.000 pi- pi0 VSS;
Enddecay
#
Decay omega
0.892000000 pi- pi+ pi0 OMEGA_DALITZ; #[Reconstructed PDG2011]
0.082800000 pi0 gamma VSP_PWAVE; #[Reconstructed PDG2011]
0.015300000 pi- pi+ VSS; #[Reconstructed PDG2011]
0.000460000 eta gamma VSP_PWAVE; #[Reconstructed PDG2011]
-0.000770000 pi0 e+ e- PHOTOS PHSP; #[Reconstructed PDG2011]
-0.000130000 pi0 mu+ mu- PHOTOS PHSP; #[Reconstructed PDG2011]
+0.000770000 pi0 e+ e- FSR PHSP; #[Reconstructed PDG2011]
+0.000130000 pi0 mu+ mu- FSR PHSP; #[Reconstructed PDG2011]
0.00150 pi+ pi- gamma PHSP;
0.000066000 pi0 pi0 gamma PHSP; #[Reconstructed PDG2011]
0.00050 pi+ pi- pi+ pi- PHSP;
0.000072800 e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000090000 mu+ mu- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay eta'
0.432000000 pi+ pi- eta PHSP; #[Reconstructed PDG2011]
0.217000000 pi0 pi0 eta PHSP; #[Reconstructed PDG2011]
0.293511000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.027500000 omega gamma SVP_HELAMP 1.0 0.0 1.0 0.0; #[Reconstructed PDG2011]
0.022200000 gamma gamma PHSP; #[Reconstructed PDG2011]
0.001680000 pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
-0.000109000 gamma mu- mu+ PHOTOS PHSP; #[Reconstructed PDG2011]
+0.000109000 gamma mu- mu+ FSR PHSP; #[Reconstructed PDG2011]
0.003600000 pi+ pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002400000 pi+ pi- e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay phi
0.489000000 K+ K- VSS; #[Reconstructed PDG2011]
0.342000000 K_L0 K_S0 VSS; #[Reconstructed PDG2011]
0.0425 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0425 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0425 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0250 pi+ pi- pi0 PHSP;
0.013090000 eta gamma VSP_PWAVE; #[Reconstructed PDG2011]
0.000687600 pi0 gamma VSP_PWAVE; #[Reconstructed PDG2011]
-0.000295400 e+ e- PHOTOS VLL; #[Reconstructed PDG2011]
-0.000287000 mu+ mu- PHOTOS VLL; #[Reconstructed PDG2011]
+0.000295400 e+ e- FSR VLL; #[Reconstructed PDG2011]
+0.000287000 mu+ mu- FSR VLL; #[Reconstructed PDG2011]
0.000113000 pi0 pi0 gamma PHSP; #[Reconstructed PDG2011]
0.000115000 eta e+ e- PHSP; #[Reconstructed PDG2011]
0.000322000 f_0 gamma PHSP; #[Reconstructed PDG2011]
0.000074000 pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000047000 omega pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000041000 pi+ pi- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004000 pi+ pi- pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011200 pi0 e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000072700 pi0 eta gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000062500 eta' gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000014000 mu+ mu- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay a_1+
0.4920 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5080 rho+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay a_10
0.5000 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5000 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay a_1-
0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay a_2+
0.3500 rho0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.3500 rho+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1430 eta pi+ TSS;
0.1000 omega pi+ pi0 PHSP;
0.0490 anti-K0 K+ TSS;
0.0027 pi+ gamma PHSP;
0.0053 eta' pi+ TSS;
Enddecay
#
Decay a_2-
0.3500 rho0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.3500 rho- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1430 eta pi- TSS;
0.1000 omega pi- pi0 PHSP;
0.0490 anti-K0 K- TSS;
0.0027 pi- gamma PHSP;
0.0053 eta' pi- TSS;
Enddecay
#
Decay a_20
0.3500 rho+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.3500 rho- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1430 eta pi0 TSS;
0.1000 omega pi+ pi- PHSP;
0.0245 K+ K- TSS;
0.01225 K_L0 K_L0 TSS;
0.01225 K_S0 K_S0 TSS;
0.0027 pi0 gamma PHSP;
0.0053 eta' pi0 TSS;
Enddecay
#
Decay b_1+
0.9984 omega pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0016 pi+ gamma VSP_PWAVE;
Enddecay
Decay b_1-
0.9984 omega pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0016 pi- gamma VSP_PWAVE;
Enddecay
Decay b_10
0.9984 omega pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.0016 pi0 gamma VSP_PWAVE;
Enddecay
#
Decay a_00
0.9000 eta pi0 PHSP;
0.0500 K+ K- PHSP;
0.0250 K_S0 K_S0 PHSP;
0.0250 K_L0 K_L0 PHSP;
Enddecay
Decay a_0+
0.9000 eta pi+ PHSP;
0.1000 anti-K0 K+ PHSP;
Enddecay
Decay a_0-
0.9000 eta pi- PHSP;
0.1000 K0 K- PHSP;
Enddecay
#
Decay f_0
0.6667 pi+ pi- PHSP;
0.3333 pi0 pi0 PHSP;
#0.1100 K+ K- PHSP;
#0.0550 K_S0 K_S0 PHSP;
#0.0550 K_L0 K_L0 PHSP;
Enddecay
#
Decay f'_0
0.5200 pi+ pi- PHSP;
0.2600 pi0 pi0 PHSP;
0.0750 pi+ pi+ pi- pi- PHSP;
0.0750 pi+ pi- pi0 pi0 PHSP;
0.0350 K+ K- PHSP;
0.0175 K_S0 K_S0 PHSP;
0.0175 K_L0 K_L0 PHSP;
Enddecay
#
Decay f_1
0.110000000 rho0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.043364159 rho0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.043442860 rho+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.043442860 rho- pi+ pi0 PHSP; #[Reconstructed PDG2011]
0.094440999 a_00 pi0 VSS; #[Reconstructed PDG2011]
0.094440999 a_0+ pi- VSS; #[Reconstructed PDG2011]
0.094440999 a_0- pi+ VSS; #[Reconstructed PDG2011]
0.086570916 eta pi+ pi- PHSP; #[Reconstructed PDG2011]
0.043285458 eta pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.020226114 K+ K- pi0 PHSP; #[Reconstructed PDG2011]
0.010152407 K0 anti-K0 pi0 PHSP; #[Reconstructed PDG2011]
0.020226114 anti-K0 K+ pi- PHSP; #[Reconstructed PDG2011]
0.020226114 K0 K- pi+ PHSP; #[Reconstructed PDG2011]
0.055000000 gamma rho0 PHSP; #[Reconstructed PDG2011]
0.220000000 pi0 pi0 pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 pi+ pi+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000740000 phi gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay f'_1
0.2500 K+ K- pi0 PHSP;
0.2500 K0 anti-K0 pi0 PHSP;
0.2500 anti-K0 K+ pi- PHSP;
0.2500 K0 K- pi+ PHSP;
Enddecay
#
Decay f_2
0.5650 pi+ pi- TSS;
0.2820 pi0 pi0 TSS;
0.028000000 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.071000000 pi+ pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.003000000 pi0 pi0 pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.0230 K+ K- TSS;
0.0115 K_S0 K_S0 TSS;
0.0115 K_L0 K_L0 TSS;
0.004000000 eta eta TSS; #[Reconstructed PDG2011]
0.000016400 gamma gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay f_0(1500)
0.019000000 eta eta' PHSP; #[Reconstructed PDG2011]
0.051000000 eta eta PHSP; #[Reconstructed PDG2011]
0.1410 pi0 pi0 pi0 pi0 PHSP;
0.3540 pi+ pi- pi+ pi- PHSP;
0.2330 pi+ pi- PHSP;
0.1160 pi0 pi0 PHSP;
0.0430 K+ K- PHSP;
0.0215 K_S0 K_S0 PHSP;
0.0215 K_L0 K_L0 PHSP;
Enddecay
#
Decay f'_2
0.443904021 K+ K- TSS; #[Reconstructed PDG2011]
0.221952010 K_S0 K_S0 TSS; #[Reconstructed PDG2011]
0.221952010 K_L0 K_L0 TSS; #[Reconstructed PDG2011]
0.104000000 eta eta TSS; #[Reconstructed PDG2011]
0.005493862 pi+ pi- TSS; #[Reconstructed PDG2011]
0.002696987 pi0 pi0 TSS; #[Reconstructed PDG2011]
0.000001110 gamma gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay h_1
0.3333 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3333 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3334 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay h'_1
0.2500 K*+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2500 K*- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2500 anti-K*0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.2500 K*0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
#
Decay rho(2S)+
0.4000 pi+ pi0 PHSP;
0.4000 pi+ pi+ pi- pi0 PHSP;
0.2000 pi+ pi0 pi0 pi0 PHSP;
Enddecay
Decay rho(2S)-
0.4000 pi- pi0 PHSP;
0.4000 pi- pi+ pi- pi0 PHSP;
0.2000 pi- pi0 pi0 pi0 PHSP;
Enddecay
Decay rho(2S)0
0.4000 pi+ pi- PHSP;
0.3500 pi+ pi- pi+ pi- PHSP;
0.1500 pi+ pi- pi0 pi0 PHSP;
0.1000 pi0 pi0 pi0 pi0 PHSP;
Enddecay
Decay phi(1680)
0.08 pi+ pi- PHSP;
0.05 pi+ pi+ pi- pi- PHSP;
0.10 pi0 pi+ pi- PHSP;
0.10 pi0 pi+ pi+ pi- pi- PHSP;
0.12 pi0 pi0 pi+ pi- PHSP;
0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.05 pi0 pi0 pi0 pi+ pi- PHSP;
0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.04 K+ K- pi+ pi- PHSP;
0.02 K0 K- pi+ PHSP;
0.02 anti-K0 K+ pi- PHSP;
0.02 K0 K- pi+ pi+ pi- PHSP;
0.02 anti-K0 K+ pi- pi- pi+ PHSP;
0.02 K0 K- pi0 pi+ PHSP;
0.02 anti-K0 K+ pi0 pi- PHSP;
0.02 eta pi0 pi+ pi- PHSP;
0.01 eta rho- pi0 pi+ PHSP;
0.01 eta rho+ pi0 pi- PHSP;
Enddecay
Decay rho(3S)0
0.08 pi+ pi- PHSP;
0.05 pi+ pi+ pi- pi- PHSP;
0.10 pi0 pi+ pi- PHSP;
0.10 pi0 pi+ pi+ pi- pi- PHSP;
0.12 pi0 pi0 pi+ pi- PHSP;
0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.05 pi0 pi0 pi0 pi+ pi- PHSP;
0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.04 K+ K- pi+ pi- PHSP;
0.02 K0 K- pi+ PHSP;
0.02 anti-K0 K+ pi- PHSP;
0.02 K0 K- pi+ pi+ pi- PHSP;
0.02 anti-K0 K+ pi- pi- pi+ PHSP;
0.02 K0 K- pi0 pi+ PHSP;
0.02 anti-K0 K+ pi0 pi- PHSP;
0.02 eta pi0 pi+ pi- PHSP;
0.01 eta rho- pi0 pi+ PHSP;
0.01 eta rho+ pi0 pi- PHSP;
Enddecay
Decay omega(1650)
0.08 pi+ pi- PHSP;
0.05 pi+ pi+ pi- pi- PHSP;
0.10 pi0 pi+ pi- PHSP;
0.10 pi0 pi+ pi+ pi- pi- PHSP;
0.12 pi0 pi0 pi+ pi- PHSP;
0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.05 pi0 pi0 pi0 pi+ pi- PHSP;
0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.04 K+ K- pi+ pi- PHSP;
0.02 K0 K- pi+ PHSP;
0.02 anti-K0 K+ pi- PHSP;
0.02 K0 K- pi+ pi+ pi- PHSP;
0.02 anti-K0 K+ pi- pi- pi+ PHSP;
0.02 K0 K- pi0 pi+ PHSP;
0.02 anti-K0 K+ pi0 pi- PHSP;
0.02 eta pi0 pi+ pi- PHSP;
0.01 eta rho- pi0 pi+ PHSP;
0.01 eta rho+ pi0 pi- PHSP;
Enddecay
#Decay rho(1900)
#0.08 pi+ pi- PHSP;
#0.05 pi+ pi+ pi- pi- PHSP;
#0.10 pi0 pi+ pi- PHSP;
#0.10 pi0 pi+ pi+ pi- pi- PHSP;
#0.12 pi0 pi0 pi+ pi- PHSP;
#0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.05 pi0 pi0 pi0 pi+ pi- PHSP;
#0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.04 K+ K- pi+ pi- PHSP;
#0.02 K0 K- pi+ PHSP;
#0.02 anti-K0 K+ pi- PHSP;
#0.02 K0 K- pi+ pi+ pi- PHSP;
#0.02 anti-K0 K+ pi- pi- pi+ PHSP;
#0.02 K0 K- pi0 pi+ PHSP;
#0.02 anti-K0 K+ pi0 pi- PHSP;
#0.02 eta pi0 pi+ pi- PHSP;
#0.01 eta rho- pi0 pi+ PHSP;
#0.01 eta rho+ pi0 pi- PHSP;
#Enddecay
Decay omega(2S)
0.08 pi+ pi- PHSP;
0.05 pi+ pi+ pi- pi- PHSP;
0.10 pi0 pi+ pi- PHSP;
0.10 pi0 pi+ pi+ pi- pi- PHSP;
0.12 pi0 pi0 pi+ pi- PHSP;
0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.05 pi0 pi0 pi0 pi+ pi- PHSP;
0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
0.04 K+ K- pi+ pi- PHSP;
0.02 K0 K- pi+ PHSP;
0.02 anti-K0 K+ pi- PHSP;
0.02 K0 K- pi+ pi+ pi- PHSP;
0.02 anti-K0 K+ pi- pi- pi+ PHSP;
0.02 K0 K- pi0 pi+ PHSP;
0.02 anti-K0 K+ pi0 pi- PHSP;
0.02 eta pi0 pi+ pi- PHSP;
0.01 eta rho- pi0 pi+ PHSP;
0.01 eta rho+ pi0 pi- PHSP;
Enddecay
#Decay rho(2150)
#0.08 pi+ pi- PHSP;
#0.05 pi+ pi+ pi- pi- PHSP;
#0.10 pi0 pi+ pi- PHSP;
#0.10 pi0 pi+ pi+ pi- pi- PHSP;
#0.12 pi0 pi0 pi+ pi- PHSP;
#0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.05 pi0 pi0 pi0 pi+ pi- PHSP;
#0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.04 K+ K- pi+ pi- PHSP;
#0.02 K0 K- pi+ PHSP;
#0.02 anti-K0 K+ pi- PHSP;
#0.02 K0 K- pi+ pi+ pi- PHSP;
#0.02 anti-K0 K+ pi- pi- pi+ PHSP;
#0.02 K0 K- pi0 pi+ PHSP;
#0.02 anti-K0 K+ pi0 pi- PHSP;
#0.02 eta pi0 pi+ pi- PHSP;
#0.01 eta rho- pi0 pi+ PHSP;
#0.01 eta rho+ pi0 pi- PHSP;
#Enddecay
#Decay omega(1960)
#0.08 pi+ pi- PHSP;
#0.05 pi+ pi+ pi- pi- PHSP;
#0.10 pi0 pi+ pi- PHSP;
#0.10 pi0 pi+ pi+ pi- pi- PHSP;
#0.12 pi0 pi0 pi+ pi- PHSP;
#0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.05 pi0 pi0 pi0 pi+ pi- PHSP;
#0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.04 K+ K- pi+ pi- PHSP;
#0.02 K0 K- pi+ PHSP;
#0.02 anti-K0 K+ pi- PHSP;
#0.02 K0 K- pi+ pi+ pi- PHSP;
#0.02 anti-K0 K+ pi- pi- pi+ PHSP;
#0.02 K0 K- pi0 pi+ PHSP;
#0.02 anti-K0 K+ pi0 pi- PHSP;
#0.02 eta pi0 pi+ pi- PHSP;
#0.01 eta rho- pi0 pi+ PHSP;
#0.01 eta rho+ pi0 pi- PHSP;
#Enddecay
#Decay rho(1965)
#0.08 pi+ pi- PHSP;
#0.05 pi+ pi+ pi- pi- PHSP;
#0.10 pi0 pi+ pi- PHSP;
#0.10 pi0 pi+ pi+ pi- pi- PHSP;
#0.12 pi0 pi0 pi+ pi- PHSP;
#0.04 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.14 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.05 pi0 pi0 pi0 pi+ pi- PHSP;
#0.06 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi+ pi+ pi+ pi- pi- pi- PHSP;
#0.03 pi0 pi0 pi0 pi0 pi+ pi+ pi- pi- PHSP;
#0.04 K+ K- pi+ pi- PHSP;
#0.02 K0 K- pi+ PHSP;
#0.02 anti-K0 K+ pi- PHSP;
#0.02 K0 K- pi+ pi+ pi- PHSP;
#0.02 anti-K0 K+ pi- pi- pi+ PHSP;
#0.02 K0 K- pi0 pi+ PHSP;
#0.02 anti-K0 K+ pi0 pi- PHSP;
#0.02 eta pi0 pi+ pi- PHSP;
#0.01 eta rho- pi0 pi+ PHSP;
#0.01 eta rho+ pi0 pi- PHSP;
#Enddecay
#
#
# cc= mesons Updated to PDG 2008
#
Decay eta_c
0.001300000 p+ anti-p- PHSP; #[Reconstructed PDG2011]
0.002700000 phi phi SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; #[Reconstructed PDG2011]
0.002900000 phi K+ K- PHSP; #[Reconstructed PDG2011]
0.0067 rho0 rho0 SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0;
0.0133 rho+ rho- SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0;
0.012000000 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001600000 K+ K- K+ K- PHSP; #[Reconstructed PDG2011]
0.015000000 K+ K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.0327 eta pi+ pi- PHSP;
0.0163 eta pi0 pi0 PHSP;
0.0273 eta' pi+ pi- PHSP;
0.0137 eta' pi0 pi0 PHSP;
0.0117 pi0 K+ K- PHSP;
0.0233 K+ anti-K0 pi- PHSP;
0.0233 K- K0 pi+ PHSP;
0.0117 K0 anti-K0 pi0 PHSP;
0.0046 K*+ K*- SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0;
0.0046 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0 ;
0.01 K*0 K- pi+ PHSP;
0.01 anti-K*0 K+ pi- PHSP;
#
#March 2009 New Modes
0.01500 K*0 anti-K*0 pi+ pi- PHSP;
0.007100000 K+ K- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.015000000 pi+ pi- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001040000 Lambda0 anti-Lambda0 PHSP; #[Reconstructed PDG2011]
0.007600000 f_2 f_2 PHSP; #[Reconstructed PDG2011]
0.027000000 f_2 f'_2 PHSP; #[Reconstructed PDG2011]
#
0.682497000 rndmflav anti-rndmflav PYTHIA 12; #[Reconstructed PDG2011]
0.000063000 gamma gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay eta_c(2S)
0.019 K+ anti-K0 pi- PHSP;
0.019 K- K0 pi+ PHSP;
0.0095 pi0 K+ K- PHSP;
0.0095 K0 anti-K0 pi0 PHSP;
0.943 rndmflav anti-rndmflav PYTHIA 12;
Enddecay
#
Decay J/psi
-0.059400000 e+ e- PHOTOS VLL; #[Reconstructed PDG2011]
-0.059300000 mu+ mu- PHOTOS VLL; #[Reconstructed PDG2011]
+0.059400000 e+ e- FSR VLL; #[Reconstructed PDG2011]
+0.059300000 mu+ mu- FSR VLL; #[Reconstructed PDG2011]
0.005600000 rho0 pi0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.00563 rho+ pi- PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.00563 rho- pi+ PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.004000000 omega pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.00364 a_20 rho0 PHSP;
0.00363 a_2+ rho- PHSP;
0.00363 a_2- rho+ PHSP;
0.008500000 omega pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.004300000 omega f_2 PHSP; #[Reconstructed PDG2011]
0.004300000 omega pi+ pi- PHSP; #[Reconstructed PDG2011]
0.00300 K*0 anti-K_2*0 PHSP;
0.00300 anti-K*0 K_2*0 PHSP;
0.00305 omega K*0 anti-K0 PHSP;
0.00305 omega anti-K*0 K0 PHSP;
0.00256 K*+ K- PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.00256 K*- K+ PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.002195 K*0 anti-K0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.002195 anti-K*0 K0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.00190 K_1+ K- PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.00190 K_1- K+ PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.003400000 omega pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.001500000 b_1+ pi- PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.001500000 b_1- pi+ PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
#
0.001700000 omega pi- K+ K_S0 PHSP; #[Reconstructed PDG2011]
0.0017 omega pi- K+ K_L0 PHSP;
0.001700000 omega pi+ K- K_S0 PHSP; #[Reconstructed PDG2011]
0.0017 omega pi+ K- K_L0 PHSP;
0.0000 omega pi- K+ K0 PHSP;
0.0000 omega pi- K+ anti-K0 PHSP;
0.0000 omega pi+ K- K0 PHSP;
0.0000 omega pi+ K- anti-K0 PHSP;
#
0.002300000 b_10 pi0 PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.002290000 eta pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000545 phi K*0 anti-K0 PHSP;
0.000545 phi anti-K*0 K0 PHSP;
0.000545 phi K*+ K- PHSP;
0.000545 phi K*- K+ PHSP;
0.0008 omega K0 anti-K0 PHSP;
0.0008 omega K+ K- PHSP;
0.001660000 phi pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001600000 Delta++ anti-p- pi- PHSP; #[Reconstructed PDG2011]
0.0016 anti-Delta-- p+ pi+ PHSP;
0.001740000 omega eta PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000915 phi K0 anti-K0 PHSP;
0.000915 phi K+ K- PHSP;
0.001100000 omega p+ anti-p- PHSP; #[Reconstructed PDG2011]
0.0011 Delta++ anti-Delta-- PHSP;
0.000515 Sigma- anti-Sigma+ PHSP;
0.001500000 Sigma+ anti-Sigma- PHSP; #[Reconstructed PDG2011]
0.000720000 eta pi+ pi- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000147000 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.017000000 gamma eta_c PHSP; #[Reconstructed PDG2011]
0.008300000 gamma pi+ pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.0061 gamma eta pi+ pi- PHSP;
0.00225 gamma rho+ rho- PHSP;
0.00225 gamma rho0 rho0 PHSP;
0.005280000 gamma eta' PHSP; #[Reconstructed PDG2011]
0.001850000 gamma pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002100000 gamma K+ K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001610000 gamma omega omega PHSP; #[Reconstructed PDG2011]
0.001430000 gamma f_2 PHSP; #[Reconstructed PDG2011]
0.0040 gamma K*0 anti-K*0 PHSP;
#
# March 2009 New Modes
0.001100000 eta pi- K+ K_S0 PHSP; #[Reconstructed PDG2011]
0.0011 eta pi- K+ K_L0 PHSP;
0.001100000 eta pi+ K- K_S0 PHSP; #[Reconstructed PDG2011]
0.0011 eta pi+ K- K_L0 PHSP;
0.0000 eta pi- K+ K0 PHSP;
0.0000 eta pi- K+ anti-K0 PHSP;
0.0000 eta pi+ K- K0 PHSP;
0.0000 eta pi+ K- anti-K0 PHSP;
#
0.055000000 pi+ pi- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.029000000 pi+ pi- pi+ pi- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.020700000 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.019400000 pi+ pi- pi0 K+ K- PHSP; #[Reconstructed PDG2011]
0.016100000 pi+ pi- pi+ pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.009000000 pi+ pi- pi+ pi- pi+ pi- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.006600000 pi+ pi- K+ K- PHSP; #[Reconstructed PDG2011]
0.001840000 pi+ pi- K+ K- eta PHSP; #[Reconstructed PDG2011]
0.002450000 pi0 pi0 K+ K- PHSP; #[Reconstructed PDG2011]
0.005000000 pi+ pi- pi+ pi- K+ K- PHSP; #[Reconstructed PDG2011]
0.00102 K+ K- pi0 PHSP;
0.00102 K0 anti-K0 pi0 PHSP;
0.00203 K+ anti-K0 pi- PHSP;
0.00203 K- K0 pi+ PHSP;
0.003550000 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
#### Already included above 0.00229 pi+ pi- pi+ pi- eta PHSP;
0.004300000 pi+ pi- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002170000 p+ anti-p- PHSP; #[Reconstructed PDG2011]
0.001190000 p+ anti-p- pi0 PHSP; #[Reconstructed PDG2011]
0.006000000 p+ anti-p- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002300000 p+ anti-p- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.002000000 p+ anti-p- eta PHSP; #[Reconstructed PDG2011]
0.002200000 n0 anti-n0 PHSP; #[Reconstructed PDG2011]
0.004000000 n0 anti-n0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001290000 Sigma0 anti-Sigma0 PHSP; #[Reconstructed PDG2011]
0.002120000 p+ anti-n0 pi- PHSP; #[Reconstructed PDG2011]
0.001200000 Xi0 anti-Xi0 PHSP; #[Reconstructed PDG2011]
0.000850000 Xi- anti-Xi+ PHSP; #[Reconstructed PDG2011]
0.001610000 Lambda0 anti-Lambda0 PHSP; #[Reconstructed PDG2011]
#
0.084693481 rndmflav anti-rndmflav PYTHIA 12; #[Reconstructed PDG2011]
0.365559757 g g g PYTHIA 4; #[Reconstructed PDG2011]
0.032103862 gamma g g PYTHIA 4; #[Reconstructed PDG2011]
0.0 K0 anti-K0 PHSP;
0.0 K_S0 K_S0 PHSP;
0.0 K_L0 K_L0 PHSP;
0.000146000 K_S0 K_L0 PHSP; #[Reconstructed PDG2011]
0.001900000 K'_1+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001900000 K'_1- K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000800000 phi f'_2 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000870000 phi pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000560000 phi pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000680000 omega f'_1 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000750000 phi eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000590000 Xi*- anti-Xi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000450000 omega pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000400000 phi eta' PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000320000 phi f_0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000320000 Xi*0 anti-Xi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000260000 phi f_1 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000400000 eta pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000182000 omega eta' PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000140000 omega f_0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000230000 K*0 anti-K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000720000 phi f_2 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000210000 p+ anti-p- eta' PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000045000 p+ anti-p- phi PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000890000 p+ K- anti-Lambda0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000760000 K+ K- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000290000 p+ K- anti-Sigma0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000237000 K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000260000 Lambda0 anti-Lambda0 eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000012000 gamma gamma gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000950000 gamma f_2 f_2 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001104000 gamma eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000610000 gamma f_1 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000450000 gamma f'_2 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000400000 gamma phi phi PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000380000 gamma p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000034900 gamma pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.008800000 gamma e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay psi(2S)
-0.007720000 e+ e- PHOTOS VLL; #[Reconstructed PDG2011]
-0.007700000 mu+ mu- PHOTOS VLL; #[Reconstructed PDG2011]
-0.003000000 tau+ tau- PHOTOS VLL; #[Reconstructed PDG2011]
+0.007720000 e+ e- FSR VLL; #[Reconstructed PDG2011]
+0.007700000 mu+ mu- FSR VLL; #[Reconstructed PDG2011]
+0.003000000 tau+ tau- FSR VLL; #[Reconstructed PDG2011]
0.336000000 J/psi pi+ pi- VVPIPI; #[Reconstructed PDG2011]
0.177300000 J/psi pi0 pi0 VVPIPI; #[Reconstructed PDG2011]
0.032800000 J/psi eta PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.001300000 J/psi pi0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.096200000 gamma chi_c0 PHSP; #[Reconstructed PDG2011]
0.092000000 gamma chi_c1 PHSP; #[Reconstructed PDG2011]
0.087400000 gamma chi_c2 PHSP; #[Reconstructed PDG2011]
0.003400000 gamma eta_c PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000121000 gamma eta' PHSP; #[Reconstructed PDG2011]
0.000210000 gamma f_2 PHSP; #[Reconstructed PDG2011]
0.003500000 pi+ pi- pi+ pi- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000350000 pi+ pi- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002900000 pi+ pi- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.000200000 b_1+ pi- PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000200000 b_1- pi+ PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000240000 b_10 pi0 PARTWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000168000 pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.0000545 K*0 anti-K0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0000545 anti-K*0 K0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000022 rho0 eta PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000021000 omega pi0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000028000 phi eta PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000008 rho+ pi- PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000008 rho- pi+ PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000008 rho0 pi0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000001 phi pi0 PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000001 omega eta PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0000085 K*+ K- PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0000085 K*- K+ PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.000185000 omega K+ K- PHSP; #[Reconstructed PDG2011]
0.000340000 K+ K- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000600000 p+ anti-p- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000133000 p+ anti-p- pi0 PHSP; #[Reconstructed PDG2011]
0.000276000 p+ anti-p- PHSP; #[Reconstructed PDG2011]
0.000500000 K_1+ K- PHSP; #[Reconstructed PDG2011]
0.000500000 K_1- K+ PHSP; #[Reconstructed PDG2011]
0.000220000 rho0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000280000 Lambda0 anti-Lambda0 PHSP; #[Reconstructed PDG2011]
0.000128000 Delta++ anti-Delta-- PHSP; #[Reconstructed PDG2011]
0.000220000 Sigma0 anti-Sigma0 PHSP; #[Reconstructed PDG2011]
0.00026 Sigma*+ anti-Sigma*- PHSP;
0.000180000 Xi- anti-Xi+ PHSP; #[Reconstructed PDG2011]
0.000080000 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000063000 K+ K- PHSP; #[Reconstructed PDG2011]
0.000070000 phi K- K+ PHSP; #[Reconstructed PDG2011]
0.000117000 phi pi- pi+ PHSP; #[Reconstructed PDG2011]
0.000170000 pi+ pi- K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.0008 h_c pi0 PHSP;
0.0 K0 anti-K0 PHSP;
0.0 K_S0 K_S0 PHSP;
0.0 K_L0 K_L0 PHSP;
0.000054000 K_S0 K_L0 PHSP; #[Reconstructed PDG2011]
#
# March 2009 New Modes
0.004800000 pi+ pi- pi+ pi- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.001200000 pi+ pi- pi+ pi- eta PHSP; #[Reconstructed PDG2011]
0.001300000 K+ K- pi+ pi- eta PHSP; #[Reconstructed PDG2011]
0.001000000 K+ K- pi+ pi- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
0.001900000 K+ K- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001260000 K+ K- pi+ pi- pi0 PHSP; #[Reconstructed PDG2011]
#
0.013568632 rndmflav anti-rndmflav PYTHIA 12; #[Reconstructed PDG2011]
0.103318590 g g g PYTHIA 4; #[Reconstructed PDG2011]
0.007344778 gamma g g PYTHIA 4; #[Reconstructed PDG2011]
0.000100000 Lambda0 anti-p- K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000180000 Lambda0 anti-p- K+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000280000 Lambda0 anti-Lambda0 pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000260000 Sigma+ anti-Sigma- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000280000 Xi0 anti-Xi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000060000 eta p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000069000 omega p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000320000 p+ anti-n0 pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000950000 eta pi+ pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000450000 eta' pi+ pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 omega pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000220000 omega f_2 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000220000 rho0 K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000190000 K*0 anti-K_2*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000050000 rho0 p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000020000 pi+ pi- pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000730000 p+ anti-p- pi+ pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000060000 K+ K- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000110000 K+ K- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000031000 phi eta' PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000032000 omega eta' PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000027000 p+ anti-p- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000044000 phi f'_2 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000870000 gamma eta pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000400000 gamma pi+ pi- pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000190000 gamma K+ K- pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000029000 gamma p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000028000 gamma pi+ pi- p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay psi(4040)
-0.000010700 e+ e- PHOTOS VLL; #[Reconstructed PDG2011]
-0.000014000 mu+ mu- PHOTOS VLL; #[Reconstructed PDG2011]
+0.000010700 e+ e- FSR VLL; #[Reconstructed PDG2011]
+0.000014000 mu+ mu- FSR VLL; #[Reconstructed PDG2011]
0.000005000 tau+ tau- VLL; #[Reconstructed PDG2011]
0.002099938 D0 anti-D0 VSS; #[Reconstructed PDG2011]
0.000899973 D+ D- VSS; #[Reconstructed PDG2011]
0.167895013 D*0 anti-D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.167895013 anti-D*0 D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.181494610 D*+ D- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.181494610 D*- D+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.159695257 D*0 anti-D*0 PHSP; #[Reconstructed PDG2011]
0.098197084 D*+ D*- PHSP; #[Reconstructed PDG2011]
0.000000000 D0 anti-D0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D+ D- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D0 D- pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-D0 D+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 D*+ D- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D*- D+ pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D*+ anti-D0 pi- PHSP; #[Reconstructed PDG2011]
0.000000000 D*- D0 pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 D+ anti-D*0 pi- PHSP; #[Reconstructed PDG2011]
0.000000000 D- D*0 pi+ PHSP; #[Reconstructed PDG2011]
0.040298803 D_s+ D_s- VSS; #[Reconstructed PDG2011]
Enddecay
#
Decay psi(4160)
-0.000008100 e+ e- PHOTOS VLL; #[Reconstructed PDG2011]
-0.000009999 mu+ mu- PHOTOS VLL; #[Reconstructed PDG2011]
+0.000008100 e+ e- FSR VLL; #[Reconstructed PDG2011]
+0.000009999 mu+ mu- FSR VLL; #[Reconstructed PDG2011]
0.000006000 tau+ tau- VLL; #[Reconstructed PDG2011]
0.039697852 D0 anti-D0 VSS; #[Reconstructed PDG2011]
0.038697906 D+ D- VSS; #[Reconstructed PDG2011]
0.051997187 D*0 anti-D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.051997187 anti-D*0 D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.051497214 D*+ D- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.051497214 D*- D+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.298613845 D*0 anti-D*0 PHSP; #[Reconstructed PDG2011]
0.308183327 D*+ D*- PHSP; #[Reconstructed PDG2011]
0.000000000 D0 anti-D0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D+ D- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D0 D- pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-D0 D+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 D*+ D- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D*- D+ pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D*+ anti-D0 pi- PHSP; #[Reconstructed PDG2011]
0.000000000 D*- D0 pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 D+ anti-D*0 pi- PHSP; #[Reconstructed PDG2011]
0.000000000 D- D*0 pi+ PHSP; #[Reconstructed PDG2011]
0.009999459 D_s+ D_s- VSS; #[Reconstructed PDG2011]
0.048897355 D_s*+ D_s- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.048897355 D_s*- D_s+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.000000000 D_s+ D_s- pi0 PHSP; #[Reconstructed PDG2011]
Enddecay
#
Decay psi(4415)
-0.000009400 e+ e- PHOTOS VLL; #[Reconstructed PDG2011]
-0.000011000 mu+ mu- PHOTOS VLL; #[Reconstructed PDG2011]
+0.000009400 e+ e- FSR VLL; #[Reconstructed PDG2011]
+0.000011000 mu+ mu- FSR VLL; #[Reconstructed PDG2011]
0.000007000 tau+ tau- VLL; #[Reconstructed PDG2011]
0.024399331 D0 anti-D0 VSS; #[Reconstructed PDG2011]
0.021899400 D+ D- VSS; #[Reconstructed PDG2011]
0.031999123 D*0 anti-D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.031999123 anti-D*0 D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.034299060 D*+ D- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.034299060 D*- D+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.345090544 D*0 anti-D*0 PHSP; #[Reconstructed PDG2011]
0.353890303 D*+ D*- PHSP; #[Reconstructed PDG2011]
0.000000000 D0 anti-D0 pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D+ D- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D0 D- pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-D0 D+ pi- PHSP; #[Reconstructed PDG2011]
0.000000000 D*+ D- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D*- D+ pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D*+ anti-D0 pi- PHSP; #[Reconstructed PDG2011]
0.000000000 D*- D0 pi+ PHSP; #[Reconstructed PDG2011]
0.000000000 D+ anti-D*0 pi- PHSP; #[Reconstructed PDG2011]
0.000000000 D- D*0 pi+ PHSP; #[Reconstructed PDG2011]
0.011799677 D_s+ D_s- VSS; #[Reconstructed PDG2011]
0.041998849 D_s*+ D_s- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.041998849 D_s*- D_s+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.026299279 D_s*+ D_s*- PHSP; #[Reconstructed PDG2011]
0.000000000 D_s+ D_s- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D_s*+ D_s- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D_s+ D_s*- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 D_s+ D- anti-K0 PHSP; #[Reconstructed PDG2011]
0.000000000 D_s- D+ anti-K0 PHSP; #[Reconstructed PDG2011]
0.000000000 D0 D_s- K+ PHSP; #[Reconstructed PDG2011]
0.000000000 anti-D0 D_s+ K- PHSP; #[Reconstructed PDG2011]
Enddecay
#
Decay chi_c0
0.011600000 gamma J/psi PHSP; #[Reconstructed PDG2011]
0.000228000 p+ anti-p- PHSP; #[Reconstructed PDG2011]
0.000222000 gamma gamma PHSP; #[Reconstructed PDG2011]
0.00243 pi0 pi0 PHSP;
0.00487 pi+ pi- PHSP;
0.013800000 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.002810000 K+ K- K+ K- PHSP; #[Reconstructed PDG2011]
0.012000000 pi+ pi- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.008900000 rho0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.0100 rho+ pi- pi0 PHSP;
0.0100 rho- pi+ pi0 PHSP;
0.00057 K+ K- PHSP;
0.000920000 phi phi PHSP; #[Reconstructed PDG2011]
0.001700000 anti-K*0 K*0 PHSP; #[Reconstructed PDG2011]
0.0036 anti-K*0 K+ pi- PHSP;
0.0036 K*0 K- pi+ PHSP;
0.0043 K*+ anti-K0 pi- PHSP;
0.0043 K*- K0 pi+ PHSP;
0.018000000 pi+ pi- K+ K- PHSP; #[Reconstructed PDG2011]
0.002100000 pi+ pi- p+ anti-p- PHSP; #[Reconstructed PDG2011]
0.002680000 eta eta PHSP; #[Reconstructed PDG2011]
0.000330000 Lambda0 anti-Lambda0 PHSP; #[Reconstructed PDG2011]
0.00086 f_0 f_0 PHSP;
0.0 K0 anti-K0 PHSP;
0.003160000 K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.00282 K_L0 K_L0 PHSP;
0.0 K_S0 K_L0 PHSP;
#
# March 2009 New Modes
0.002030000 eta' eta' PHSP; #[Reconstructed PDG2011]
0.002200000 omega omega PHSP; #[Reconstructed PDG2011]
0.00325 K_1+ K- PHSP;
0.00325 K_1- K+ PHSP;
0.000990000 K+ K- phi PHSP; #[Reconstructed PDG2011]
0.001140000 p+ anti-n0 pi- PHSP; #[Reconstructed PDG2011]
0.000525 K+ anti-p- Lambda0 PHSP;
0.000525 K- p+ Lambda0 PHSP;
0.005800000 K_S0 K_S0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.00590 K_L0 K_L0 pi+ pi- PHSP;
0.00000 K0 anti-K0 pi+ pi- PHSP;
0.001400000 K+ K- K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.00150 K+ K- K_L0 K_L0 PHSP;
0.00000 K+ K- K0 anti-K0 PHSP;
#
0.799360000 rndmflav anti-rndmflav PYTHIA 12; #[Reconstructed PDG2011]
0.034000000 pi+ pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.005700000 K+ K- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.003100000 K+ K- eta pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000570000 p+ anti-p- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000370000 p+ anti-p- eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001050000 pi0 pi0 p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000420000 Sigma0 anti-Sigma0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000310000 Sigma+ anti-Sigma- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000320000 Xi0 anti-Xi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000490000 Xi- anti-Xi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay chi_c1
0.344000000 J/psi gamma VVP 1.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0; #[Reconstructed PDG2011]
0.007600000 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000073000 p+ anti-p- PHSP; #[Reconstructed PDG2011]
0.005800000 pi+ pi- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.004500000 pi+ pi- K+ K- PHSP; #[Reconstructed PDG2011]
0.003900000 rho0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.0020 rho+ pi- pi0 PHSP;
0.0020 rho- pi+ pi0 PHSP;
0.0016 anti-K*0 K+ pi- PHSP;
0.0016 K*0 K- pi+ PHSP;
0.001500000 anti-K*0 K*0 PHSP; #[Reconstructed PDG2011]
0.0009 K*+ anti-K0 pi- PHSP;
0.0009 K*- K0 pi+ PHSP;
0.000500000 pi+ pi- p+ anti-p- PHSP; #[Reconstructed PDG2011]
0.000720000 pi+ pi- K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.0003 K+ K- K_S0 K_S0 PHSP;
0.000118000 Lambda0 anti-Lambda0 PHSP; #[Reconstructed PDG2011]
0.00385 K+ anti-K0 pi- PHSP;
0.00385 K- K0 pi+ PHSP;
0.000560000 K+ K- K+ K- PHSP; #[Reconstructed PDG2011]
0.00000 K0 anti-K0 PHSP;
0.00001 K_S0 K_S0 PHSP;
0.00001 K_L0 K_L0 PHSP;
0.00000 K_S0 K_L0 PHSP;
#
# March 2009 New Modes
0.002200000 pi+ pi- eta PHSP; #[Reconstructed PDG2011]
0.002400000 pi+ pi- eta' PHSP; #[Reconstructed PDG2011]
0.001910000 K+ K- pi0 PHSP; #[Reconstructed PDG2011]
#
0.587724 rndmflav anti-rndmflav PYTHIA 12;
0.008700000 pi+ pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001180000 K+ K- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001200000 K+ K- eta pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000330000 K+ K- eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002800000 f_2 eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000430000 K+ K- phi PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000120000 p+ anti-p- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000320000 K+ anti-p- Lambda0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000084000 Xi- anti-Xi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000229000 gamma rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000078000 gamma omega PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay chi_c2
0.195000000 gamma J/psi PHSP; #[Reconstructed PDG2011]
0.000256000 gamma gamma PHSP; #[Reconstructed PDG2011]
0.000072000 p+ anti-p- PHSP; #[Reconstructed PDG2011]
0.00072 pi0 pi0 TSS;
0.00145 pi+ pi- TSS;
0.011100000 pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.001780000 K+ K- K+ K- PHSP; #[Reconstructed PDG2011]
0.008600000 pi+ pi- pi+ pi- pi+ pi- PHSP; #[Reconstructed PDG2011]
0.009200000 pi+ pi- K+ K- PHSP; #[Reconstructed PDG2011]
0.004000000 rho0 pi+ pi- PHSP; #[Reconstructed PDG2011]
0.0046 rho+ pi- pi0 PHSP;
0.0046 rho- pi+ pi0 PHSP;
0.001090000 K+ K- TSS; #[Reconstructed PDG2011]
0.002400000 pi+ pi- K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.0003 K+ K- K_S0 K_S0 PHSP;
0.001480000 phi phi PHSP; #[Reconstructed PDG2011]
0.00115 anti-K*0 K+ pi- PHSP;
0.00115 K*0 K- pi+ PHSP;
0.002500000 anti-K*0 K*0 PHSP; #[Reconstructed PDG2011]
0.0016 K*+ anti-K0 pi- PHSP;
0.0016 K*- K0 pi+ PHSP;
0.001320000 pi+ pi- p+ anti-p- PHSP; #[Reconstructed PDG2011]
0.000186000 Lambda0 anti-Lambda0 PHSP; #[Reconstructed PDG2011]
0.00000 K0 anti-K0 PHSP;
0.000580000 K_S0 K_S0 PHSP; #[Reconstructed PDG2011]
0.00065 K_L0 K_L0 PHSP;
0.00000 K_S0 K_L0 PHSP;
#
# March 2009 New Modes
0.001900000 omega omega PHSP; #[Reconstructed PDG2011]
0.0007 anti-K0 K+ pi- PHSP;
0.0007 K0 K- pi+ PHSP;
0.001550000 K+ K- phi PHSP; #[Reconstructed PDG2011]
0.001100000 p+ anti-n0 pi- PHSP; #[Reconstructed PDG2011]
#
0.709461000 rndmflav anti-rndmflav PYTHIA 12; #[Reconstructed PDG2011]
0.020000000 pi+ pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002200000 K+ K- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001400000 K+ K- eta pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000520000 pi+ pi- eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000540000 pi+ pi- eta' PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000540000 eta eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000330000 K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000470000 p+ anti-p- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000200000 p+ anti-p- eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000850000 pi0 pi0 p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000155000 Xi- anti-Xi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay psi(3770)
0.410000000 D+ D- VSS; #[Reconstructed PDG2011]
0.520000000 D0 anti-D0 VSS; #[Reconstructed PDG2011]
0.001930000 J/psi pi+ pi- PHSP; #[Reconstructed PDG2011]
0.000800000 J/psi pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.0073 gamma chi_c0 PHSP;
0.0029 gamma chi_c1 PHSP;
0.055850300 rndmflav anti-rndmflav PYTHIA 12; #[Reconstructed PDG2011]
0.000900000 J/psi eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000009700 e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000310000 phi eta PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay X_1(3872)
1.000 rndmflav anti-rndmflav PYTHIA 12;
Enddecay
#
#
# bb= Mesons Updated to PDG 2008
#
Decay eta_b
1.000 rndmflav anti-rndmflav PYTHIA 12;
Enddecay
#
Decay Upsilon
-0.024800000 e+ e- PHOTOS VLL; #[Reconstructed PDG2011]
-0.024800000 mu+ mu- PHOTOS VLL; #[Reconstructed PDG2011]
+0.024800000 e+ e- FSR VLL; #[Reconstructed PDG2011]
+0.024800000 mu+ mu- FSR VLL; #[Reconstructed PDG2011]
0.026000000 tau+ tau- VLL; #[Reconstructed PDG2011]
0.014959973 d anti-d PYTHIA 32; #[Reconstructed PDG2011]
0.044879919 u anti-u PYTHIA 32; #[Reconstructed PDG2011]
0.014959973 s anti-s PYTHIA 32; #[Reconstructed PDG2011]
0.044879919 c anti-c PYTHIA 32; #[Reconstructed PDG2011]
0.774328202 g g g PYTHIA 4; #[Reconstructed PDG2011]
0.028922614 gamma g g PYTHIA 4; #[Reconstructed PDG2011]
0.000063000 gamma pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000017000 gamma pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000011400 gamma K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000290000 gamma pi+ pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000250000 gamma pi+ pi+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000250000 gamma pi+ pi+ pi+ pi- pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000240000 gamma pi+ pi+ pi- pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000150000 gamma pi+ pi- p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000040000 gamma pi+ pi+ pi- pi- p+ anti-p- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000020000 gamma K+ K+ K- K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000037000 gamma f'_2 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000101000 gamma f_2 PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay Upsilon(2S)
-0.019100000 e+ e- PHOTOS VLL; #[Reconstructed PDG2011]
-0.019300000 mu+ mu- PHOTOS VLL; #[Reconstructed PDG2011]
+0.019100000 e+ e- FSR VLL; #[Reconstructed PDG2011]
+0.019300000 mu+ mu- FSR VLL; #[Reconstructed PDG2011]
0.020000000 tau+ tau- VLL; #[Reconstructed PDG2011]
0.181000000 Upsilon pi+ pi- PHSP; #[Reconstructed PDG2011]
0.086000000 Upsilon pi0 pi0 PHSP; #[Reconstructed PDG2011]
# V-> gamma S Partial wave (L,S)=(0,1)
0.038000000 gamma chi_b0 HELAMP 1. 0. +1. 0.; #[Reconstructed PDG2011]
# V-> gamma V Partial wave (L,S)=(0,1)
0.069000000 gamma chi_b1 HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; #[Reconstructed PDG2011]
# V-> gamma T Partial wave (L,S)=(0,1)
0.071500000 gamma chi_b2 HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.; #[Reconstructed PDG2011]
0.00500 d anti-d PYTHIA 32;
0.02000 u anti-u PYTHIA 32;
0.00500 s anti-s PYTHIA 32;
0.02000 c anti-c PYTHIA 32;
0.42160 g g g PYTHIA 4;
0.01600 gamma g g PYTHIA 4;
0.000210000 Upsilon eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000390000 gamma eta_b PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay Upsilon(3S)
-0.0181 e+ e- PHOTOS VLL;
-0.021800000 mu+ mu- PHOTOS VLL; #[Reconstructed PDG2011]
+0.0181 e+ e- FSR VLL;
+0.021800000 mu+ mu- FSR VLL; #[Reconstructed PDG2011]
0.022900000 tau+ tau- VLL; #[Reconstructed PDG2011]
0.044000000 Upsilon pi+ pi- PHSP; #[Reconstructed PDG2011]
0.022000000 Upsilon pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.024500000 Upsilon(2S) pi+ pi- PHSP; #[Reconstructed PDG2011]
0.018500000 Upsilon(2S) pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.050000000 Upsilon(2S) gamma gamma PHSP; #[Reconstructed PDG2011]
# V-> gamma S Partial wave (L,S)=(0,1)
0.059000000 gamma chi_b0(2P) HELAMP 1. 0. 1. 0.; #[Reconstructed PDG2011]
# V-> gamma V Partial wave (L,S)=(0,1)
0.126000000 gamma chi_b1(2P) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; #[Reconstructed PDG2011]
# V-> gamma T Partial wave (L,S)=(0,1)
0.131000000 gamma chi_b2(2P) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.; #[Reconstructed PDG2011]
0.00700 d anti-d PYTHIA 32;
0.02800 u anti-u PYTHIA 32;
0.00700 s anti-s PYTHIA 32;
0.02800 c anti-c PYTHIA 32;
0.37780 g g g PYTHIA 4;
0.01000 gamma g g PYTHIA 4;
0.003000000 gamma chi_b0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000510000 gamma eta_b PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay Upsilon(5S)
0.5 B+ B- PHSP;
0.481487200 g g g PYTHIA 4; #[Reconstructed PDG2011]
0.000002800 e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.005300000 Upsilon pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.007800000 Upsilon(2S) pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.004800000 Upsilon(3S) pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000610000 Upsilon K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay chi_b0
# S-> gamma V Partial wave (L,S)=(0,0)
0.0500 gamma Upsilon HELAMP 1. 0. 1. 0.;
0.949650000 rndmflav anti-rndmflav PYTHIA 12; #[Reconstructed PDG2011]
0.000110000 pi+ pi+ pi- pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000240000 pi+ pi+ pi+ pi- pi- pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay chi_b1
# V-> gamma V Partial wave (L,S)=(0,1)
0.350000000 gamma Upsilon HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; #[Reconstructed PDG2011]
0.643080000 g g PYTHIA 32; #[Reconstructed PDG2011]
0.000200000 pi+ pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000800000 pi+ pi+ pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000150000 pi+ pi+ pi- pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000350000 pi+ pi+ pi- pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000860000 pi+ pi+ pi- pi- K+ K- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000190000 pi+ pi+ pi+ pi- pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001700000 pi+ pi+ pi+ pi- pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000260000 pi+ pi+ pi+ pi- pi- pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000750000 pi+ pi+ pi+ pi- pi- pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000260000 pi+ pi+ pi+ pi+ pi- pi- pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001400000 pi+ pi+ pi+ pi+ pi- pi- pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay chi_b2
# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP.
0.220000000 gamma Upsilon PHSP; #[Reconstructed PDG2011]
#0.2200 gamma Upsilon HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
0.775550000 g g PYTHIA 32; #[Reconstructed PDG2011]
0.000080000 pi+ pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000350000 pi+ pi+ pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000110000 pi+ pi+ pi- pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000210000 pi+ pi+ pi- pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000390000 pi+ pi+ pi- pi- K+ K- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000070000 pi+ pi+ pi+ pi- pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001000000 pi+ pi+ pi+ pi- pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000360000 pi+ pi+ pi+ pi- pi- pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000080000 pi+ pi+ pi+ pi+ pi- pi- pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001800000 pi+ pi+ pi+ pi+ pi- pi- pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay chi_b0(2P)
# S-> gamma V Partial wave (L,S)=(0,0)
0.009000000 gamma Upsilon HELAMP 1. 0. 1. 0.; #[Reconstructed PDG2011]
0.046000000 gamma Upsilon(2S) HELAMP 1. 0. 1. 0.; #[Reconstructed PDG2011]
# S-> gamma V Partial wave (L,S)=(0,0)
0.00150 gamma Upsilon_1(1D) HELAMP 1. 0. 1. 0.;
0.94350 g g PYTHIA 32;
Enddecay
#
Decay chi_b1(2P)
# V-> gamma V Partial wave (L,S)=(0,1)
0.085000000 gamma Upsilon HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; #[Reconstructed PDG2011]
0.210000000 gamma Upsilon(2S) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; #[Reconstructed PDG2011]
# V-> gamma V Partial wave (L,S)=(0,1)
0.0097 gamma Upsilon_1(1D) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
# V-> gamma T Partial wave (L,S)=(0,1)
0.0236 gamma Upsilon_2(1D) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.;
0.648650000 g g PYTHIA 32; #[Reconstructed PDG2011]
0.016300000 omega Upsilon PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000310000 pi+ pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000590000 pi+ pi+ pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000100000 pi+ pi+ pi- pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000550000 pi+ pi+ pi- pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001000000 pi+ pi+ pi- pi- K+ K- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000120000 pi+ pi+ pi+ pi- pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001200000 pi+ pi+ pi+ pi- pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000200000 pi+ pi+ pi+ pi- pi- pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000610000 pi+ pi+ pi+ pi- pi- pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000170000 pi+ pi+ pi+ pi+ pi- pi- pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001900000 pi+ pi+ pi+ pi+ pi- pi- pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay chi_b2(2P)
# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP.
0.071000000 gamma Upsilon PHSP; #[Reconstructed PDG2011]
#0.0710 gamma Upsilon HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
0.162000000 gamma Upsilon(2S) PHSP; #[Reconstructed PDG2011]
#0.1620 gamma Upsilon(2S) HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP.
0.00023 gamma Upsilon_1(1D) PHSP;
#0.00023 gamma Upsilon_1(1D) HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
# T -> gamma T Partial wave (L,S)=(0,2)
0.00290 gamma Upsilon_2(1D) PHSP;
#0.00290 gamma Upsilon_2(1D) HELAMP -1. 0. -1.2247449 0.
# -1.2247449 0. -1. 0.
# 1. 0. 1.2247449 0.
# 1.2247449 0. 1. 0.;
# spin 3 not yet in HELAMP.
0.01420 gamma Upsilon_3(1D) PYTHIA 0;
# T-> gamma 3 Partial wave (L,S)=(0,2)
#0.01420 gamma Upsilon_3(1D) HELAMP 3.8729833 0. 3.1622777 0.
# 2.4494897 0. 1.7320508. 0. 1. 0.
# 1. 0. 1.7320508 0. 2.4494897 0.
# 3.1622777 0. 3.8729833 0.;
0.734240000 g g PYTHIA 32; #[Reconstructed PDG2011]
0.011000000 omega Upsilon PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000390000 pi+ pi+ pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000090000 pi+ pi+ pi- pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000240000 pi+ pi+ pi- pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000470000 pi+ pi+ pi- pi- K+ K- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000090000 pi+ pi+ pi+ pi- pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001200000 pi+ pi+ pi+ pi- pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000140000 pi+ pi+ pi+ pi- pi- pi- K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000420000 pi+ pi+ pi+ pi- pi- pi- K+ K- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000090000 pi+ pi+ pi+ pi+ pi- pi- pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001300000 pi+ pi+ pi+ pi+ pi- pi- pi- pi- pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay h_b
1.00000 g g PYTHIA 32;
Enddecay
Decay chi_b0(3P)
#see Kwong and Rosner, PRD 38,279 (1988)
# S-> gamma V Partial wave (L,S)=(0,0)
0.01700 gamma Upsilon(3S) HELAMP 1. 0. 1. 0.;
# S-> gamma V Partial wave (L,S)=(0,0)
0.00400 gamma Upsilon_1(2D) HELAMP 1. 0. 1. 0.;
0.97900 g g PYTHIA 32;
Enddecay
Decay chi_b1(3P)
#see Kwong and Rosner, PRD 38,279 (1988)
# V-> gamma V Partial wave (L,S)=(0,1)
0.15000 gamma Upsilon(3S) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
# V-> gamma T Partial wave (L,S)=(0,1)
0.03100 gamma Upsilon_2(2D) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.;
# V-> gamma V Partial wave (L,S)=(0,1)
0.01300 gamma Upsilon_1(2D) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
0.80600 g g PYTHIA 32;
Enddecay
Decay chi_b2(3P)
#see Kwong and Rosner, PRD 38,279 (1988)
# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP.
0.08700 gamma Upsilon(3S) PHSP;
0.00000 gamma Upsilon(2S) PHSP;
0.00000 gamma Upsilon PHSP;
#0.08700 gamma Upsilon(3S) HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
#0.00000 gamma Upsilon(2S) HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
#0.00000 gamma Upsilon HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
# spin 3 not yet in HELAMP
0.02200 Upsilon_3(2D) gamma PHSP;
# T -> gamma 3 Partial wave (L,S)=(0,2)
#0.02200 gamma Upsilon_3(2D) HELAMP 3.8729833 0. 3.1622777 0.
# 2.4494897 0. 1.7320508. 0. 1. 0.
# 1. 0. 1.7320508 0. 2.4494897 0.
# 3.1622777 0. 3.8729833 0.;
# T -> gamma T Partial wave (L,S)=(0,2)
0.00400 gamma Upsilon_2(2D) PHSP;
#0.00400 gamma Upsilon_2(2D) HELAMP -1. 0. -1.2247449 0.
# -1.2247449 0. -1. 0.
# 1. 0. 1.2247449 0.
# 1.2247449 0. 1. 0.;
# T-> gamma V Partial wave (L,S)=(0,2)
0.00040 gamma Upsilon_1(2D) PHSP;
#0.00040 gamma Upsilon_1(2D) HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
0.88660 g g PYTHIA 32;
Enddecay
Decay Upsilon_1(1D)
#see Kwong and Rosner, PRD 38,279 (1988)
0.00140 Upsilon pi+ pi- PHSP;
0.00070 Upsilon pi0 pi0 PHSP;
# V-> gamma S Partial wave (L,S)=(0,1)
0.60200 gamma chi_b0 HELAMP 1. 0. +1. 0.;
# V-> gamma V Partial wave (L,S)=(0,1)
0.31800 gamma chi_b1 HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
# V-> gamma T Partial wave (L,S)=(0,1)
0.02600 gamma chi_b2 HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.;
0.05190 g g g PYTHIA 4;
Enddecay
Decay Upsilon_2(1D)
#see Kwong and Rosner, PRD 38,279 (1988)
0.00140 Upsilon pi+ pi- PHSP;
0.00070 Upsilon pi0 pi0 PHSP;
# T-> gamma T Partial wave (L,S)=(0,2)
0.20300 gamma chi_b2 PHSP;
#0.20300 gamma chi_b2 HELAMP -1. 0. -1.2247449 0.
# -1.2247449 0. -1. 0.
# 1. 0. 1.2247449 0.
# 1.2247449 0. 1. 0.;
# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP.
0.78500 gamma chi_b1 PHSP;
#0.78500 gamma chi_b1 HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
0.00990 g g g PYTHIA 4;
Enddecay
Decay Upsilon_3(1D)
#see Kwong and Rosner, PRD 38,279 (1988)
0.00200 Upsilon pi+ pi- PHSP;
0.00100 Upsilon pi0 pi0 PHSP;
0.95400 chi_b2 gamma PHSP;
0.04300 g g g PYTHIA 4;
Enddecay
Decay Upsilon_1(2D)
#see Kwong and Rosner, PRD 38,279 (1988)
0.00000 Upsilon pi+ pi- PHSP;
0.00000 Upsilon pi0 pi0 PHSP;
0.00000 Upsilon(2S) pi+ pi- PHSP;
0.00000 Upsilon(2S) pi0 pi0 PHSP;
# V-> gamma S Partial wave (L,S)=(0,1)
0.51000 gamma chi_b0(2P) HELAMP 1. 0. +1. 0.;
# V-> gamma V Partial wave (L,S)=(0,1)
0.26000 gamma chi_b1(2P) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.;
# V-> gamma T Partial wave (L,S)=(0,1)
0.01400 gamma chi_b2(2P) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.;
0.21600 g g g PYTHIA 4;
Enddecay
Decay Upsilon_2(2D)
#see Kwong and Rosner, PRD 38,279 (1988)
0.00000 Upsilon pi+ pi- PHSP;
0.00000 Upsilon pi0 pi0 PHSP;
0.00000 Upsilon(2S) pi+ pi- PHSP;
0.00000 Upsilon(2S) pi0 pi0 PHSP;
# T-> gamma T Partial wave (L,S)=(0,2)
0.04000 gamma chi_b2(2P) PHSP;
#0.04000 gamma chi_b2(2P) HELAMP -1. 0. -1.2247449 0.
# -1.2247449 0. -1. 0.
# 1. 0. 1.2247449 0.
# 1.2247449 0. 1. 0.;
# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP.
0.13000 gamma chi_b1(2P) PHSP;
#0.13000 gamma chi_b1(2P) HELAMP 1. 0. 1.7320508 0. 2.4494897 0.
# 2.4494897 0. 1.7320508 0. 1. 0.;
0.83000 g g g PYTHIA 4;
Enddecay
Decay Upsilon_3(2D)
#see Kwong and Rosner, PRD 38,279 (1988)
0.00000 Upsilon pi+ pi- PHSP;
0.00000 Upsilon pi0 pi0 PHSP;
0.00000 Upsilon(2S) pi+ pi- PHSP;
0.00000 Upsilon(2S) pi0 pi0 PHSP;
0.72000 chi_b2(2P) gamma PHSP;
0.28000 g g g PYTHIA 4;
Enddecay
Decay h_b(2P)
1.00000 g g PYTHIA 32;
Enddecay
Decay h_b(3P)
1.00000 g g PYTHIA 32;
Enddecay
Decay eta_b2(1D)
1.00000 g g PYTHIA 32;
Enddecay
Decay eta_b2(2D)
1.00000 g g PYTHIA 32;
Enddecay
#
# Charm Baryons
#
Decay Lambda_c+
0.021000000 e+ nu_e Lambda0 PYTHIA 42; #[Reconstructed PDG2011]
0.00500 e+ nu_e Sigma0 PYTHIA 42;
0.00500 e+ nu_e Sigma*0 PYTHIA 42;
0.00300 e+ nu_e n0 PYTHIA 42;
0.00200 e+ nu_e Delta0 PYTHIA 42;
0.00600 e+ nu_e p+ pi- PYTHIA 42;
0.00600 e+ nu_e n0 pi0 PYTHIA 42;
0.020000000 mu+ nu_mu Lambda0 PYTHIA 42; #[Reconstructed PDG2011]
0.00500 mu+ nu_mu Sigma0 PYTHIA 42;
0.00500 mu+ nu_mu Sigma*0 PYTHIA 42;
0.00300 mu+ nu_mu n0 PYTHIA 42;
0.00200 mu+ nu_mu Delta0 PYTHIA 42;
0.00600 mu+ nu_mu p+ pi- PYTHIA 42;
0.00600 mu+ nu_mu n0 pi0 PYTHIA 42;
0.008600000 Delta++ K- PYTHIA 0; #[Reconstructed PDG2011]
0.02500 Delta++ K*- PYTHIA 0;
0.023000000 p+ anti-K0 PYTHIA 0; #[Reconstructed PDG2011]
0.016000000 p+ anti-K*0 PYTHIA 0; #[Reconstructed PDG2011]
0.00500 Delta+ anti-K0 PYTHIA 0;
0.00500 Delta+ anti-K*0 PYTHIA 0;
0.010700000 Lambda0 pi+ PYTHIA 0; #[Reconstructed PDG2011]
0.00500 Lambda0 rho+ PYTHIA 0;
0.010500000 Sigma0 pi+ PYTHIA 0; #[Reconstructed PDG2011]
0.00400 Sigma0 rho+ PYTHIA 0;
0.00400 Sigma*0 pi+ PYTHIA 0;
0.00400 Sigma*0 rho+ PYTHIA 0;
0.010000000 Sigma+ pi0 PYTHIA 0; #[Reconstructed PDG2011]
0.005500000 Sigma+ eta PYTHIA 0; #[Reconstructed PDG2011]
0.00200 Sigma+ eta' PYTHIA 0;
0.00400 Sigma+ rho0 PYTHIA 0;
0.027000000 Sigma+ omega PYTHIA 0; #[Reconstructed PDG2011]
0.00300 Sigma*+ pi0 PYTHIA 0;
0.008500000 Sigma*+ eta PYTHIA 0; #[Reconstructed PDG2011]
0.00300 Sigma*+ rho0 PYTHIA 0;
0.00300 Sigma*+ omega PYTHIA 0;
0.003900000 Xi0 K+ PYTHIA 0; #[Reconstructed PDG2011]
0.00200 Xi0 K*+ PYTHIA 0;
0.002600000 Xi*0 K+ PYTHIA 0; #[Reconstructed PDG2011]
0.00100 Delta++ pi- PYTHIA 0;
0.00100 Delta++ rho- PYTHIA 0;
0.00200 p+ pi0 PYTHIA 0;
0.00100 p+ eta PYTHIA 0;
0.00100 p+ eta' PYTHIA 0;
0.00200 p+ rho0 PYTHIA 0;
0.00200 p+ omega PYTHIA 0;
0.000820000 p+ phi PYTHIA 0; #[Reconstructed PDG2011]
0.002800000 p+ f_0 PYTHIA 0; #[Reconstructed PDG2011]
0.00100 Delta+ pi0 PYTHIA 0;
0.00100 Delta+ eta PYTHIA 0;
0.00100 Delta+ eta' PYTHIA 0;
0.00100 Delta+ rho0 PYTHIA 0;
0.00100 Delta+ omega PYTHIA 0;
0.00300 n0 pi+ PYTHIA 0;
0.00300 n0 rho+ PYTHIA 0;
0.00300 Delta0 pi+ PYTHIA 0;
0.00300 Delta0 rho+ PYTHIA 0;
0.00500 Lambda0 K+ PYTHIA 0;
0.00500 Lambda0 K*+ PYTHIA 0;
0.00200 Sigma0 K+ PYTHIA 0;
0.00200 Sigma0 K*+ PYTHIA 0;
0.00100 Sigma*0 K+ PYTHIA 0;
0.00100 Sigma*0 K*+ PYTHIA 0;
0.00200 Sigma+ K0 PYTHIA 0;
0.002800000 Sigma+ K*0 PYTHIA 0; #[Reconstructed PDG2011]
0.00100 Sigma*+ K0 PYTHIA 0;
0.00100 Sigma*+ K*0 PYTHIA 0;
0.064094509 u anti-d d su_0 PYTHIA 13; #[Reconstructed PDG2011]
0.028102977 u anti-d d su_1 PYTHIA 13; #[Reconstructed PDG2011]
0.017256214 u anti-s d su_0 PYTHIA 13; #[Reconstructed PDG2011]
0.017256214 u anti-d d ud_0 PYTHIA 13; #[Reconstructed PDG2011]
0.046838295 s uu_1 PYTHIA 13; #[Reconstructed PDG2011]
0.069024855 u su_0 PYTHIA 13; #[Reconstructed PDG2011]
0.069024855 u su_1 PYTHIA 13; #[Reconstructed PDG2011]
0.014791040 d uu_1 PYTHIA 13; #[Reconstructed PDG2011]
0.007395520 u ud_0 PYTHIA 13; #[Reconstructed PDG2011]
0.007395520 u ud_1 PYTHIA 13; #[Reconstructed PDG2011]
0.025400000 p+ K- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.033000000 p+ anti-K0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.012000000 p+ anti-K0 eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.026000000 p+ anti-K0 pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.023000000 p+ K- pi+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.011000000 p+ K*- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001100000 p+ K- pi+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.008000000 p+ K- pi+ pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000700000 p+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001800000 p+ pi+ pi+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 p+ K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.036000000 Lambda0 pi+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.015000000 Lambda0 pi+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.011000000 Lambda0 pi+ rho0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 Lambda0 pi+ pi+ pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.009500000 Lambda0 pi+ eta PHSP; #[New mode added] #[Reconstructed PDG2011]
0.012000000 Lambda0 pi+ omega PHSP; #[New mode added] #[Reconstructed PDG2011]
0.004700000 Lambda0 K+ anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.036000000 Sigma+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.017000000 Sigma- pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.018000000 Sigma0 pi+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.008300000 Sigma0 pi+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 Sigma+ K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.003100000 Sigma+ phi PHSP; #[New mode added] #[Reconstructed PDG2011]
0.002500000 Xi- K+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000000000 Sigma+ K+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
CDecay anti-Lambda_c-
#
Decay Xi_c0
1.000 PYTHIA 84;
Enddecay
Decay anti-Xi_c0
1.000 PYTHIA 84;
Enddecay
#
Decay c-hadron
0.08000 e+ nu_e s specflav PYTHIA 42;
0.08000 mu+ nu_mu s specflav PYTHIA 42;
0.76000 u anti-d s specflav PYTHIA 11;
0.08000 u anti-s s specflav PYTHIA 11;
Enddecay
CDecay anti-c-hadron
#
Decay Sigma_c0
1.0000 Lambda_c+ pi- PHSP;
Enddecay
Decay anti-Sigma_c0
1.0000 anti-Lambda_c- pi+ PHSP;
Enddecay
#
Decay Sigma_c+
1.0000 Lambda_c+ pi0 PHSP;
Enddecay
Decay anti-Sigma_c-
1.0000 anti-Lambda_c- pi0 PHSP;
Enddecay
#
Decay Xi_c+
0.079535513 PYTHIA 84; #[Reconstructed PDG2011]
0.079535513 Sigma*+ anti-K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.025689971 Lambda0 K- pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.010339617 Sigma+ K- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.064423765 Sigma+ anti-K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.023065299 Sigma0 K- pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.043744532 Xi0 pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.079535513 Xi- pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.186113099 Xi0 pi+ pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.138391792 Xi0 pi- pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.182931679 Xi0 e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.005567486 Omega- K+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.007158196 p+ K- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.009544262 p+ anti-K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.038177046 Sigma+ pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.014316392 Sigma- pi+ pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.011930327 Sigma+ K+ K- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay anti-Xi_c-
0.079535513 PYTHIA 84; #[Reconstructed PDG2011]
0.079535513 anti-Sigma*- K0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.025689971 anti-Lambda0 K+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.010339617 anti-Sigma- K+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.064423765 anti-Sigma- K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.023065299 anti-Sigma0 K+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.043744532 anti-Xi0 pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.079535513 anti-Xi+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.186113099 anti-Xi0 pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.138391792 anti-Xi0 pi+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.182931679 anti-Xi0 e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.005567486 anti-Omega+ K- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.007158196 anti-p- K+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.009544262 anti-p- K*0 PHSP; #[New mode added] #[Reconstructed PDG2011]
0.038177046 anti-Sigma- pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.014316392 anti-Sigma+ pi- pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.011930327 anti-Sigma- K- K+ PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay Sigma_c++
1.0000 Lambda_c+ pi+ PHSP;
Enddecay
Decay anti-Sigma_c--
1.0000 anti-Lambda_c- pi- PHSP;
Enddecay
#
Decay Xi'_c+
0.1000 Lambda0 K- pi+ pi+ PHSP;
0.0800 Sigma0 K- pi+ pi+ PHSP;
0.8200 gamma Xi_c+ PHSP;
Enddecay
Decay anti-Xi'_c-
0.1000 anti-Lambda0 K+ pi- pi- PHSP;
0.0800 anti-Sigma0 K+ pi- pi- PHSP;
0.8200 gamma anti-Xi_c- PHSP;
Enddecay
#
Decay Xi'_c0
1.0000 gamma Xi_c0 PHSP;
Enddecay
Decay anti-Xi'_c0
1.0000 gamma anti-Xi_c0 PHSP;
Enddecay
#
# Light Baryons
# Lambda0 updated Feb 2009
Decay Lambda0
0.638719992 p+ pi- PHSP; #[Reconstructed PDG2011]
0.357719992 n0 pi0 PHSP; #[Reconstructed PDG2011]
0.001741600 n0 gamma PHSP; #[Reconstructed PDG2011]
0.000832160 p+ pi- gamma PHSP; #[Reconstructed PDG2011]
-0.000831216 p+ e- anti-nu_e PHOTOS PHSP; #[Reconstructed PDG2011]
-0.000155040 p+ mu- anti-nu_mu PHOTOS PHSP; #[Reconstructed PDG2011]
+0.000831216 p+ e- anti-nu_e FSR PHSP; #[Reconstructed PDG2011]
+0.000155040 p+ mu- anti-nu_mu FSR PHSP; #[Reconstructed PDG2011]
Enddecay
#
Decay anti-Lambda0
0.638719992 anti-p- pi+ PHSP; #[Reconstructed PDG2011]
0.357719992 anti-n0 pi0 PHSP; #[Reconstructed PDG2011]
0.001741600 anti-n0 gamma PHSP; #[Reconstructed PDG2011]
0.000832160 anti-p- pi+ gamma PHSP; #[Reconstructed PDG2011]
-0.000831216 anti-p- e+ nu_e PHOTOS PHSP; #[Reconstructed PDG2011]
-0.000155040 anti-p- mu+ nu_mu PHOTOS PHSP; #[Reconstructed PDG2011]
+0.000831216 anti-p- e+ nu_e FSR PHSP; #[Reconstructed PDG2011]
+0.000155040 anti-p- mu+ nu_mu FSR PHSP; #[Reconstructed PDG2011]
Enddecay
#
Decay Lambda(1405)0
0.3333 Sigma+ pi- PHSP;
0.3333 Sigma- pi+ PHSP;
0.3333 Sigma0 pi0 PHSP;
Enddecay
#
Decay anti-Lambda(1405)0
0.3333 anti-Sigma+ pi- PHSP;
0.3333 anti-Sigma- pi+ PHSP;
0.3333 anti-Sigma0 pi0 PHSP;
Enddecay
#
Decay Lambda(1520)0
0.23 p+ K- PHSP;
0.23 n0 anti-K0 PHSP;
0.14 Sigma+ pi- PHSP;
0.14 Sigma- pi+ PHSP;
0.14 Sigma0 pi0 PHSP;
0.0333 Lambda0 pi0 pi0 PHSP;
0.0667 Lambda0 pi+ pi- PHSP;
0.003 Sigma+ pi- pi0 PHSP;
0.003 Sigma- pi+ pi0 PHSP;
0.001 Sigma0 pi0 pi0 PHSP;
0.002 Sigma0 pi+ pi- PHSP;
0.011 Lambda0 gamma PHSP;
Enddecay
#
Decay anti-Lambda(1520)0
0.23 anti-p- K+ PHSP;
0.23 anti-n0 K0 PHSP;
0.14 anti-Sigma- pi+ PHSP;
0.14 anti-Sigma+ pi- PHSP;
0.14 anti-Sigma0 pi0 PHSP;
0.0333 anti-Lambda0 pi0 pi0 PHSP;
0.0667 anti-Lambda0 pi+ pi- PHSP;
0.003 anti-Sigma+ pi- pi0 PHSP;
0.003 anti-Sigma- pi+ pi0 PHSP;
0.001 anti-Sigma0 pi0 pi0 PHSP;
0.002 anti-Sigma0 pi+ pi- PHSP;
0.011 anti-Lambda0 gamma PHSP;
Enddecay
#
Decay Lambda(1600)0
0.176 p+ K- PHSP;
0.176 n0 anti-K0 PHSP;
0.216 Sigma+ pi- PHSP;
0.216 Sigma- pi+ PHSP;
0.216 Sigma0 pi0 PHSP;
Enddecay
#
Decay anti-Lambda(1600)0
0.176 anti-p- K+ PHSP;
0.176 anti-n0 K0 PHSP;
0.216 anti-Sigma+ pi- PHSP;
0.216 anti-Sigma- pi+ PHSP;
0.216 anti-Sigma0 pi0 PHSP;
Enddecay
#
Decay Lambda(1670)0
0.10 p+ K- PHSP;
0.10 n0 anti-K0 PHSP;
0.16 Sigma+ pi- PHSP;
0.16 Sigma- pi+ PHSP;
0.16 Sigma0 pi0 PHSP;
0.32 Lambda0 eta PHSP;
Enddecay
#
Decay anti-Lambda(1670)0
0.10 anti-p- K+ PHSP;
0.10 anti-n0 K0 PHSP;
0.16 anti-Sigma+ pi- PHSP;
0.16 anti-Sigma- pi+ PHSP;
0.16 anti-Sigma0 pi0 PHSP;
0.32 anti-Lambda0 eta PHSP;
Enddecay
#
Decay Lambda(1690)0
0.125 p+ K- PHSP;
0.125 n0 anti-K0 PHSP;
0.10 Sigma+ pi- PHSP;
0.10 Sigma- pi+ PHSP;
0.10 Sigma0 pi0 PHSP;
0.0833 Lambda0 pi0 pi0 PHSP;
0.1667 Lambda0 pi+ pi- PHSP;
0.067 Sigma+ pi- pi0 PHSP;
0.067 Sigma- pi+ pi0 PHSP;
0.022 Sigma0 pi0 pi0 PHSP;
0.044 Sigma0 pi+ pi- PHSP;
Enddecay
#
Decay anti-Lambda(1690)0
0.125 anti-p- K+ PHSP;
0.125 anti-n0 K0 PHSP;
0.10 anti-Sigma+ pi- PHSP;
0.10 anti-Sigma- pi+ PHSP;
0.10 anti-Sigma0 pi0 PHSP;
0.0833 anti-Lambda0 pi0 pi0 PHSP;
0.1667 anti-Lambda0 pi+ pi- PHSP;
0.067 anti-Sigma+ pi- pi0 PHSP;
0.067 anti-Sigma- pi+ pi0 PHSP;
0.022 anti-Sigma0 pi0 pi0 PHSP;
0.044 anti-Sigma0 pi+ pi- PHSP;
Enddecay
#
Decay Lambda(1800)0
0.165 p+ K- PHSP;
0.165 n0 anti-K0 PHSP;
0.08 Sigma+ pi- PHSP;
0.08 Sigma- pi+ PHSP;
0.08 Sigma0 pi0 PHSP;
0.003 Sigma*+ pi- PHSP;
0.003 Sigma*- pi+ PHSP;
0.004 Sigma*0 pi0 PHSP;
0.21 p+ K*- PHSP;
0.21 n0 anti-K*0 PHSP;
Enddecay
#
Decay anti-Lambda(1800)0
0.165 anti-p- K+ PHSP;
0.165 anti-n0 K0 PHSP;
0.08 anti-Sigma+ pi- PHSP;
0.08 anti-Sigma- pi+ PHSP;
0.08 anti-Sigma0 pi0 PHSP;
0.003 anti-Sigma*+ pi- PHSP;
0.003 anti-Sigma*- pi+ PHSP;
0.004 anti-Sigma*0 pi0 PHSP;
0.21 anti-p- K*+ PHSP;
0.21 anti-n0 K*0 PHSP;
Enddecay
#
Decay Lambda(1810)0
0.165 p+ K- PHSP;
0.165 n0 anti-K0 PHSP;
0.08 Sigma+ pi- PHSP;
0.08 Sigma- pi+ PHSP;
0.08 Sigma0 pi0 PHSP;
0.003 Sigma*+ pi- PHSP;
0.003 Sigma*- pi+ PHSP;
0.004 Sigma*0 pi0 PHSP;
0.21 p+ K*- PHSP;
0.21 n0 anti-K*0 PHSP;
Enddecay
#
Decay anti-Lambda(1810)0
0.165 anti-p- K+ PHSP;
0.165 anti-n0 K0 PHSP;
0.08 anti-Sigma+ pi- PHSP;
0.08 anti-Sigma- pi+ PHSP;
0.08 anti-Sigma0 pi0 PHSP;
0.003 anti-Sigma*+ pi- PHSP;
0.003 anti-Sigma*- pi+ PHSP;
0.004 anti-Sigma*0 pi0 PHSP;
0.21 anti-p- K*+ PHSP;
0.21 anti-n0 K*0 PHSP;
Enddecay
#
Decay Lambda(1820)0
0.34 p+ K- PHSP;
0.34 n0 anti-K0 PHSP;
0.06 Sigma+ pi- PHSP;
0.06 Sigma- pi+ PHSP;
0.06 Sigma0 pi0 PHSP;
0.04 Sigma*+ pi- PHSP;
0.04 Sigma*- pi+ PHSP;
0.04 Sigma*0 pi0 PHSP;
0.01 Lambda0 eta PHSP;
0.003 Sigma+ pi- pi0 PHSP;
0.004 Sigma- pi+ pi0 PHSP;
0.001 Sigma0 pi0 pi0 PHSP;
0.002 Sigma0 pi+ pi- PHSP;
Enddecay
#
Decay anti-Lambda(1820)0
0.34 anti-p- K+ PHSP;
0.34 anti-n0 K0 PHSP;
0.06 anti-Sigma+ pi- PHSP;
0.06 anti-Sigma- pi+ PHSP;
0.06 anti-Sigma0 pi0 PHSP;
0.04 anti-Sigma*+ pi- PHSP;
0.04 anti-Sigma*- pi+ PHSP;
0.04 anti-Sigma*0 pi0 PHSP;
0.01 anti-Lambda0 eta PHSP;
0.003 anti-Sigma+ pi- pi0 PHSP;
0.004 anti-Sigma- pi+ pi0 PHSP;
0.001 anti-Sigma0 pi0 pi0 PHSP;
0.002 anti-Sigma0 pi+ pi- PHSP;
Enddecay
#
Decay Lambda(1830)0
0.05 p+ K- PHSP;
0.05 n0 anti-K0 PHSP;
0.24 Sigma+ pi- PHSP;
0.24 Sigma- pi+ PHSP;
0.24 Sigma0 pi0 PHSP;
0.06 Sigma*+ pi- PHSP;
0.06 Sigma*- pi+ PHSP;
0.06 Sigma*0 pi0 PHSP;
Enddecay
#
Decay anti-Lambda(1830)0
0.05 anti-p- K+ PHSP;
0.05 anti-n0 K0 PHSP;
0.24 anti-Sigma+ pi- PHSP;
0.24 anti-Sigma- pi+ PHSP;
0.24 anti-Sigma0 pi0 PHSP;
0.06 anti-Sigma*+ pi- PHSP;
0.06 anti-Sigma*- pi+ PHSP;
0.06 anti-Sigma*0 pi0 PHSP;
Enddecay
#
#
Decay Sigma(1660)0
0.07 p+ K- PHSP;
0.07 n0 anti-K0 PHSP;
0.16 Lambda0 pi0 PHSP;
0.35 Sigma+ pi- PHSP;
0.35 Sigma- pi+ PHSP;
Enddecay
#
Decay anti-Sigma(1660)0
0.07 anti-p- K+ PHSP;
0.07 anti-n0 K0 PHSP;
0.16 anti-Lambda0 pi0 PHSP;
0.35 anti-Sigma+ pi- PHSP;
0.35 anti-Sigma- pi+ PHSP;
Enddecay
#
Decay Sigma(1670)0
0.07 p+ K- PHSP;
0.07 n0 anti-K0 PHSP;
0.16 Lambda0 pi0 PHSP;
0.35 Sigma+ pi- PHSP;
0.35 Sigma- pi+ PHSP;
Enddecay
#
Decay anti-Sigma(1670)0
0.07 anti-p- K+ PHSP;
0.07 anti-n0 K0 PHSP;
0.16 anti-Lambda0 pi0 PHSP;
0.35 anti-Sigma+ pi- PHSP;
0.35 anti-Sigma- pi+ PHSP;
Enddecay
#
Decay Sigma(1775)0
0.215 p+ K- PHSP;
0.215 n0 anti-K0 PHSP;
0.20 Lambda0 pi0 PHSP;
0.02 Sigma+ pi- PHSP;
0.02 Sigma- pi+ PHSP;
0.055 Sigma*+ pi- PHSP;
0.055 Sigma*- pi+ PHSP;
0.22 Lambda(1520)0 pi0 PHSP;
Enddecay
#
Decay anti-Sigma(1775)0
0.215 anti-p- K+ PHSP;
0.215 anti-n0 K0 PHSP;
0.20 anti-Lambda0 pi0 PHSP;
0.02 anti-Sigma+ pi- PHSP;
0.02 anti-Sigma- pi+ PHSP;
0.055 anti-Sigma*+ pi- PHSP;
0.055 anti-Sigma*- pi+ PHSP;
0.22 anti-Lambda(1520)0 pi0 PHSP;
Enddecay
Decay Sigma+
0.515454300 p+ pi0 PHSP; #[Reconstructed PDG2011]
0.482854300 n0 pi+ PHSP; #[Reconstructed PDG2011]
0.001225905 p+ gamma PHSP; #[Reconstructed PDG2011]
0.000445905 n0 pi+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000019590 Lambda0 e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay anti-Sigma-
0.515454300 anti-p- pi0 PHSP; #[Reconstructed PDG2011]
0.482854300 anti-n0 pi- PHSP; #[Reconstructed PDG2011]
0.001225905 anti-p- gamma PHSP; #[Reconstructed PDG2011]
0.000445905 anti-n0 pi- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000019590 anti-Lambda0 e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay Delta+
0.6630 p+ pi0 PHSP;
0.3310 n0 pi+ PHSP;
0.0060 p+ gamma PHSP;
Enddecay
Decay anti-Delta-
0.6630 anti-p- pi0 PHSP;
0.3310 anti-n0 pi- PHSP;
0.0060 anti-p- gamma PHSP;
Enddecay
#
Decay Delta++
1.0000 p+ pi+ PHSP;
Enddecay
Decay anti-Delta--
1.0000 anti-p- pi- PHSP;
Enddecay
#
Decay Xi*0
0.3330 Xi0 pi0 PHSP;
0.6670 Xi- pi+ PHSP;
Enddecay
Decay anti-Xi*0
0.3330 anti-Xi0 pi0 PHSP;
0.6670 anti-Xi+ pi- PHSP;
Enddecay
#
Decay Delta0
0.3310 p+ pi- PHSP;
0.6630 n0 pi0 PHSP;
0.0060 n0 gamma PHSP;
Enddecay
Decay anti-Delta0
0.3310 anti-p- pi+ PHSP;
0.6630 anti-n0 pi0 PHSP;
0.0060 anti-n0 gamma PHSP;
Enddecay
#
Decay Delta-
1.0000 n0 pi- PHSP;
Enddecay
Decay anti-Delta+
1.0000 anti-n0 pi+ PHSP;
Enddecay
#
Decay Sigma-
0.998015700 n0 pi- PHSP; #[Reconstructed PDG2011]
0.000460000 n0 pi- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001017000 n0 e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000450000 n0 mu- anti-nu_mu PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000057300 Lambda0 e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay anti-Sigma+
0.998015700 anti-n0 pi+ PHSP; #[Reconstructed PDG2011]
0.000460000 anti-n0 pi+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.001017000 anti-n0 e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000450000 anti-n0 mu+ nu_mu PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000057300 anti-Lambda0 e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay Sigma0
0.995024876 gamma Lambda0 PHSP; #[Reconstructed PDG2011]
0.004975124 Lambda0 e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay anti-Sigma0
0.995024876 gamma anti-Lambda0 PHSP; #[Reconstructed PDG2011]
0.004975124 anti-Lambda0 e- e+ PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay Sigma*-
0.8800 Lambda0 pi- PHSP;
0.0600 Sigma0 pi- PHSP;
0.0600 Sigma- pi0 PHSP;
Enddecay
Decay anti-Sigma*+
0.8800 anti-Lambda0 pi+ PHSP;
0.0600 anti-Sigma0 pi+ PHSP;
0.0600 anti-Sigma+ pi0 PHSP;
Enddecay
#
Decay Sigma*+
0.8800 Lambda0 pi+ PHSP;
0.0600 Sigma+ pi0 PHSP;
0.0600 Sigma0 pi+ PHSP;
Enddecay
Decay anti-Sigma*-
0.8800 anti-Lambda0 pi- PHSP;
0.0600 anti-Sigma- pi0 PHSP;
0.0600 anti-Sigma0 pi- PHSP;
Enddecay
#
Decay Sigma*0
0.8800 Lambda0 pi0 PHSP;
0.0600 Sigma+ pi- PHSP;
0.0600 Sigma- pi+ PHSP;
Enddecay
Decay anti-Sigma*0
0.8800 anti-Lambda0 pi0 PHSP;
0.0600 anti-Sigma- pi+ PHSP;
0.0600 anti-Sigma+ pi- PHSP;
Enddecay
#
Decay Xi0
0.995242400 Lambda0 pi0 PHSP; #[Reconstructed PDG2011]
0.001162400 Lambda0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000007600 Lambda0 e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.003330000 Sigma0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000253000 Sigma+ e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004600 Sigma+ mu- anti-nu_mu PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay anti-Xi0
0.995242400 anti-Lambda0 pi0 PHSP; #[Reconstructed PDG2011]
0.001162400 anti-Lambda0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000007600 anti-Lambda0 e- e+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.003330000 anti-Sigma0 gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000253000 anti-Sigma- e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000004600 anti-Sigma- mu+ nu_mu PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay Xi-
0.998870000 Lambda0 pi- PHSP; #[Reconstructed PDG2011]
0.000127000 Sigma- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000563000 Lambda0 e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000350000 Lambda0 mu- anti-nu_mu PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000087000 Sigma0 e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay anti-Xi+
0.998870000 anti-Lambda0 pi+ PHSP; #[Reconstructed PDG2011]
0.000127000 anti-Sigma+ gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000563000 anti-Lambda0 e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000350000 anti-Lambda0 mu+ nu_mu PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000087000 anti-Sigma0 e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay Xi*-
0.6670 Xi0 pi- PHSP;
0.3330 Xi- pi0 PHSP;
Enddecay
Decay anti-Xi*+
0.6670 anti-Xi0 pi+ PHSP;
0.3330 anti-Xi+ pi0 PHSP;
Enddecay
#
Decay Omega-
0.675949296 Lambda0 K- PHSP; #[Reconstructed PDG2011]
0.233949296 Xi0 pi- PHSP; #[Reconstructed PDG2011]
0.084828169 Xi- pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 Xi- pi+ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000493521 Xi*0 pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.004779718 Xi0 e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay anti-Omega+
0.675949296 anti-Lambda0 K+ PHSP; #[Reconstructed PDG2011]
0.233949296 anti-Xi0 pi+ PHSP; #[Reconstructed PDG2011]
0.084828169 anti-Xi+ pi0 PHSP; #[Reconstructed PDG2011]
0.000000000 anti-Xi+ pi- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.000493521 anti-Xi*0 pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.004779718 anti-Xi0 e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
#
Decay Sigma_c*0
1.0000 Lambda_c+ pi- PHSP;
Enddecay
CDecay anti-Sigma_c*0
#
Decay Sigma_c*+
1.0000 Lambda_c+ pi0 PHSP;
Enddecay
CDecay anti-Sigma_c*-
#
Decay Sigma_c*++
1.0000 Lambda_c+ pi+ PHSP;
Enddecay
CDecay anti-Sigma_c*--
#
Decay Xi_c*0
0.5000 Xi_c0 pi0 PHSP;
0.5000 Xi_c0 gamma PHSP;
Enddecay
CDecay anti-Xi_c*0
#
Decay Xi_c*+
0.5000 Xi_c+ pi0 PHSP;
0.5000 Xi_c+ gamma PHSP;
Enddecay
CDecay anti-Xi_c*-
#
Decay Omega_c0
1.00000 PYTHIA 84;
Enddecay
#
CDecay anti-Omega_c0
#
Decay Omega_c*0
1.0000 Omega_c0 gamma PHSP;
Enddecay
#
CDecay anti-Omega_c*0
#
Decay Xu0
# X_u^0 -> u anti-u
#
1.0 u anti-u PYTHIA 11;
Enddecay
Decay Xu+
# X_u^+ -> u anti-d
#
1.0 u anti-d PYTHIA 11;
Enddecay
CDecay Xu-
#lange - PYTHIA is making h_c mesons - better add a decay
# channel for them.
Decay h_c
0.01 J/psi pi0 PHSP;
0.5 eta_c gamma PHSP;
0.49 rndmflav anti-rndmflav PYTHIA 12;
Enddecay
# 12/08/03 RJT Update b-baryon decays...
Decay Lambda_b0
# SemiLeptonic Decays (inclusive BR = 7.7 +/- 1.8%)
0.050000000 Lambda_c+ e- anti-nu_e PHSP; #[Reconstructed PDG2011]
0.006300000 Lambda_c(2593)+ e- anti-nu_e PHSP; #[Reconstructed PDG2011]
0.011000000 Lambda_c(2625)+ e- anti-nu_e PHSP; #[Reconstructed PDG2011]
0.00000 Sigma_c0 pi+ e- anti-nu_e PHSP;
0.00000 Sigma_c+ pi0 e- anti-nu_e PHSP;
0.00000 Sigma_c++ pi- e- anti-nu_e PHSP;
0.00000 Sigma_c*0 pi+ e- anti-nu_e PHSP;
0.00000 Sigma_c*+ pi0 e- anti-nu_e PHSP;
0.00000 Sigma_c*++ pi- e- anti-nu_e PHSP;
#
0.050000000 Lambda_c+ mu- anti-nu_mu PHSP; #[Reconstructed PDG2011]
0.006300000 Lambda_c(2593)+ mu- anti-nu_mu PHSP; #[Reconstructed PDG2011]
0.011000000 Lambda_c(2625)+ mu- anti-nu_mu PHSP; #[Reconstructed PDG2011]
0.00000 Sigma_c0 pi+ mu- anti-nu_mu PHSP;
0.00000 Sigma_c+ pi0 mu- anti-nu_mu PHSP;
0.00000 Sigma_c++ pi- mu- anti-nu_mu PHSP;
0.00000 Sigma_c*0 pi+ mu- anti-nu_mu PHSP;
0.00000 Sigma_c*+ pi0 mu- anti-nu_mu PHSP;
0.00000 Sigma_c*++ pi- mu- anti-nu_mu PHSP;
#
0.01720 Lambda_c+ tau- anti-nu_tau PHSP;
0.00430 Lambda_c(2593)+ tau- anti-nu_tau PHSP;
0.00320 Lambda_c(2625)+ tau- anti-nu_tau PHSP;
0.00000 Sigma_c0 pi+ tau- anti-nu_tau PHSP;
0.00000 Sigma_c+ pi0 tau- anti-nu_tau PHSP;
0.00000 Sigma_c++ pi- tau- anti-nu_tau PHSP;
0.00000 Sigma_c*0 pi+ tau- anti-nu_tau PHSP;
0.00000 Sigma_c*+ pi0 tau- anti-nu_tau PHSP;
0.00000 Sigma_c*++ pi- tau- anti-nu_tau PHSP;
# Hadronic Decays with Lambda_c+
0.008800000 Lambda_c+ pi- PHSP; #[Reconstructed PDG2011]
0.02200 Lambda_c+ pi- pi+ pi- PHSP;
0.00055 Lambda_c+ K- PHSP;
0.02200 Lambda_c+ D_s- PHSP;
0.04400 Lambda_c+ D_s*- PHSP;
0.01000 Lambda_c+ rho- PHSP;
0.02000 Lambda_c+ a_1- PHSP;
0.02000 Lambda0 K0 pi+ pi+ pi- pi- PHSP;
# Addition PR LHCb 09 Apr 2004, Lambda_b -> Lambda D0b
0.00080 Lambda0 anti-D0 PHSP;
# Addition PR LHCb 04/07/04
0.000006000 p+ K- PHSP; #[Reconstructed PDG2011]
0.000003800 p+ pi- PHSP; #[Reconstructed PDG2011]
# Addition PR LHCb 09 Apr 2004, Lambda_b -> Lambda rho0 and -> Lambda phi
0.0000050 Lambda0 rho0 PHSP;
0.0000200 Lambda0 phi PHSP;
#
0.00047 Lambda0 J/psi PHSP;
0.00038 Lambda0 psi(2S) PHSP;
0.00100 Lambda0 eta_c PHSP;
0.00080 n0 D0 PHSP;
#
# Additional decays from hep-ph/9709372 scaled to the Lambda_c0 pi rate
0.00060 Sigma_c+ pi- PHSP;
0.00060 Sigma_c0 pi0 PHSP;
0.00040 Sigma_c0 eta PHSP;
0.00050 Sigma_c0 eta' PHSP;
0.00030 Xi_c0 K0 PHSP;
0.00050 Xi'_c0 K0 PHSP;
# PR LHCb 27 Apr 2004, addition of Pythia decays
0.398544837 anti-u d c ud_0 PYTHIA 48; #[Reconstructed PDG2011]
0.082218903 anti-u c d ud_0 PYTHIA 13; #[Reconstructed PDG2011]
0.072280354 anti-c s c ud_0 PYTHIA 13; #[Reconstructed PDG2011]
0.010842053 anti-u d u ud_0 PYTHIA 42; #[Reconstructed PDG2011]
0.010842053 anti-c s u ud_0 PYTHIA 42; #[Reconstructed PDG2011]
# PR LHCb 2 Dec 2004, add Lambda gamma decay mode
0.000065 Lambda0 gamma HELAMP 1. 0. 0. 0. ;
0.000059 Lambda(1520)0 gamma PHSP ;
0.000056 Lambda(1670)0 gamma HELAMP 1. 0. 0. 0. ;
0.000057 Lambda(1600)0 gamma HELAMP 1. 0. 0. 0. ;
0.056000000 Lambda_c+ pi+ pi- mu- anti-nu_mu PHSP; #[New mode added] #[Reconstructed PDG2011]
0.056000000 Lambda_c+ pi+ pi- e- anti-nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay anti-Lambda_b0
# SemiLeptonic Decays (inclusive BR = 7.7 +/- 1.8%)
0.050000000 anti-Lambda_c- e+ nu_e PHSP; #[Reconstructed PDG2011]
0.006300000 anti-Lambda_c(2593)- e+ nu_e PHSP; #[Reconstructed PDG2011]
0.011000000 anti-Lambda_c(2625)- e+ nu_e PHSP; #[Reconstructed PDG2011]
0.00000 anti-Sigma_c0 pi- e+ nu_e PHSP;
0.00000 anti-Sigma_c- pi0 e+ nu_e PHSP;
0.00000 anti-Sigma_c-- pi+ e+ nu_e PHSP;
0.00000 anti-Sigma_c*0 pi- e+ nu_e PHSP;
0.00000 anti-Sigma_c*- pi0 e+ nu_e PHSP;
0.00000 anti-Sigma_c*-- pi+ e+ nu_e PHSP;
#
0.050000000 anti-Lambda_c- mu+ nu_mu PHSP; #[Reconstructed PDG2011]
0.006300000 anti-Lambda_c(2593)- mu+ nu_mu PHSP; #[Reconstructed PDG2011]
0.011000000 anti-Lambda_c(2625)- mu+ nu_mu PHSP; #[Reconstructed PDG2011]
0.00000 anti-Sigma_c0 pi- mu+ nu_mu PHSP;
0.00000 anti-Sigma_c- pi0 mu+ nu_mu PHSP;
0.00000 anti-Sigma_c-- pi+ mu+ nu_mu PHSP;
0.00000 anti-Sigma_c*0 pi- mu+ nu_mu PHSP;
0.00000 anti-Sigma_c*- pi0 mu+ nu_mu PHSP;
0.00000 anti-Sigma_c*-- pi+ mu+ nu_mu PHSP;
#
0.01720 anti-Lambda_c- tau+ nu_tau PHSP;
0.00430 anti-Lambda_c(2593)- tau+ nu_tau PHSP;
0.00320 anti-Lambda_c(2625)- tau+ nu_tau PHSP;
0.00000 anti-Sigma_c0 pi- tau+ nu_tau PHSP;
0.00000 anti-Sigma_c- pi0 tau+ nu_tau PHSP;
0.00000 anti-Sigma_c-- pi+ tau+ nu_tau PHSP;
0.00000 anti-Sigma_c*0 pi- tau+ nu_tau PHSP;
0.00000 anti-Sigma_c*- pi0 tau+ nu_tau PHSP;
0.00000 anti-Sigma_c*-- pi+ tau+ nu_tau PHSP;
# Hadronic Decays with anti-Lambda_c-
0.008800000 anti-Lambda_c- pi+ PHSP; #[Reconstructed PDG2011]
0.02200 anti-Lambda_c- pi+ pi+ pi- PHSP;
0.00055 anti-Lambda_c- K+ PHSP;
0.02200 anti-Lambda_c- D_s+ PHSP;
0.04400 anti-Lambda_c- D_s*+ PHSP;
0.01000 anti-Lambda_c- rho+ PHSP;
0.02000 anti-Lambda_c- a_1+ PHSP;
0.02000 Lambda0 anti-K0 pi- pi- pi+ pi+ PHSP;
# Addition LHCb PR 09 Apr 2004 Lambda_b -> Lambda D0b
0.00080 anti-Lambda0 D0 PHSP;
# PR LHCb 04/07/04 Addition
0.000006000 anti-p- K+ PHSP; #[Reconstructed PDG2011]
0.000003800 anti-p- pi+ PHSP; #[Reconstructed PDG2011]
# Addition PR LHCb 09 Apr 2004, Lambda_b -> Lambda rho0 and -> Lambda phi
0.0000050 anti-Lambda0 rho0 PHSP;
0.0000200 anti-Lambda0 phi PHSP;
#
0.00047 anti-Lambda0 J/psi PHSP;
0.00038 anti-Lambda0 psi(2S) PHSP;
0.001000 anti-Lambda0 eta_c PHSP;
0.00080 anti-n0 anti-D0 PHSP;
#
# Additional decays from hep-ph/9709372 scaled to the Lambda_c0 pi rate
0.00060 anti-Sigma_c- pi+ PHSP;
0.00060 anti-Sigma_c0 pi0 PHSP;
0.00040 anti-Sigma_c0 eta PHSP;
0.00050 anti-Sigma_c0 eta' PHSP;
0.00030 anti-Xi_c0 anti-K0 PHSP;
0.00050 anti-Xi'_c0 anti-K0 PHSP;
# PR LHCb 27 Apr 2004, addition of Pythia decays
0.398544837 u anti-d anti-c anti-ud_0 PYTHIA 48; #[Reconstructed PDG2011]
0.082218903 u anti-c anti-d anti-ud_0 PYTHIA 13; #[Reconstructed PDG2011]
0.072280354 c anti-s anti-c anti-ud_0 PYTHIA 13; #[Reconstructed PDG2011]
0.010842053 u anti-d anti-u anti-ud_0 PYTHIA 42; #[Reconstructed PDG2011]
0.010842053 c anti-s anti-u anti-ud_0 PYTHIA 42; #[Reconstructed PDG2011]
# PR LHCb 2 Dec 2004 add Lambda gamma
0.000065 anti-Lambda0 gamma HELAMP 0. 0. 1. 0. ;
0.000059 anti-Lambda(1520)0 gamma PHSP ;
0.000056 anti-Lambda(1670)0 gamma HELAMP 0. 0. 1. 0. ;
0.000057 anti-Lambda(1600)0 gamma HELAMP 0. 0. 1. 0. ;
0.056000000 anti-Lambda_c- pi- pi+ mu+ nu_mu PHSP; #[New mode added] #[Reconstructed PDG2011]
0.056000000 anti-Lambda_c- pi- pi+ e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay Xi_b-
# SemiLeptonic Decays
0.05460 Xi_c0 e- anti-nu_e PHSP;
0.05460 Xi_c0 mu- anti-nu_mu PHSP;
0.02000 Xi_c0 tau- anti-nu_tau PHSP;
# Hadronic Decays with Xi_c0
0.00600 Xi_c0 pi- PHSP;
0.02200 Xi_c0 pi- pi+ pi- PHSP;
0.00055 Xi_c0 K- PHSP;
0.02200 Xi_c0 D_s- PHSP;
0.00047 Xi- J/psi PHSP;
# added by D.Litvintsev 12/8/03:
0.00038 Xi- psi(2S) PHSP;
0.00018 D0 Lambda0 pi- PHSP;
0.00020 Sigma_c0 K- PHSP;
0.00020 Omega_c0 K- PHSP;
#
# aaa 10/19/05 Do not if this is correct but filling out with inclusives
0.38757 d anti-u d cs_0 PYTHIA 13;
0.16995 d anti-u d cs_1 PYTHIA 13;
0.06335 s anti-u d cs_0 PYTHIA 13;
0.00568 d anti-u s cs_1 PYTHIA 13;
0.00797 d anti-u s cs_0 PYTHIA 13;
0.06148 s anti-c d cs_0 PYTHIA 13;
0.06918 d anti-u d cd_0 PYTHIA 13;
0.03999 s anti-c d cd_0 PYTHIA 13;
0.00865 d anti-u d su_0 PYTHIA 13;
0.00500 s anti-c d su_0 PYTHIA 13;
Enddecay
Decay anti-Xi_b+
# SemiLeptonic Decays
0.05460 anti-Xi_c0 e+ nu_e PHSP;
0.05460 anti-Xi_c0 mu+ nu_mu PHSP;
0.02000 anti-Xi_c0 tau+ nu_tau PHSP;
# Hadronic Decays with anti-Xi_c0
0.00600 anti-Xi_c0 pi+ PHSP;
0.02200 anti-Xi_c0 pi+ pi+ pi- PHSP;
0.00055 anti-Xi_c0 K+ PHSP;
0.02200 anti-Xi_c0 D_s+ PHSP;
0.00047 anti-Xi+ J/psi PHSP;
# added by D.Litvintsev 12/8/03:
0.00038 anti-Xi+ psi(2S) PHSP;
0.00018 anti-D0 anti-Lambda0 pi+ PHSP;
0.00020 anti-Sigma_c0 K+ PHSP;
0.00020 anti-Omega_c0 K+ PHSP;
# aaa 10/19/05 Do not if this is correct but filling out with inclusives
0.38757 u anti-d anti-d anti-cs_0 PYTHIA 13;
0.16995 u anti-d anti-d anti-cs_1 PYTHIA 13;
0.06335 u anti-s anti-d anti-cs_0 PYTHIA 13;
0.00568 u anti-d anti-s anti-cs_1 PYTHIA 13;
0.00797 u anti-d anti-s anti-cs_0 PYTHIA 13;
0.06148 c anti-s anti-d anti-cs_0 PYTHIA 13;
0.06918 u anti-d anti-d anti-cd_0 PYTHIA 13;
0.03999 c anti-s anti-d anti-cd_0 PYTHIA 13;
0.00865 u anti-d anti-d anti-su_0 PYTHIA 13;
0.00500 c anti-s anti-d anti-su_0 PYTHIA 13;
Enddecay
Decay Xi_b0
# SemiLeptonic Decays
0.05460 Xi_c+ e- anti-nu_e PHSP;
0.05460 Xi_c+ mu- anti-nu_mu PHSP;
0.02000 Xi_c+ tau- anti-nu_tau PHSP;
# Hadronic Decays with Xi_c+
0.00600 Xi_c+ pi- PHSP;
0.02200 Xi_c+ pi- pi+ pi- PHSP;
0.00055 Xi_c+ K- PHSP;
0.02200 Xi_c+ D_s- PHSP;
0.00047 Xi0 J/psi PHSP;
# added by D.Litvintsev 12/8/03:
0.00020 D0 Lambda0 PHSP;
0.00010 Lambda_c+ K- PHSP;
0.00020 Sigma_c0 anti-K0 PHSP;
0.00020 Omega_c0 K0 PHSP;
#
# Additional decays from hep-ph/9709372 scaled to the Lambda_c0 pi rate
0.00020 Xi'_c+ pi- PHSP;
0.00003 Xi_c0 pi0 PHSP;
0.00015 Xi_c0 eta PHSP;
0.00004 Xi_c0 eta' PHSP;
0.00020 Xi'_c0 pi0 PHSP;
0.00020 Xi'_c0 eta PHSP;
0.00030 Xi'_c0 eta' PHSP;
0.00040 Sigma_c+ K- PHSP;
# aaa 10/19/05 Do not if this is correct but filling out with inclusives
0.58591 d anti-u s cu_0 PYTHIA 13;
0.01363 s anti-u s cu_1 PYTHIA 13;
0.09539 s anti-u s cc_1 PYTHIA 13;
0.10900 s anti-u d cu_1 PYTHIA 13;
0.01363 d anti-u d uu_1 PYTHIA 13;
Enddecay
Decay anti-Xi_b0
0.05460 anti-Xi_c- e+ nu_e PHSP;
0.05460 anti-Xi_c- mu+ nu_mu PHSP;
0.02000 anti-Xi_c- tau+ nu_tau PHSP;
# Hadronic Decays with anti-Xi_c-
0.00600 anti-Xi_c- pi+ PHSP;
0.02200 anti-Xi_c- pi+ pi+ pi- PHSP;
0.00055 anti-Xi_c- K+ PHSP;
0.02200 anti-Xi_c- D_s+ PHSP;
0.00047 anti-Xi0 J/psi PHSP;
# added by D.Litvintsev 12/8/03:
0.00020 anti-D0 anti-Lambda0 PHSP;
0.00010 anti-Lambda_c- K+ PHSP;
0.00020 anti-Sigma_c0 K0 PHSP;
0.00020 anti-Omega_c0 anti-K0 PHSP;
#
# Additional decays from hep-ph/9709372 scaled to the Lambda_c0 pi rate
0.00020 anti-Xi'_c- pi+ PHSP;
0.00003 anti-Xi_c0 pi0 PHSP;
0.00015 anti-Xi_c0 eta PHSP;
0.00004 anti-Xi_c0 eta' PHSP;
0.00020 anti-Xi'_c0 pi0 PHSP;
0.00020 anti-Xi'_c0 eta PHSP;
0.00030 anti-Xi'_c0 eta' PHSP;
0.00040 anti-Sigma_c- K+ PHSP;
# aaa 10/19/05 Do not if this is correct but filling out with inclusives
0.58591 u anti-d anti-s anti-cu_0 PYTHIA 13;
0.01363 u anti-s anti-s anti-cu_1 PYTHIA 13;
0.09539 u anti-s anti-s anti-cc_1 PYTHIA 13;
0.10900 u anti-s anti-d anti-cu_1 PYTHIA 13;
0.01363 u anti-d anti-d anti-uu_1 PYTHIA 13;
Enddecay
# added by D.Litvintsev 12/8/03:
Decay Omega_b-
# SemiLeptonic Decays
0.05460 Omega_c0 e- anti-nu_e PHSP;
0.05460 Omega_c0 mu- anti-nu_mu PHSP;
0.02000 Omega_c0 tau- anti-nu_tau PHSP;
# Hadronic Decays with Xi_c+
0.00600 Omega_c0 pi- PHSP;
0.02200 Omega_c0 pi- pi+ pi- PHSP;
0.00055 Omega_c0 K- PHSP;
0.02200 Omega_c0 D_s- PHSP;
0.0011 D0 Xi- PHSP;
#
0.00047 Omega- J/psi PHSP;
0.00038 Omega- psi(2S) PHSP;
# aaa 10/19/05 Do not if this is correct but filling out with inclusives
0.68192 d anti-u s cs_0 PYTHIA 13;
0.10910 d anti-u d cs_0 PYTHIA 13;
0.02728 d anti-u s su_0 PYTHIA 13;
Enddecay
Decay anti-Omega_b+
# SemiLeptonic Decays
0.05460 anti-Omega_c0 e+ nu_e PHSP;
0.05460 anti-Omega_c0 mu+ nu_mu PHSP;
0.02000 anti-Omega_c0 tau+ nu_tau PHSP;
# Hadronic Decays with Xi_c+
0.00600 anti-Omega_c0 pi+ PHSP;
0.02200 anti-Omega_c0 pi+ pi+ pi- PHSP;
0.00055 anti-Omega_c0 K+ PHSP;
0.02200 anti-Omega_c0 D_s+ PHSP;
0.0011 anti-D0 anti-Xi+ PHSP;
#
0.00047 anti-Omega+ J/psi PHSP;
0.00038 anti-Omega+ psi(2S) PHSP;
# aaa 10/19/05 Do not if this is correct but filling out with inclusives
0.68192 u anti-d anti-s anti-cs_0 PYTHIA 13;
0.10910 u anti-d anti-d anti-cs_0 PYTHIA 13;
0.02728 u anti-d anti-s anti-su_0 PYTHIA 13;
Enddecay
Decay Sigma_b+
1.00000 Lambda_b0 pi+ PHSP;
Enddecay
Decay anti-Sigma_b-
1.00000 anti-Lambda_b0 pi- PHSP;
Enddecay
Decay Sigma_b-
1.00000 Lambda_b0 pi- PHSP;
Enddecay
Decay anti-Sigma_b+
1.00000 anti-Lambda_b0 pi+ PHSP;
Enddecay
Decay Sigma_b0
- 1.00000 Lambda_b0 gamma PHOTOS PHSP;
+ 1.00000 Lambda_b0 gamma FSR PHSP;
Enddecay
Decay anti-Sigma_b0
- 1.00000 anti-Lambda_b0 gamma PHOTOS PHSP;
+ 1.00000 anti-Lambda_b0 gamma FSR PHSP;
Enddecay
#
# B_c Mesons
#
Decay B_c-
0.01600 tau- anti-nu_tau SLN;
#
# SemiLeptonic Decays
-0.01900 J/psi e- anti-nu_e PHOTOS PHSP;
-0.00094 psi(2S) e- anti-nu_e PHOTOS PHSP;
-0.00750 eta_c e- anti-nu_e PHOTOS PHSP;
-0.00020 eta_c(2S) e- anti-nu_e PHOTOS PHSP;
-0.00004 anti-D0 e- anti-nu_e PHOTOS PHSP;
-0.00018 anti-D*0 e- anti-nu_e PHOTOS PHSP;
-0.04030 anti-B_s0 e- anti-nu_e PHOTOS PHSP;
-0.05060 anti-B_s*0 e- anti-nu_e PHOTOS PHSP;
-0.00340 anti-B0 e- anti-nu_e PHOTOS PHSP;
-0.00580 anti-B*0 e- anti-nu_e PHOTOS PHSP;
-#
-0.01900 J/psi mu- anti-nu_mu PHOTOS PHSP;
-0.00094 psi(2S) mu- anti-nu_mu PHOTOS PHSP;
-0.00750 eta_c mu- anti-nu_mu PHOTOS PHSP;
-0.00020 eta_c(2S) mu- anti-nu_mu PHOTOS PHSP;
-0.00004 anti-D0 mu- anti-nu_mu PHOTOS PHSP;
-0.00018 anti-D*0 mu- anti-nu_mu PHOTOS PHSP;
-0.04030 anti-B_s0 mu- anti-nu_mu PHOTOS PHSP;
-0.05060 anti-B_s*0 mu- anti-nu_mu PHOTOS PHSP;
-0.00340 anti-B0 mu- anti-nu_mu PHOTOS PHSP;
-0.00580 anti-B*0 mu- anti-nu_mu PHOTOS PHSP;
+0.01900 J/psi e- anti-nu_e FSR PHSP;
+0.00094 psi(2S) e- anti-nu_e FSR PHSP;
+0.00750 eta_c e- anti-nu_e FSR PHSP;
+0.00020 eta_c(2S) e- anti-nu_e FSR PHSP;
+0.00004 anti-D0 e- anti-nu_e FSR PHSP;
+0.00018 anti-D*0 e- anti-nu_e FSR PHSP;
+0.04030 anti-B_s0 e- anti-nu_e FSR PHSP;
+0.05060 anti-B_s*0 e- anti-nu_e FSR PHSP;
+0.00340 anti-B0 e- anti-nu_e FSR PHSP;
+0.00580 anti-B*0 e- anti-nu_e FSR PHSP;
+#
+0.01900 J/psi mu- anti-nu_mu FSR PHSP;
+0.00094 psi(2S) mu- anti-nu_mu FSR PHSP;
+0.00750 eta_c mu- anti-nu_mu FSR PHSP;
+0.00020 eta_c(2S) mu- anti-nu_mu FSR PHSP;
+0.00004 anti-D0 mu- anti-nu_mu FSR PHSP;
+0.00018 anti-D*0 mu- anti-nu_mu FSR PHSP;
+0.04030 anti-B_s0 mu- anti-nu_mu FSR PHSP;
+0.05060 anti-B_s*0 mu- anti-nu_mu FSR PHSP;
+0.00340 anti-B0 mu- anti-nu_mu FSR PHSP;
+0.00580 anti-B*0 mu- anti-nu_mu FSR PHSP;
#
0.00480 J/psi tau- anti-nu_tau PHSP;
0.00008 psi(2S) tau- anti-nu_tau PHSP;
0.00230 eta_c tau- anti-nu_tau PHSP;
0.000016 eta_c(2S) tau- anti-nu_tau PHSP;
0.00002 anti-D0 tau- anti-nu_tau PHSP;
0.00008 anti-D*0 tau- anti-nu_tau PHSP;
#
#
# Hadronic Decays
0.00200 eta_c pi- PHSP;
0.00420 rho- eta_c SVS;
0.00013 eta_c K- PHSP;
0.00020 K*- eta_c SVS;
0.00130 J/psi pi- SVS;
0.00400 J/psi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00011 J/psi K- SVS;
0.00022 J/psi K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.000053 D- D0 PHSP;
0.000075 D*0 D- SVS;
0.000049 D*- D0 SVS;
0.00033 D*- D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0000048 D_s- D0 PHSP;
0.0000071 D*0 D_s- SVS;
0.0000045 D_s*- D0 SVS;
0.000026 D_s*- D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.0000003 D- anti-D0 PHSP;
0.0000003 anti-D*0 D- SVS;
0.0000004 D*- anti-D0 SVS;
0.0000016 anti-D*0 D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0000066 D_s- anti-D0 PHSP;
0.0000063 anti-D*0 D_s- SVS;
0.0000085 D_s*- anti-D0 SVS;
0.0000404 D_s*- anti-D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.00280 eta_c D_s- PHSP;
0.00270 D_s*- eta_c SVS;
0.00015 eta_c D- PHSP;
0.00010 D*- eta_c SVS;
0.00170 J/psi D_s- SVS;
0.00670 J/psi D_s*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00009 J/psi D- SVS;
0.00028 J/psi D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.16400 anti-B_s0 pi- PHSP;
0.07200 rho- anti-B_s0 SVS;
0.01060 anti-B_s0 K- PHSP;
0.00000 K*- anti-B_s0 SVS;
0.06500 anti-B_s*0 pi- SVS;
0.20200 anti-B_s*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00370 anti-B_s*0 K- SVS;
0.00000 anti-B_s*0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.01060 anti-B0 pi- PHSP;
0.00960 rho- anti-B0 SVS;
0.00070 anti-B0 K- PHSP;
0.00015 K*- anti-B0 SVS;
0.00950 anti-B*0 pi- SVS;
0.02570 anti-B*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00055 anti-B*0 K- SVS;
0.00058 anti-B*0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00037 B- pi0 PHSP;
0.00034 rho0 B- SVS;
0.01980 B- K0 PHSP;
0.00430 K*0 B- SVS;
0.00033 B*- pi0 SVS;
0.00090 B*- rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.01600 B*- K0 SVS;
0.01670 B*- K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
# PR LHCb 09 Apr 2004 Add B_c+ -> rho0 pi+
0.00002 rho0 pi- SVS;
0.06005 anti-c s PYTHIA 11;
# PR LHCb 27 Apr 2004 Add Pythia Modes
#
# ash 10/27/03 Do not if this is correct but filling out with unknown cs
#0.0200235 cs_0 anti-uu_0 PYTHIA 23;
#0.0400470 cs_1 anti-uu_1 PYTHIA 23;
#
Enddecay
# 09/15/03 A. Sanchez: Using BR's from hep-ph/0308214
#
# Total Br = 0.939865 + .06135 cs
Decay B_c+
0.01600 tau+ nu_tau SLN;
#
# SemiLeptonic Decays
-0.01900 J/psi e+ nu_e PHOTOS PHSP;
-0.00094 psi(2S) e+ nu_e PHOTOS PHSP;
-0.00750 eta_c e+ nu_e PHOTOS PHSP;
-0.00020 eta_c(2S) e+ nu_e PHOTOS PHSP;
-0.00004 D0 e+ nu_e PHOTOS PHSP;
-0.00018 D*0 e+ nu_e PHOTOS PHSP;
-0.04030 B_s0 e+ nu_e PHOTOS PHSP;
-0.05060 B_s*0 e+ nu_e PHOTOS PHSP;
-0.00340 B0 e+ nu_e PHOTOS PHSP;
-0.00580 B*0 e+ nu_e PHOTOS PHSP;
-#
-0.01900 J/psi mu+ nu_mu PHOTOS PHSP;
-0.00094 psi(2S) mu+ nu_mu PHOTOS PHSP;
-0.00750 eta_c mu+ nu_mu PHOTOS PHSP;
-0.00020 eta_c(2S) mu+ nu_mu PHOTOS PHSP;
-0.00004 D0 mu+ nu_mu PHOTOS PHSP;
-0.00018 D*0 mu+ nu_mu PHOTOS PHSP;
-0.04030 B_s0 mu+ nu_mu PHOTOS PHSP;
-0.05060 B_s*0 mu+ nu_mu PHOTOS PHSP;
-0.00340 B0 mu+ nu_mu PHOTOS PHSP;
-0.00580 B*0 mu+ nu_mu PHOTOS PHSP;
+0.01900 J/psi e+ nu_e FSR PHSP;
+0.00094 psi(2S) e+ nu_e FSR PHSP;
+0.00750 eta_c e+ nu_e FSR PHSP;
+0.00020 eta_c(2S) e+ nu_e FSR PHSP;
+0.00004 D0 e+ nu_e FSR PHSP;
+0.00018 D*0 e+ nu_e FSR PHSP;
+0.04030 B_s0 e+ nu_e FSR PHSP;
+0.05060 B_s*0 e+ nu_e FSR PHSP;
+0.00340 B0 e+ nu_e FSR PHSP;
+0.00580 B*0 e+ nu_e FSR PHSP;
+#
+0.01900 J/psi mu+ nu_mu FSR PHSP;
+0.00094 psi(2S) mu+ nu_mu FSR PHSP;
+0.00750 eta_c mu+ nu_mu FSR PHSP;
+0.00020 eta_c(2S) mu+ nu_mu FSR PHSP;
+0.00004 D0 mu+ nu_mu FSR PHSP;
+0.00018 D*0 mu+ nu_mu FSR PHSP;
+0.04030 B_s0 mu+ nu_mu FSR PHSP;
+0.05060 B_s*0 mu+ nu_mu FSR PHSP;
+0.00340 B0 mu+ nu_mu FSR PHSP;
+0.00580 B*0 mu+ nu_mu FSR PHSP;
#
0.00480 J/psi tau+ nu_tau PHSP;
0.00008 psi(2S) tau+ nu_tau PHSP;
0.00230 eta_c tau+ nu_tau PHSP;
0.000016 eta_c(2S) tau+ nu_tau PHSP;
0.00002 D0 tau+ nu_tau PHSP;
0.00008 D*0 tau+ nu_tau PHSP;
#
# Hadronic Decays
0.00200 eta_c pi+ PHSP;
0.00420 rho+ eta_c SVS;
0.00013 eta_c K+ PHSP;
0.00020 K*+ eta_c SVS;
0.00130 J/psi pi+ SVS;
0.00400 J/psi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00011 J/psi K+ SVS;
0.00022 J/psi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.000053 D+ anti-D0 PHSP;
0.000075 anti-D*0 D+ SVS;
0.000049 D*+ anti-D0 SVS;
0.00033 D*+ anti-D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0000048 D_s+ anti-D0 PHSP;
0.0000071 anti-D*0 D_s+ SVS;
0.0000045 D_s*+ anti-D0 SVS;
0.000026 D_s*+ anti-D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.0000003 D+ D0 PHSP;
0.0000003 D*0 D+ SVS;
0.0000004 D*+ D0 SVS;
0.0000016 D*0 D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.0000066 D_s+ D0 PHSP;
0.0000063 D*0 D_s+ SVS;
0.0000085 D_s*+ D0 SVS;
0.0000404 D_s*+ D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.00280 eta_c D_s+ PHSP;
0.00270 D_s*+ eta_c SVS;
0.00015 eta_c D+ PHSP;
0.00010 D*+ eta_c SVS;
0.00170 J/psi D_s+ SVS;
0.00670 J/psi D_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00009 J/psi D+ SVS;
0.00028 J/psi D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
#
0.16400 B_s0 pi+ PHSP;
0.07200 rho+ B_s0 SVS;
0.01060 B_s0 K+ PHSP;
0.00000 K*+ B_s0 SVS;
0.06500 B_s*0 pi+ SVS;
0.20200 B_s*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00370 B_s*0 K+ SVS;
0.00000 B_s*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.01060 B0 pi+ PHSP;
0.00960 rho+ B0 SVS;
0.00070 B0 K+ PHSP;
0.00015 K*+ B0 SVS;
0.00950 B*0 pi+ SVS;
0.02570 B*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00055 B*0 K+ SVS;
0.00058 B*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.00037 B+ pi0 PHSP;
0.00034 rho0 B+ SVS;
0.01980 B+ anti-K0 PHSP;
0.00430 K*0 B+ SVS;
0.00033 B*+ pi0 SVS;
0.00090 B*+ rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
0.01600 B*+ anti-K0 SVS;
0.01670 B*+ K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0;
# PR LHCb 09 Apr 2004 Add B_c+ -> rho0 pi+
0.00002 rho0 pi+ SVS;
0.06005 c anti-s PYTHIA 11;
# PR LHCb 27 Apr 2004 Add Pythia Modes
#
# ash 10/27/03 Do not if this is correct but filling out with unknown cs
#0.0200235 anti-cs_0 uu_0 PYTHIA 23;
#0.0400470 anti-cs_1 uu_1 PYTHIA 23;
#
Enddecay
# Add excited Lambda_c decays (R.J. Tesarek 12/9/03)
# Just a guess for the last two BR [Lambda_c(2593)+].
Decay Lambda_c(2593)+
0.096585366 Sigma_c++ pi- PHSP; #[Reconstructed PDG2011]
0.096585366 Sigma_c0 pi+ PHSP; #[Reconstructed PDG2011]
0.190000000 Lambda_c+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.096585366 Sigma_c+ pi0 PHSP; #[Reconstructed PDG2011]
0.036219512 Lambda_c+ pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.004024390 Lambda_c+ gamma PHSP; #[Reconstructed PDG2011]
0.240000000 Sigma_c*++ pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
0.240000000 Sigma_c*0 pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
Decay anti-Lambda_c(2593)-
0.096585366 anti-Sigma_c-- pi+ PHSP; #[Reconstructed PDG2011]
0.096585366 anti-Sigma_c0 pi- PHSP; #[Reconstructed PDG2011]
0.190000000 anti-Lambda_c- pi- pi+ PHSP; #[Reconstructed PDG2011]
0.096585366 anti-Sigma_c- pi0 PHSP; #[Reconstructed PDG2011]
0.036219512 anti-Lambda_c- pi0 pi0 PHSP; #[Reconstructed PDG2011]
0.004024390 anti-Lambda_c- gamma PHSP; #[Reconstructed PDG2011]
0.240000000 anti-Sigma_c*-- pi+ PHSP; #[New mode added] #[Reconstructed PDG2011]
0.240000000 anti-Sigma_c*0 pi- PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
#
Decay Lambda_c(2625)+
0.670000000 Lambda_c+ pi+ pi- PHSP; #[Reconstructed PDG2011]
0.320294118 Lambda_c+ pi0 PHSP; #[Reconstructed PDG2011]
0.009705882 Lambda_c+ gamma PHSP; #[Reconstructed PDG2011]
Enddecay
Decay anti-Lambda_c(2625)-
0.670000000 anti-Lambda_c- pi- pi+ PHSP; #[Reconstructed PDG2011]
0.320294118 anti-Lambda_c- pi0 PHSP; #[Reconstructed PDG2011]
0.009705882 anti-Lambda_c- gamma PHSP; #[Reconstructed PDG2011]
Enddecay
# Add excited B hadrons (LHCb PR 10/03/04)
# Reference : Pythia 6.205 decay table
# PDG Id = 5312
Decay Xi'_b-
1.0000 Xi_b- gamma PHSP;
Enddecay
Decay anti-Xi'_b+
1.0000 anti-Xi_b+ gamma PHSP;
Enddecay
# PDG Id = 5322
Decay Xi'_b0
1.0000 Xi_b0 gamma PHSP;
Enddecay
Decay anti-Xi'_b0
1.0000 anti-Xi_b0 gamma PHSP;
Enddecay
# PDG Id = 10521
Decay B_0*+
0.6670 B0 pi+ PHSP;
0.3330 B+ pi0 PHSP;
Enddecay
Decay B_0*-
0.6670 anti-B0 pi- PHSP;
0.3330 B- pi0 PHSP;
Enddecay
# PDG Id = 20523 Broad : S wave
Decay B'_1+
0.6670 B*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3330 B*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay B'_1-
0.6670 anti-B*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3330 B*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
# PDG Id = 10523 Narrow : D wave
Decay B_1+
0.6670 B*0 pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.3330 B*+ pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay B_1-
0.6670 anti-B*0 pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.3330 B*- pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
# PDG Id = 525 Narrow : D wave
Decay B_2*+
0.3000 B0 pi+ TSS;
0.1500 B+ pi0 TSS;
0.1600 B*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0800 B*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1300 B*0 pi+ pi0 PHSP;
0.0600 B*+ pi+ pi- PHSP;
0.0800 B0 pi+ pi0 PHSP;
0.0400 B+ pi+ pi- PHSP;
Enddecay
Decay B_2*-
0.3000 anti-B0 pi- TSS;
0.1500 B- pi0 TSS;
0.1600 anti-B*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0800 B*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1300 anti-B*0 pi- pi0 PHSP;
0.0600 B*- pi- pi+ PHSP;
0.0800 anti-B0 pi- pi0 PHSP;
0.0400 B- pi- pi+ PHSP;
Enddecay
# PDG Id = 10511
Decay B_0*0
0.6670 B+ pi- PHSP;
0.3330 B0 pi0 PHSP;
Enddecay
Decay anti-B_0*0
0.6670 B- pi+ PHSP;
0.3330 anti-B0 pi0 PHSP;
Enddecay
# PDG Id = 20513 Broad : S wave
Decay B'_10
0.6670 B*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3330 B*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay anti-B'_10
0.6670 B*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.3330 anti-B*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
# PDG Id = 10513 Narrow : D wave
Decay B_10
0.6670 B*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.3330 B*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay anti-B_10
0.6670 B*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.3330 anti-B*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
# PDG Id = 515
Decay B_2*0
0.3000 B+ pi- TSS;
0.1500 B0 pi0 TSS;
0.1600 B*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0800 B*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1300 B*+ pi- pi0 PHSP;
0.0600 B*0 pi+ pi- PHSP;
0.0800 B+ pi- pi0 PHSP;
0.0400 B0 pi+ pi- PHSP;
Enddecay
Decay anti-B_2*0
0.3000 B- pi+ TSS;
0.1500 anti-B0 pi0 TSS;
0.1600 B*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.0800 anti-B*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.1300 B*- pi+ pi0 PHSP;
0.0600 anti-B*0 pi- pi+ PHSP;
0.0800 B- pi+ pi0 PHSP;
0.0400 anti-B0 pi- pi+ PHSP;
Enddecay
# PDG Id = 10531
Decay B_s0*0
0.5000 B+ K- PHSP;
0.5000 B0 anti-K0 PHSP;
Enddecay
Decay anti-B_s0*0
0.5000 B- K+ PHSP;
0.5000 anti-B0 K0 PHSP;
Enddecay
# PDG Id = 20533 Broad : S wave
Decay B'_s10
0.5000 B*+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5000 B*0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay anti-B'_s10
0.5000 B*- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5000 anti-B*0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
# PDG Id = 10533 Narrow : D wave
Decay B_s10
0.5000 B*+ K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.5000 B*0 anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay anti-B_s10
0.5000 B*- K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.5000 anti-B*0 K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
# PDG Id = 535 Narrow : D wave
Decay B_s2*0
0.3000 B+ K- TSS;
0.3000 B0 anti-K0 TSS;
0.2000 B*+ K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2000 B*0 anti-K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
Decay anti-B_s2*0
0.3000 B- K+ TSS;
0.3000 anti-B0 K0 TSS;
0.2000 B*- K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2000 anti-B*0 K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
# PDG Id = 543
Decay B_c*+
1.0000 B_c+ gamma VSP_PWAVE;
Enddecay
Decay B_c*-
1.0000 B_c- gamma VSP_PWAVE;
Enddecay
# PDG Id = 545 Narrow : D wave
Decay B_c2*+
0.3000 B0 D+ TSS;
0.3000 B+ D0 TSS;
0.2000 B*0 D+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2000 B*+ D0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
Decay B_c2*-
0.3000 anti-B0 D- TSS;
0.3000 B- anti-D0 TSS;
0.2000 anti-B*0 D- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
0.2000 B*- anti-D0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
# PDG Id = 5114
Decay Sigma_b*-
1.0000 Lambda_b0 pi- PHSP;
Enddecay
Decay anti-Sigma_b*+
1.0000 anti-Lambda_b0 pi+ PHSP;
Enddecay
# PDG Id = 5224
Decay Sigma_b*+
1.0000 Lambda_b0 pi+ PHSP;
Enddecay
Decay anti-Sigma_b*-
1.0000 anti-Lambda_b0 pi- PHSP;
Enddecay
# PDG Id = 5214
Decay Sigma_b*0
1.0000 Lambda_b0 pi0 PHSP;
Enddecay
Decay anti-Sigma_b*0
1.0000 anti-Lambda_b0 pi0 PHSP;
Enddecay
# PDG Id = 5314
Decay Xi_b*-
1.0000 Xi_b- gamma PHSP;
Enddecay
Decay anti-Xi_b*+
1.0000 anti-Xi_b+ gamma PHSP;
Enddecay
# PDG Id = 5324
Decay Xi_b*0
1.0000 Xi_b0 gamma PHSP;
Enddecay
Decay anti-Xi_b*0
1.0000 anti-Xi_b0 gamma PHSP;
Enddecay
# PDG Id = 5334
Decay Omega_b*-
1.0000 Omega_b- gamma PHSP;
Enddecay
Decay anti-Omega_b*+
1.0000 anti-Omega_b+ gamma PHSP;
Enddecay
# PDG Id = 10541
Decay B_c0*+
0.5000 B0 D+ PHSP;
0.5000 B+ D0 PHSP;
Enddecay
Decay B_c0*-
0.5000 anti-B0 D- PHSP;
0.5000 B- anti-D0 PHSP;
Enddecay
# PDG Id = 10543 Narrow : D wave
Decay B_c1+
0.5000 B*0 D+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.5000 B*+ D0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
Decay B_c1-
0.5000 anti-B*0 D- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
0.5000 B*- anti-D0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0;
Enddecay
# PDG Id = 20543 Broad : S wave
Decay B'_c1+
0.5000 B*0 D+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5000 B*+ D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay B'_c1-
0.5000 anti-B*0 D- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
0.5000 B*- anti-D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0;
Enddecay
# Excited charmed Baryons LHCb PR 3-05-2006
Decay Xi_cc*++
0.08 e+ nu_e Xi_c+ PHSP ;
0.08 mu+ nu_mu Xi_c+ PHSP ;
0.51 u anti-d s cu_0 PYTHIA 11 ;
0.25 u anti-d s cu_1 PYTHIA 11 ;
0.05 u anti-s s cu_0 PYTHIA 11 ;
0.03 u anti-s s cu_1 PYTHIA 11 ;
Enddecay
Decay anti-Xi_cc*--
0.08 e- anti-nu_e anti-Xi_c- PHSP;
0.08 mu- anti-nu_mu anti-Xi_c- PHSP;
0.51 anti-u d anti-s anti-cu_0 PYTHIA 11 ;
0.25 anti-u d anti-s anti-cu_0 PYTHIA 11 ;
0.05 anti-u s anti-s anti-cu_1 PYTHIA 11 ;
0.03 anti-u s anti-s anti-cu_1 PYTHIA 11 ;
Enddecay
Decay Xi_cc++
0.08 e+ nu_e Xi_c+ PHSP ;
0.08 mu+ nu_mu Xi_c+ PHSP ;
0.51 u anti-d s cu_0 PYTHIA 11 ;
0.25 u anti-d s cu_1 PYTHIA 11 ;
0.05 u anti-s s cu_0 PYTHIA 11 ;
0.03 u anti-s s cu_1 PYTHIA 11 ;
Enddecay
Decay anti-Xi_cc--
0.08 e- anti-nu_e anti-Xi_c- PHSP;
0.08 mu- anti-nu_mu anti-Xi_c- PHSP;
0.51 anti-u d anti-s anti-cu_0 PYTHIA 11 ;
0.25 anti-u d anti-s anti-cu_0 PYTHIA 11 ;
0.05 anti-u s anti-s anti-cu_1 PYTHIA 11 ;
0.03 anti-u s anti-s anti-cu_1 PYTHIA 11 ;
Enddecay
Decay Xi_cc*+
0.08 e+ nu_e Xi_c0 PHSP;
0.08 mu+ nu_mu Xi_c0 PHSP;
0.51 u anti-d s cd_0 PYTHIA 11 ;
0.25 u anti-d s cd_1 PYTHIA 11 ;
0.05 u anti-s s cd_0 PYTHIA 11 ;
0.03 u anti-s s cd_1 PYTHIA 11 ;
Enddecay
Decay anti-Xi_cc*-
0.08 e- anti-nu_e anti-Xi_c0 PHSP;
0.08 mu- anti-nu_mu anti-Xi_c0 PHSP;
0.51 anti-u d anti-s anti-cd_0 PYTHIA 11 ;
0.25 anti-u d anti-s anti-cd_1 PYTHIA 11 ;
0.05 anti-u s anti-s anti-cd_0 PYTHIA 11 ;
0.03 anti-u s anti-s anti-cd_1 PYTHIA 11 ;
Enddecay
Decay Xi_cc+
0.08 e+ nu_e Xi_c0 PHSP;
0.08 mu+ nu_mu Xi_c0 PHSP;
0.51 u anti-d s cd_0 PYTHIA 11 ;
0.25 u anti-d s cd_1 PYTHIA 11 ;
0.05 u anti-s s cd_0 PYTHIA 11 ;
0.03 u anti-s s cd_1 PYTHIA 11 ;
Enddecay
Decay anti-Xi_cc-
0.08 e- anti-nu_e anti-Xi_c0 PHSP;
0.08 mu- anti-nu_mu anti-Xi_c0 PHSP;
0.51 anti-u d anti-s anti-cd_0 PYTHIA 11 ;
0.25 anti-u d anti-s anti-cd_1 PYTHIA 11 ;
0.05 anti-u s anti-s anti-cd_0 PYTHIA 11 ;
0.03 anti-u s anti-s anti-cd_1 PYTHIA 11 ;
Enddecay
Decay Omega_cc+
0.08 e+ nu_e Omega_c0 PHSP;
0.08 mu+ nu_mu Omega_c0 PHSP;
0.51 u anti-d s cs_0 PYTHIA 11;
0.25 u anti-d s cs_1 PYTHIA 11;
0.05 u anti-s s cs_0 PYTHIA 11;
0.03 u anti-s s cs_1 PYTHIA 11;
Enddecay
Decay anti-Omega_cc-
0.08 e- anti-nu_e anti-Omega_c0 PHSP;
0.08 mu- anti-nu_mu anti-Omega_c0 PHSP;
0.51 anti-u d anti-s anti-cs_0 PYTHIA 11;
0.25 anti-u d anti-s anti-cs_1 PYTHIA 11;
0.05 anti-u s anti-s anti-cs_0 PYTHIA 11;
0.03 anti-u s anti-s anti-cs_1 PYTHIA 11;
Enddecay
Decay Omega_cc*+
0.08 e+ nu_e Omega_c0 PHSP;
0.08 mu+ nu_mu Omega_c0 PHSP;
0.51 u anti-d s cs_0 PYTHIA 11;
0.25 u anti-d s cs_1 PYTHIA 11;
0.05 u anti-s s cs_0 PYTHIA 11;
0.03 u anti-s s cs_1 PYTHIA 11;
Enddecay
Decay anti-Omega_cc*-
0.08 e- anti-nu_e anti-Omega_c0 PHSP;
0.08 mu- anti-nu_mu anti-Omega_c0 PHSP;
0.51 anti-u d anti-s anti-cs_0 PYTHIA 11;
0.25 anti-u d anti-s anti-cs_1 PYTHIA 11;
0.05 anti-u s anti-s anti-cs_0 PYTHIA 11;
0.03 anti-u s anti-s anti-cs_1 PYTHIA 11;
Enddecay
Decay K_L0
#0.202464226 pi+ e- nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.202464226 pi- e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.135033299 pi+ mu- nu_mu PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.135033299 pi- mu+ nu_mu PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000025738 pi0 pi+ e- nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000025738 pi0 pi- e+ nu_e PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000006205 pi+ e- nu_e e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000006205 pi- e+ nu_e e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.194795855 pi0 pi0 pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.125231606 pi+ pi- pi0 PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.001880711 pi+ e- nu_e gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.001880711 pi- e+ nu_e gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000277023 pi+ mu- nu_mu gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000277023 pi- mu+ nu_mu gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000040995 pi+ pi- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000001262 pi0 gamma gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000000016 pi0 gamma e+ e- PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000545653 gamma gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000009265 e+ e- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000000355 mu+ mu- gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000000584 e+ e- gamma gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
#0.000000007 mu+ mu- gamma gamma PHSP; #[New mode added] #[Reconstructed PDG2011]
Enddecay
End
diff --git a/DECAY_2010.XML b/DECAY_2010.XML
index 1f2eaef..5e06d71 100644
--- a/DECAY_2010.XML
+++ b/DECAY_2010.XML
@@ -1,11507 +1,11507 @@
DECAY_2010b.XML
XML Decay File for EvtGen - automatically generated by convertDecayFile.py
convertDecayFile.py
1.0
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diff --git a/History.md b/History.md
index 71e147b..82ff1b0 100644
--- a/History.md
+++ b/History.md
@@ -1,905 +1,908 @@
# History file for EvtGen
From version 2.0.0,
Tabc labels refer to [Maniphest tasks](https://phab.hepforge.org/maniphest/query/nkBRd9OhPCBN/), while
Dxyz labels refer to [Differential code reviews](https://phab.hepforge.org/differential/query/YDY8EgjNGd.e/) on HepForge:
https://phab.hepforge.org/Tabc
https://phab.hepforge.org/Dxyz
===
## R02-0X-00
+22 Apr 2024 Fernando Abudinen
+* D116: Replaced PHOTOS with FSR flags in examples and tests.
+
17 Apr 2024 Fernando Abudinen
* D114: Simplified pre-processor behaviour for PHOTOS.
12 Apr 2024 Fernando Abudinen
* D113: Introduced new FSR flag and deprecated PHOTOS flag.
Implemented proper use of neverRadCorr.
12 Apr 2024 Fernando Abudinen
* D112: Removed EvtPhotosEngine and moved its functionality EvtPHOTOS class.
Moved initialisation of fsrEngine to setRadCorrEngine.
11 Apr 2024 Thomas Latham
* D109: Remove broken or obsolete models
- Models removed:
* BHADRONIC
* BQTOLLLLHYPERCP
* BQTOLLLL
* D\_MULTIBODY
* KSTARSTARGAMMA
* LAMBDAB2LAMBDAV and subsidiary models LAMBDA2PPIFORLAMBDAB2LAMBDAV and V2VPVMFORLAMBDAB2LAMBDAV
* Lb2Lhh
* PROPSLPOLE
* VPHOTOV
* VPHOTOVISR
* VUB\_AC
- Classes in EvtGenBase already unused or used only by the above models also removed
* Evt3Rank3C
* EvtAbsBinning
* EvtAmpAmpPdf
* EvtAmpIndex
* EvtAmpSubIndex
* EvtBreitWignerPdf
* EvtDecayParm
* EvtIntegPdf1D
* EvtMBreitWigner
* EvtMHelAmp
* EvtMNode
* EvtMParticle
* EvtMLineShape
* EvtMRes
* EvtMTree
* EvtMTrivialLS
* EvtPointPred
* EvtPto3PAmpSmpResolution
* EvtSpinAmp
9 Apr 2024 Fernando Abudinen
* D111: Added tests for decays with FSR and implemented const correctness for getP4LabBeforeFSR() function.
19 Feb 2024 Fernando Abudinen
* D108: Bugfix protect polarisation vector for vector and tensor particles against wrong indices
19 Feb 2024 Fernando Abudinen
* D107: Implement const correctness for epsPhoton and epsParentPhoton
3 Feb 2024 John Back
* T230: Add EvtBcVPPHad model for Bc to Jpsi p pbar pi decays and generalised particle ordering
for EvtBcVHad decay files, courtesy of Aleksei Luchinsky, Dmitrii Pereima & Vanya Belyaev (LHCb).
Updated EvtPhiDalitz model to use helicity amplitudes and fixed the indices used in
EvtVector3R::dot(), courtesy of Arnau Brossa Gonzalo & Antonio Romero Vidal (LHCb).
31 Oct 2023 Fernando Abudinen
* D102: Bugfix probmax issue for X38722-+\_PSI\_GAMMA model
- Calculation of amplitude moved to dedicated calcAmp function and fixed initialisation.
- Introduced weighting to compensate for phase-space changes due to resonance width.
- Fixed bugs in rho couplings and loops over photon and vector states.
16 Oct 2023 Fernando Abudinen
* D99: Add tests for PHOTOS
- EvtParticle::getAttribute function made const
- Added variables for testing of FSR to testing framework
- Added dedicated tests for FSR with Photos
- Turned off Photos for all other tests
16 Oct 2023 Thomas Latham
* D98: Modernise EvtIdSet and other improvements
- Modernise and greatly simplify EvtIdSet implementation
- Fixes in EvtPropSLPole to avoid unnecessary dynamic allocations
- Other minor fixes and tidy-ups
* Credit to Heather Ratcliffe and Chris Brady for providing
and/or inspiring several of these improvements
22 Aug 2023 Fernando Abudinen
* D97: Bugfix probmax issue and introduced pole compensation for VTOSLL model
- Calculation of amplitude moved to dedicated calcAmp function and fixed initialisation.
22 Aug 2023 Tom Latham
* CMake updates
- Update default C++ standard to 17
- Suppress 'up-to-date' messages during install
- Add 'EvtGen' prefix to file names of custom CMake modules
- Remove unused CMake module
* Update CI config
- Update default LCG version to 103
- Add builds for el9 OS using LCG 104
- Allow switching on/off building against each external
- Test stage: attempt to improve selection of commits to diff in different cases
- Update CVMFS tags as per https://cern.service-now.com/service-portal?id=outage&n=OTG0079356
* Fix script for generating src dependencies
- Adapted to behaviour of newer CMake version in LCG 103
* Apply clang-format
- Few small changes after update of CI clang version to 12
- Document version of clang-format to be used
* Updates to install script
- Update to latest Pythia8 and HepMC3 versions
- Fix to ensure dependencies are picked up from the local install
22 Aug 2023 Andrii Verbytskyi
* Patch for finding Pythia8 xmldoc path
21 Aug 2023 Tom Latham
* D96: Work around change of interface for setRndmEnginePtr in Pythia8 310
22 Jun 2023 Ludovico Massaccesi
* T219: Fixed amplitudes for D_DALITZ model of D0 -> pi+ pi- pi0.
1 March 2023 Fernando Abudinen
* D92: Bugfix probmax issue for TENSOR daughter in EvtSSD_DirectCP model.
Calculation of amplitude in EvtSSD_DirectCP model moved to dedicated calcAmp function.
Got rid of a few static variables along the way.
8 Feb 2023 Alexei Sibidanov and Tom Latham
* D90: Apply clang format and enable checking of formatting in gitlab CI
3 Feb 2023 John Back
* D91: Check for non-zero momentum for EvtSLBaryonAmp parent spin density matrix.
Print out integrals of JSON test histograms.
16 Dec 2022 John Back
* D89: Added probabilities for B_c -> V pi+ and V pi+ pi0 EvtBcVHad modes.
16 Dec 2022 Alexei Sibidanov
* D88: Applied clang-tidy modernize-use-nullptr
13 Dec 2022 Fernando Abudinen and Tom Latham
* Various improvements to testing framework
16 Nov 2022 Tom Latham
* T123: Provide documention of how to contribute bug reports, feature requests, new/modified code
8 Sep 2022 Fernando Abudinen, John Back, Michal Kreps, Tom Latham, Alex Ward
* T108: Implement JSON test framework for all decay models
9 June 2022 Michal Kreps
* D84: Improve efficiency of RareLbToLll decay model for final states with e+e- pair.
===
## R02-02-00
12 May 2022 Michal Kreps
* D83: Fix double counting of charmonia with K0 decays for B0.
11 May 2022 Tom Latham
* D80: Add CMake options for enabling clang-tidy static analysis checks during build
14 Apr 2022 John Back
* D82: EvtDecayProb: initialise data members and remove empty destructor
14 Apr 2022 Michal Kreps
* D81: Derive EvtFlatSqDalitz from EvtDecayIncoherent since we directly provide
final kinematics
2nd Mar 2022 John Back
* D78: Add Bc -> J/psi K+ pi- pi+ pi- pi+, Bc -> J/psi K+ K- pi+ pi- pi+ &
Bc -> J/psi 4pi+ 3pi- decay modes to the BC_VHAD model, courtesy of
Aleksei Luchinsky, Anna Danilina, Dmitrii Pereima & Vanya Belyaev (LHCb)
===
## R02-01-01
8th Sep 2021 Michal Kreps
* Update location of web page for Pythia8 download in setup script.
8th Sep 2021 Markus Prim, Lu Cao, Chaoyi Lyu and Michel De Cian (Michal Kreps)
* D73: Add new model for semileptonic B decays with BCL and BGL form-factors
8th June 2021 Michal Kreps
* T110, D71: Fix B+ --> eta' l nu BF which was order of magnitude too high.
Balance the decrease by increasing B+ --> D0 l nu, which is after change
still bit smaller than PDG 2021.
8th Jun 2021 Michal Kreps
* D71: Fix B+ --> eta' l nu BF.
20th Apr 2021 Tom Lathem
* D68: Fix compilation with Pythia 8.304
17th Mar 2021 Michal Kreps
* D62: Improve PI0DALITZ model to dynamically work out maximum probability to
make it usuable also for eta --> llgamma decays.
Remove ETA2MUMUGAMMA since it is a pure one-to-one copy of PI0DALITZ.
15th Jan 2021 Michal Kreps
* D47: Model to generate 4-body phase-space decays in restricted part of the m12-m34 space
12th Jan 2021 Michal Kreps
* D48: Fix bug in calculation of the daughter momentum in decay model EvtBsMuMuKK
7th Jan 2021 Michal Kreps
* D43: Allow to pass particle properties table in form of stringstream to constructor
of EvtGen for use case where these are created on fly.
10th Dec 2020 Michal Kreps
* D36: EvtFlatSqDalitz model to be more efficient and to avoid cut-off around the edges
21st Aug 2020 John Back
* T109: Add EvtEtaLLPiPi model for eta' -> l l pi pi decays (l = e or mu),
- courtesy of Aleksei Luchinsky (LHCb).
29th Jun 2020 Michal Kreps
* T103: Add missing include in EvtGenBase/EvtMatrix.hh.
15th May 2020 Michal Kreps
* D28: Add EvtThreeBodyPhsp (rectangular Dalitz plot selection) and
EvtPhspDecaytimeCut (minimum decay time requirement) models.
* D27: Fix initialisation of constants in EvtBTo3hCP model.
===
## R02-00-00
24th Apr 2020 Michal Kreps
* Update particle properties file evt.pdl to 2019 version of RPP by PDG.
23rd Apr 2020 Tom Latham
* Apply copyright and licence notices to all relevant files.
17th Apr 2020 Tom Latham
* Add text of GNU GPLv3 in COPYING, add (preliminary) list of authors in
AUTHORS, and clean-up all source files, prior to applying copyright and
licence notices.
9th Apr 2020 Tom Latham
* Improve, and document use of, standalone installation script.
* Apply clang-format formatting to all C++ source files.
8th Apr 2020 Tom Latham
* One small modernisation change to EvtPhotosEngine to match that already
applied in EvtTauolaEngine.
8th Apr 2020 John Back
* Fixed NonReson amplitude and the 4-momentum boosts used for angles in
EvtLambdacPHH,
- courtesy of Elisabeth Niel (LHCb).
7th Apr 2020 Gerhard Raven, Tom Latham, Michal Kreps and John Back
* Incorporate C++ modernization changes from Gerhard Raven (LHCb).
- Merged modernize branch into master.
9th Mar 2020 John Back
* Add EvtAbsExternalGen::getDecayProb() to allow external generators to
return a probability that can be used in EvtDecayProb (default = 1).
6th Mar 2020 Andrii Verbytskyi and Tom Latham
* Implement HepMC3 support: EvtHepMCEvent, external engines & cmake files.
15th Nov 2019 John Back
* Added EvtPsi2JpsiPiPi model for psi2S -> J/psi pi+ pi- decays based on hep-ph/1507.07985,
- courtesy of Aleksei Luchinsky (LHCb).
21st August 2019 Michal Kreps
* Added the EvtDToKpienu decay model for D -> K pi e nu decays from BESIII,
- courtesy of Liaoyuan Dong.
16th July 2019 John Back
* Correct imaginary sign for EvtComplex /= (EvtComplex c) operator.
3rd July 2019 John Back
* Added the EvtLambdacPHH decay model for Lc -> p K pi decays with K*(890),
Delta++(1232) and Lambda(1520) resonances, based on the Fermilab E791
analysis hep-ex/9912003v1,
- courtesy of Elisabeth Niel and Patrick Robbe (LHCb).
* Modified EvtResonance2 to accept other barrier factor radii.
3rd July 2019 Michal Kreps
* Make sure minimum mass for resonances with non-zero widths is larger than
1e-4 GeV in EvtRelBreitWignerBarrierFact.
3rd May 2019 John Back
* Corrected EvtSLDiBaryonAmp bugs/issues in the BToDiBaryonlnupQCD model:
- parity, amplitude terms and B momentum reference frame variables.
* Corrected treament of spinor indices in EvtRareLb2Lll,
- courtesy of Tom Blake and Michal Kreps (LHCb).
* Updated the EvtBcVHad model to also handle Bc -> psi Ks K decays,
- courtesy of Aleksei Luchinsky (LHCb).
* Add new decay model EvtBsMuMuKK (BS_MUMUKK) for Bs to J/psi (mu+mu-) K+K-,
- courtesy of Veronika Chobanova, Jeremy Dalseno, Diego Martinez Santos and
Marcos Romero Lamas (LHCb).
* Fix infinite loop during initialisation of the EvtBTo3hCP model via
EvtCBTo3piP00 and EvtCBTo3piMPP,
- courtesy of Peter Richardson (Durham).
15th March 2019 Tom Latham
* Implement cmake build system, replacing the old config method.
30th Jan 2019 John Back
* Fix modernization compiler errors and warnings.
29th Jan 2019 Michal Kreps
* Allow reading decay files which are missing end-of-line before end-of-file.
21st December 2018 John Back
* Imported C++ modernization changes from Gerhard Raven (LHCb).
7th December 2018 John Back
* Added the EvtBLLNuL (BLLNUL) model that generates rare B -> ell ell nu ell
decays, where ell = e or mu,
- courtesy of Anna Danilina and Nikolai Nikitin (LHCb).
* Removed the EvtB2MuMuMuNu (BUTOMMMN) model, since its now replaced
by the more general BLLNuL one.
5th November 2018 John Back
* Added the BToDiBaryonlnupQCD model for generating B to p N* l nu decays,
where N can be any (exited) charged baryon (spin 1/2 or 3/2),
- courtesy of Mark Smith and Ryan Newcombe (LHCb), with added code optimisations.
17th October 2018 John Back
* Added various decay models from LHCb EvtGenExtras package:
- EvtBcVHad ("BC_VHAD"),
- Evtbs2llGammaMNT ("BSTOGLLMNT"),
- Evtbs2llGammaISRFSR ("BSTOGLLISRFSR"),
- EvtbTosllMS ("BTOSLLMS"),
- EvtbTosllMSExt ("BTOSLLMSEXT"),
- EvtLb2Baryonlnu ("Lb2Baryonlnu"),
- EvtLb2plnuLCSR ("Lb2plnuLCSR"),
- EvtLb2plnuLQCD ("Lb2plnuLQCD"),
- EvtFlatSqDalitz ("FLATSQDALITZ"),
- EvtPhspFlatLifetime ("PHSPFLATLIFETIME").
5th October 2018 John Back
* Updated setupEvtGen.sh to work with the new HepForge Phabricator site.
13th March 2018 John Back
* Updated EvtPythiaEngine to correctly handle updates of various particle
properties so that Pythia uses the same information as EvtGen (evt.pdl)
for the generic and alias PYTHIA decay model.
12th March 2018 John Back
* Updated EvtBcXMuNu models (X = Scalar, Vector, Tensor) to generate
Bc to D0(star) mu nu decays, with associated form factors in EvtBCXFF,
- courtesy of Aleksei Luchinsky (LHCb).
* Also generalised the calculation
of their maximum probabilities by reusing the CalcMaxProb method in
EvtSemiLeptonicAmp, which now allows for different Q^2 binning
(default remains at 25 bins).
===
## R01-07-00
13th December 2017 John Back
* New tag incorporating all changes below.
* Recommended external packages are
(as used in the setupEvtGen.sh script):
- HepMC 2.06.09,
- pythia 8.230,
- Photos++ 3.61
- Tauola++ 1.1.6c.
12th December 2017 John Back
* Changed Pythia validation example decay files to use Pythia8 codes.
6th December 2017 John Back
* Modified the examples to use DECAY.DEC (see 25th April 2016) instead of
DECAY_2010.DEC. Changed EvtExternalGenList to assume Pythia8 codes are
used in decay files by default, which is the case for DECAY.DEC. Also
updated the setupEvtGen.sh script to work with Pythia 8.2x versions.
29th November 2017 John Back
* Modified EvtSVP, EvtVVP and EvtTVP models to handle both radiative and
two-lepton decays,
- courtesy of Aleksei Luchinsky (LHCb).
14th July 2017 John Back
* Only create external generator objects if they don't already exist in
EvtExternalGenFactory.
* Modified configure script to work with Pythia 8.2x
5th July 2017 Michal Kreps
* Register the VTOSLL model.
14th June 2017 John Back
* Add isNeutralKaon() boolean function and corrected comments in EvtDDalitz.
8th May 2017 Michal Kreps
* Fix bug in EvtbTosllVectorAmp to recognise Bs --> K*bar mu mu decay as
b --> d ll transition.
8th May 2017 Michal Kreps
* Significantly simplify way how we decide on decay mode and daughters
ordering in DDalitz model.
- With new code by definition all orderings of
daughters in the decay file will yield same output.
4th May 2017 John Back
* Further fixes to DDalitz particle ordering (including charge-conjugates):
- Mode 5: D0 -> K- K0bar K+ and K+ K- K0bar
- Mode 12: D0 -> pi0 pi- pi+ and pi+ pi0 pi-
- Removed unneeded index ordering checks for mode 10 (D+ -> pi- pi+ pi+)
and mode 11 (Ds+ -> pi- pi+ pi+)
27th April 2017 John Back
* Fixed DDalitz particle ordering for mode 7: D+ -> pi+ K- K+ and K+ pi+ K-
and their charge-conjugates
7th April 2017 John Back
* Modified EvtGenExternal/EvtPythiaEngine to ensure that the EvtGen-based
instances of Pythia8 (for generic and alias decays) use the same
particle properties as defined by EvtGen,
- courtesy Patrick Robbe (LHCb).
5th April 2017 Michal Kreps
* Fixed indexing in copy constructor of Evt3Rank3C, which would otherwise
produce an infinite loop;
- bug report from David Grellscheid.
3rd November 2016 John Back
* Modified EvtFlatQ2 model to work for all B -> X lepton lepton modes, as
well as adding an extra phase space factor to correct for the dip at low
q^2, which is enabled by using "FLATQ2 1" instead of just "FLATQ2" in the decay file,
- courtesy of Marcin Chrzaszcz & Thomas Blake (LHCb).
13th October 2016 John Back
* Added the TauolaCurrentOption decfile keyword to select the hadronic
current in Tauola; default is the BaBar-tuned current option (int = 1).
* EvtParticles can store double attributes using the functions
setAttributeDouble(name, double) and getAttributeDouble(name), which can
be useful for storing and retrieving amplitude weights, for example.
- The analogous EvtParticle integer attribute interface remains unchanged:
setAttribute(name, int) and getAttribute(name).
13th September 2016 John Back
* Modified EvtTauolaEngine to use internal Tauola spin matrices for
tau pair events by temporarily setting the PDG id of the mother as a
boson, keeping the same 4-momentum.
* The BaBar hadronic currents are now used by default.
* Also added the ability to change some Tauola parameters
using the "Define" keyword in decay files.
* Added an example decay file
illustrating the new features: validation/TauolaFiles/Btautau.dec
9th September 2016 Michal Kreps
* Reimplement code in EvtBTo3pi.F, EvtBTo3piMPP.F, EvtBTo3piP00.F and
EvtBToKpipi.F in C++ in order to remove dependence on Fortran compiler.
- With this, there is no internal Fortran code in EvtGen.
===
## R01-06-00
1st June 2016 John Back
* New tag incorporating all changes below.
* Recommended external packages are
- HepMC 2.06.09
- pythia 8.186
- Photos++ 3.61
- Tauola++ 1.1.5
28th April 2016 Michal Kreps
* For Ds+ --> 2pi+ pi- there was double counting of branching fraction
resulting in total branching fraction being 1.5 times larger than measured
one.
- Fix by revisiting submodes, which now fill total Ds --> 3pi.
25th April 2016 Michal Kreps
* Added DECAY.DEC/XML, which contain updated semileptonic charm and beauty
branching fractions using the 2014 PDG, tuned to minimize disagreements
between measurements and EvtGen for both inclusive and exclusive decays.
* Updated the evt.pdl particle properties file to the PDG 2014 edition.
* Implemented new LQCD form factors for Lb --> L mu mu from arXiv paper
1602.01399 (EvtRareLbToLllFFlQCD); old LQCD form factors are removed.
18th March 2016 John Back
* Fixed incorrect spinor algebra used in S1 -> 1/2 S2, 1/2 -> S3 S4 decays
in EvtDiracParticle::rotateToHelicityBasis() functions,
- courtesy of Luis Miguel Garcia Martin and the IFIC Valencia LHCb group.
19th Feburary 2016 John Back
* Fixed bug in the definition of the initial spinor term Sinit in
EvtRareLbToLll::HadronicAmpRS(),
- from Tom Blake (LHCb).
12th February 2016 John Back
* From LHCb, added extensions to the EvtHQET2(FF) model for semitauonic
decays from Brian Hamilton, which needs a patch to EvtSemiLeptonicAmp
from Jack Wimberley to ensure that the q^2 range is physical when
finding the maximum amplitude probability.
2nd December 2015 John Back
* From LHCb, added EvtKStopizmumu model for KS -> pi0 mu mu decays based on
JHEP08(1998)004,
- courtesy of Veronika Chobanova, Diego Martinez Santos and Jeremy Dalseno.
* Added EvtConst::Fermi for Fermi coupling constant.
===
## R01-05-00
21st October 2015 John Back
* New tag incorporating all changes below.
* Recommended external packages are
- HepMC 2.06.09
- pythia 8.186
- Photos++ 3.61
- Tauola++ 1.1.5
* Added the EvtB2MuMuMuNu model for simulating the very rare four-leptonic
decays B- -> mu+ mu- anti-nu_mu mu-,
- courtesy Nikolai Nikitin.
16th October 2015 John Back
* Updated the configure script to automatically select the library names
for PHOTOS++; version 3.56 and below uses Fortran, version 3.61 and above
uses C++ only (default). Avoid using v3.60, since it does not work.
This needs the PHOTOS libraries built before EvtGen is configured.
Modified setupEvtGen.sh to use Photos++ v3.61.
7th October 2015 John Back
* Updated EvtGenExternal/EvtPhotosEngine to check that additional particles
from the outgoing vertex are indeed (FSR) photons, since later versions of
PHOTOS introduce pair emission, where particles may not always be photons.
* Added the genRootDecayChain.cc validation program to create ROOT files
containing information about the complete decay tree. Two example test
decay files BKstarGamma.dec and BuDst0rhop.dec can be used with this; the
first tests PHOTOS, the second looks at sequential decay chain storage.
The plotBKstarGamma.C ROOT macro can be used for B -> K* gamma plots.
2nd October 2015 John Back
* Modified EvtSVPHelAmp and added a new EvtSVPHelCPMix model, implementing
the complete mixing phenomenology of Bs to vector gamma decays,
- courtesy of Clara Remon (LHCb).
* EvtD0mixDalitz code: cleanup, inverted q/p for decays of D0bar (simplifies
user decay files) and fixed y parameter bug,
- courtesy of Jordi Tico (LHCb).
* Changed the initialisation order of the infrared cut-off in EvtPhotosEngine.
This actually has no effect, since the exponentiation function sets it to the
same 1e-7 value, but it is now in the correct order if we need to update it.
* Removed all remaining obsolete pragma (Win32) warnings from some classes.
23rd September 2015 Michal Kreps
* Reimplement the real Spence function in C++ and removed its fortran
implementation.
15th September 2015 Michal Kreps
* Fixed accessed uninitialised memory in EvtPDL.cpp, line 213.
* Modified the configure and setupEvtGen.sh scripts to work on Mac; needed
Mac compilation patch files added to the new "platform" subdirectory.
10th September 2015 John Back
* Updated setupEvtGen.sh to use the recommended external packages:
- HepMC 2.06.09, pythia 8.186, Photos++ 3.56 and Tauola++ 1.1.5.
* Fixed form-factor calculations for the BTOSLLBALL model 6 used to generate
b -> sll decays,
- courtesy of Christoph Langenbruch and David Loh (LHCb).
- Affects B->K*ll, B->rholl and B->omegall, particularly the electron modes.
* In the validation directory, added runPhotosTest.sh for testing FSR in
Upsilon(4S) -> e+ e- decays, and changed the plot comparison scripts to
use the 2nd directory "oldRootFiles" (which could be a soft-link) for
including ROOT histograms made from a previous version of EvtGen.
27th August 2015 John Back
* Added Mersenne-Twister random number generator (RNG) EvtMTRandomEngine.
- It requires c++11 compiler features (>= gcc 4.7), which should
automatically be enabled by the configure script.
- Introduced the preprocessor environment variable EVTGEN_CPP11 for c++11
features.
- EvtMTRandomEngine is the default RNG for the validation and test examples
if c++11 features are enabled.
* Added a phase-space test validation/genPHSP.sh and PhaseSpacePlots.C to
visually check the flatness of Dalitz plots in order to ensure that the
RNG is not producing biased results that depend on particle ordering.
* Added the models EvtbsToLLLLAmp and EvtbsToLLLLHyperCP for
B0_q -> l+ l- l+ l- decays (SM and one supersymmetric scenario),
- courtesy of Nikolai Nikitin and Konstantin Toms.
- Documentation provided in doc/evt_BQTOLLLL_model.pdf and
doc/evt_BQTOLLLLHYPERCP_model.pdf.
* Changed the installation and set-up script name to be just setupEvtGen.sh;
it uses the VERSION variable to specify the required tag. List of tags
are available using either "svn ls -v http://svn.cern.ch/guest/evtgen/tags"
or by going to http://svn.cern.ch/guest/evtgen/tags in a web browser.
12th June 2015 John Back
* Changed the width of chi_b1 in evt.pdl from 9.8928 GeV (!) to zero.
1st May 2015 John Back
* Added Bc -> scalar ell nu (EvtBcSMuNu) and Bc -> tensor ell nu
(EvtBcTMuNu) decays,
- courtesy of Jack Wimberley, LHCb.
- Also included the chi_c1 mode for EvtBcVMuNu.
===
## R01-04-00
2nd April 2015 John Back
* Removed the EvtStdlibRandomEngine class since this can produce biases
to kinematic distributions when one or more of the daughters is a
resonance, such as B0 -> K pi psi
- (thanks to Antonio Augusto Alves Jr who discovered this issue).
- EvtSimpleRandomEngine is now the default random number generator in the
validation and test examples.
* Incorporated several additions and modifications from LHCb:
a) From Michal Kreps, Tom Blake & Christoph Langenbruch,
added rare Lb --> Lambda^(*) ell ell models described in
arXiv:1108.6129, with various form factors from Gutsche et al.
(arXiv:1301.3737) and lattice QCD (arXiv:1212.4827)
b) From Andrew Crocombe, implemented Bs --> K* form factors
from Ball-Zwicky and z-parametrization form factors from
arXiv:1006.4945 for EvtbTosllBallFF
c) Christoph Langenbruch fixed the Bs -> phi ll form factors in
EvtbTosllBallFF; T3 showed a non-physical pole at very low
q2 which significantly affected the electron mode
d) From Michal Kreps, removed semicolons from wrong places to
clear warnings when compiled with the "-pedantic" option.
9th October 2014 John Back
* Change svnweb.cern.ch to svn.cern.ch in the setup script.
1st April 2014 John Back
* In EvtReport, modified the logging output severity status flags
to have the "EVTGEN_" prefix, e.g. INFO becomes EVTGEN_INFO.
* The global report() function has been renamed to EvtGenReport().
31st March 2014 John Back
* Added the ability to store named attributes for EvtParticles in the
form of a map. The setAttribute(name, value) stores the
required value, while getAttribute(name) retrieves the integer value.
This is used in EvtPhotosEngine to specify the final-state radiation
"FSR" attribute to 1 for any additional photons (EvtPhotonParticles)
created by Photos++. It also stores the "ISR" attribute, but this
is always set to zero, since only FSR photons are created.
If the named attribute does not exist, then getAttribute() returns zero.
29th January 2014 Daniel Craik
* Removed mass assertion on GS shape in EvtDalitzReso to allow it to also
be used for charged rho resonances.
27th January 2014 John Back
* Minor corrections to Vub models to remove further gcc 4.8 warnings.
* Updated configure script to work for MacOS clang (from Genser team).
===
## R01-03-00
9th January 2014 John Back
* New tag version "1.3.0", incorporating all changes below.
* Replaced auto-install script to work with this version as well as
the latest versions of all external generator packages.
* Updated README to mention the new CERN-based web pages for Photos++
and Tauola++.
8th January 2014 John Back
* Fix gcc 4.6 and 4.8 compilation warnings,
- courtesy of Patrick Robbe (LHCb);
- main changes are removal of unused variables.
* Changed the EvtPythiaEngine class and configure script to use new
Pythia 8 header locations; Pythia 8.180 or above is now required.
7th January 2014 John Back
* Modified EvtBCVFF to correct the Kiselev form factors
- from Jack Wimberley (LHCb).
9th October 2013 Daniel Craik
* Added Gounaris-Sakurai and Gaussian shapes to EvtGenericDalitz
and set sensible defaults for LASS parameters.
19th September 2013 John Back
* Modified EvtGenExternal/EvtPythiaEngine to keep track of any new
particles that are added to the default Pythia database to avoid
duplicating particle/anti-particle entries that could override
previously defined Pythia decay chains.
18th September 2013 John Back
* Added Mac OS flags for the configure script and src/Makefile.
15th July 2013 Daniel Craik
* Added flag to turn on scaling of LASS amplitude by M/q in EvtDalitzReso
15th July 2013 Daniel Craik
* EvtParserXML now accepts file names containing environment variables,
exponential non-resonant shape in EvtDalitzReso now defined as exp(-alpha*m^2),
LASS shape in EvtDalitzReso now takes a cutoff parameter
4th July 2013 Daniel Craik
* Added LASS, exponential non-resonant and linear non-resonant shapes to EvtGenericDalitz.
3rd July 2013 Daniel Craik
* Fixed auto-install script for R01-02-00.
1st July 2013 Daniel Craik
* Added auto-install script for R01-02-00.
===
## R01-02-00
15th May 2013 John Back
* New tag, version "1.2.0", incorporating all changes below.
14th May 2013 Michal Kreps
* Added Blatt-Weisskopf barrier factors up to L=5 in
EvtGenBase/EvtBlattWeisskopf::compute().
14th May 2013 John Back
* Added additional entries (appended at the end) to the evt.pdl particle
data file
- courtesy of Romulus Godang and Belle II colleagues.
14th March 2013 John Back
* Added the method EvtParticle::getPDGId() to get the PDG integer for a
particle directly (which just calls EvtPDL::getStdHep()).
* Added a check in EvtPhotosEngine::doDecay to skip Photos if a given
particle has too many daughters (>= 10) to avoid a problem with a
hard coded upper limit in the Photos PHOENE subroutine.
2nd February 2013 Daniel Craik
* Updated EvtDalitzTable to estimate probMax when it is missing from a
Dalitz model.
1st February 2013 John Back
* Added the ability to read in Pythia 6 commands in ascii decay files in
EvtDecayTable::readDecayFile (this was already possible in xml files).
* Modified the Photos++ engine default settings to be more suited to B
decays (from LHCb defaults).
31st January 2013 John Back
* Added the ability to read in Pythia 8 commands in ascii decay files
in EvtDecayTable::readDecayFile. They can be set using the syntax:
"PythiaTypeParam module:variable=value", where Type = Generic, Alias or
Both for specifying whether the parameter is for the generic or alias
Pythia decay engines (or both). The 2nd argument must not contain any
spaces. Fixed the list of commands strings being used in the
EvtPythiaEngine class (i.e. Pythia parameters that can be set via decay
files).
31st January 2013 Daniel Craik
* Added named parameters to various decay models.
30th January 2013 John Back
* Fixed some of the parameter arguments used in the EvtSVSCPiso model.
24th January 2013 John Back
* Set the Photos++ and Tauola++ models to use the EvtGen random number
engine when useEvtGenRandom is set to true in the EvtExternalGenList
constructor.
23rd January 2013 John Back
* Added EvtGenExternal/EvtPythiaRandom to allow the use of the EvtGen
random number engine to also be used for the random engine for Pythia 8.
* Added a boolean (useEvtGenRandom, default = true) within the
EvtExternalGenList constructor to use this feature.
18th December 2012 John Back
* Corrected some wrong daughter ordering assignments for decay modes 5 and
12 in EvtDDalitz. Updated validation/DalitzDecays.xml to also contain
D decay mode 12, as well as various modes that may use K_S0 and K_L0.
* Added validation/genDDalitzModes.sh and updated validation/compareDalitz.C to
do a complete comparison of the D Dalitz modes with the xml versions.
11th December 2012 Daniel Craik
* Updated the Xml parser to support named model parameters.
* Updated the generic Dalitz model to use named model parameters as an example.
15th October 2012 John Back
* Make EvtSimpleRandomEngine inherit from EvtRandomEngine to avoid
crash in EvtGen.cpp when no random engine is defined
- (from Bjoern Spruck).
===
## R01-01-00
4th October 2012 John Back
* New tag, version "1.1.0", incorporating all changes below.
* Provide proper default constructors for EvtVector4R and
EvtPhotonParticle. Modified the validation and test code to also
compile/link in the case of no external generators being included.
3rd October 2012 John Back
* Corrected the t3 vector form factor values for the Ball-Zwicky 2005
model (modelId = 6) in EvtbTosllBallFF::getVectorFF(), which
were set to t3tilde instead.
18th September 2012 John Back
* Moved the external generator engines to a new sub-directory
EvtGenExternal. Building the code now creates 2 libraries:
libEvtGen.so (Base+Models) and libEvtGenExternal.so.
- This allows anyone to ignore using the new external generators
if required (by not creating/loading the 2nd library).
* Added prefix option to the configure script/Makefile to allow the user
to specify an installation directory for the include files, libraries,
DECAY.DEC and evt.pdl files (for Genser).
14th September 2012 Michal Kreps
* Fixed the calculation of the angle between decay planes in the function
EvtKine::EvtDecayAngleChi. Fixed typo in EvtLb2Lll decay model. Only
some NP scenarious could be affected, SM one is definitely unaffected.
13th September 2012 John Back
* Added the use of the environment variables EVTGEN_PHOTOS, EVTGEN_PYTHIA
and EVTGEN_TAUOLA to specify if the Photos, Pythia and/or Tauola engine
classes are used or not. These variables are set by the configure script,
depending if the library paths are specified for these generators.
===
## R01-00-01
12th September 2012 John Back
* New tag incorporating all changes below, since R01-00-00.
11th September 2012 John Back
* Modified the Photos and Tauola engine classes to use the new
Photospp and Tauolapp namespaces that are present in the latest
versions of Photos++(3.5) and Tauola++(1.0.7).
* Updated the configure file to get the correct location of the Tauola++
include files.
* Added the D0->pi+pi-pi0 decay mode in EvtDDalitz
- from Marco Gersabeck and Frederic Dreyer (LHCb).
* Added new decay models/classes from Alexey Luchinsky (LHCb):
EvtBcVMuNu, EvtTVP, EvtWnPi, EvtSVP, EvtXPsiGamma, EvtBcVNpi
29th June 2012 John Back
* Corrected mass(squared) variables filled in the Dalitz TTree in
validation/genExampleRootFiles.
15th May 2012 Daniel Craik
* Updated EvtD0gammaDalitz to deal with D mesons from neutral B->DK
* Added save function to validation/compareDalitz.C.
11th May 2012 Daniel Craik
* Replaced BaBar specific configuration for BlattWeisskopf birth factors.
* Updated XML conversion script to handle new configuration.
* Fixed some bugs in the XML conversion script related to particle
modifications.
9th May 2012 Daniel Craik
* Added latex documentation for xml decay files.
2nd May 2012 Daniel Craik
* Added resDaughters attribute to the Dalitz resonance xml tag to
simplify defining symmetric resonances. Updated validation xml files to
use the new functionality.
27th April 2012 Daniel Craik
* Upgraded EvtGenericDalitz to use EvtDalitzReso for resonances.
* Added validation to compare EvtGenericDalitz to all 11 EvtDDalitz modes.
* Added a root macro to quickly compare two Dalitz decays for validation.
24th April 2012 John Back
* Solved two bugs in the EvtD0gammaDalitz model (from Jordi Tico, LHCb):
configuration of the conjugated model, and using only the B charge
to determine the model used, not the D flavour.
17th April 2012 Daniel Craik
* Updated the GenericDalitz validation code to use the same probMax
values as DDalitz.
* Added XML decay file parsing to EvtGen::readUDecay.
- Dec files are still the default.
30th March 2012 John Back
* Update maximum probability values in EvtDDalitz::initProbMax()
for all DDalitz modes.
23rd March 2012 John Back
* Added the EvtEta2MuMuGamma decay model from LHCb.
21st March 2012 John Back
* Added EvtD0gammaDalitz decay model from LHCb.
20th March 2012 Daniel Craik
* Added backwards compatibility for Pythia 6 commands in the XML configuration.
* Updated decay file conversion tool to convert JetSetPar lines to pythia6Param
tags.
19th March 2012 Daniel Craik
* Added infrastructure to pass commands to external generators.
* XML config now takes Pythia8 configuration commands.
16th March 2012 Daniel Craik
* Added the ability to define particles from the PDL for Dalitz decay
resonances instead of defining mass, width and spin seperately.
* Renamed the lifetime attribute of Dalitz decay resonaces to width to avoid
confusion.
* Added further validation code for the generic Dalitz model.
15th March 2012 Daniel Craik
* Added validation code for xml decay files and the generic Dalitz model.
===
## R01-00-00
6th March 2012 John Back
* First official version for Genser (evtgen 1.0.0) that includes
support for external generators: Pythia8, Photos++ and Tauola++.
* This also includes a preliminary version of creating Dalitz plot
decay models using EvtGenericDalitz.
diff --git a/doc/evt_xml.tex b/doc/evt_xml.tex
index 3d2e6c6..345055a 100644
--- a/doc/evt_xml.tex
+++ b/doc/evt_xml.tex
@@ -1,497 +1,497 @@
\section{XML Interface}
\index{xml}
\label{sec:xml}
This section describes the XML interface for EvtGen. The XML interface can be used to configure EvtGen at runtime and is designed to replace the old decay file format.
\subsection{alias}
\index{aliasTag}
\index{xml!aliasTag}
Defines an alias for a particle.
\subsubsection*{Attributes}
\begin{itemize}
\item{\tt name}\\
The name of the alias.
\item{\tt particle}\\
The name of the particle.
\end{itemize}
\subsubsection*{Tags}
This tag has no tags.
\subsubsection*{Example}
{\footnotesize
\begin{verbatim}
\end{verbatim}
}
\subsection{Author}
\index{authorTag}
\index{xml!authorTag}
Ignored by EvtGen.
\subsubsection*{Attributes}
This tag has no attributes.
\subsubsection*{Tags}
This tag has no tags.
\subsection{channel}
\index{channelTag}
\index{xml!channelTag}
Contains a single decay channel.
\subsubsection*{Attributes}
\begin{itemize}
\item{\tt br}\\
The branching fraction of this channel.
\item{\tt daughters}\\
A space-separated list of the daughters produced in this channel.
\item{\tt model}\\
The name of the decay model used to model this decay channel.
\item{\tt params}\\
A space-separated list of parameters to configure the decay model.
-\item{\tt photos}\\
- Turn on PHOTOS for this decay.\\
+\item{\tt fsr}\\
+ Turn on FSR for this decay.\\
\emph{Default: off}
\item{\tt verbose}\\
Turn on verbose for this decay.\\
\emph{Default: off}
\item{\tt summary}\\
Turn on summary for this decay.\\
\emph{Default: off}
\end{itemize}
\subsubsection*{Tags}
This tag has no tags.
\subsubsection*{Example}
{\footnotesize
\begin{verbatim}
\end{verbatim}
}
\subsection{chargeConj}
\index{chargeConjTag}
\index{xml!chargeConjTag}
Defines two particle aliases as eachothers charge conjugates.
\subsubsection*{Attributes}
\begin{itemize}
\item{\tt particle}\\
The name of the first particle.
\item{\tt conjugate}\\
The name of the second particle.\\
\emph{Note: The order of these parameters is not important.}
\end{itemize}
\subsubsection*{Tags}
This tag has no tags.
\subsubsection*{Example}
{\footnotesize
\begin{verbatim}
\end{verbatim}
}
\subsection{conjDecay}
\index{conjDecayTag}
\index{xml!conjDecayTag}
Define a particle's decay based on that of its charge conjugate.
\subsubsection*{Attributes}
\begin{itemize}
\item{\tt particle}\\
The name of the particle to be modified.
\end{itemize}
\subsubsection*{Tags}
This tag has no tags.
\subsubsection*{Example}
{\footnotesize
\begin{verbatim}
\end{verbatim}
}
\subsection{copyDalitz}
\index{copyDalitzTag}
\index{xml!copyDalitzTag}
Defines a new Dalitz decay with the same resonance structure as an existing one.\\
\emph{Used by EvtGenericDalitz}
\subsubsection*{Attributes}
\begin{itemize}
\item{\tt particle}\\
The name of the decaying particle.
\item{\tt daughters}\\
A space-separated list of the daughters produced in this channel.\\
\emph{Note: The order of daughters is important.}
\item{\tt copy}\\
The decaying particle in the channel to be copied.
\item{\tt copyDaughters}\\
A space-separated list of the daughters of the channel to be copied.
\end{itemize}
\subsubsection*{Tags}
This tag has no tags.
\subsubsection*{Example}
{\footnotesize
\begin{verbatim}
\end{verbatim}
}
\subsection{copyDecay}
\index{copyDecayTag}
\index{xml!copyDecayTag}
Copy the definition of one particle's decays to another particle.
\subsubsection*{Attributes}
\begin{itemize}
\item{\tt particle}\\
The name of the particle to be modified.
\item{\tt copy}\\
The name of the particle to be copied.
\end{itemize}
\subsubsection*{Tags}
This tag has no tags.
\subsubsection*{Example}
{\footnotesize
\begin{verbatim}
\end{verbatim}
}
\subsection{dalitzDecay}
\index{dalitzDecayTag}
\index{xml!dalitzDecayTag}
Configures the Dalitz decay model for a given decay.\\
\emph{Used by EvtGenericDalitz}
\subsubsection*{Attributes}
\begin{itemize}
\item{\tt particle}\\
The name of the decaying particle.
\item{\tt daughters}\\
A space-separated list of the daughters produced in this channel.
\item{\tt probMax}\\
Must be calibrated for each decay seperately.
\end{itemize}
\subsubsection*{Tags}
resonance.
\subsubsection*{Example}
{\footnotesize
\begin{verbatim}
\end{verbatim}
}
\subsection{data}
\index{dataTag}
\index{xml!dataTag}
This is the top-level tag that must contain all other tags.
\subsubsection*{Attributes}
This tag has no attributes.
\subsubsection*{Tags}
-alias, Author, chargeConj, copyDalitz, copyDecay, dalitzDecay, decay, define, Details, lineShapePW, modelAlias, particle, photos, pythia6Param, pythiaParam, removeDecay, Title, Version.
+alias, Author, chargeConj, copyDalitz, copyDecay, dalitzDecay, decay, define, Details, lineShapePW, modelAlias, particle, fsr, pythia6Param, pythiaParam, removeDecay, Title, Version.
\subsection{decay}
\index{decayTag}
\index{xml!decayTag}
Contains the decay information of a single particle.
\subsubsection*{Attributes}
\begin{itemize}
\item{\tt name}\\
The name of the decaying particle.
\end{itemize}
\subsubsection*{Tags}
channel.
\subsubsection*{Example}
{\footnotesize
\begin{verbatim}
-
-
-
+
+
+
\end{verbatim}
}
\subsection{define}
\index{defineTag}
\index{xml!defineTag}
Defines a constant.
\subsubsection*{Attributes}
\begin{itemize}
\item{\tt name}\\
The name of the constant.
\item{\tt value}\\
The numeric value of the constant.
\end{itemize}
\subsubsection*{Tags}
This tag has no tags.
\subsubsection*{Example}
{\footnotesize
\begin{verbatim}
\end{verbatim}
}
\subsection{Details}
\index{detailsTag}
\index{xml!detailsTag}
Ignored by EvtGen.
\subsubsection*{Attributes}
This tag has no attributes.
\subsubsection*{Tags}
This tag has no tags.
\subsection{lineShapePW}
\index{lineShapePWTag}
\index{xml!lineShapePWTag}
Define the lowest allowed partial wave for a two body decay.
\subsubsection*{Attributes}
\begin{itemize}
\item{\tt parent}\\
The name of the decaying particle.
\item{\tt daug1}\\
The name of the first daughter particle.
\item{\tt daug2}\\
The name of the second daughter particle.\\
\emph{The order of {\tt daug1} and {\tt daug2} is not important.}
\item{\tt pw}\\
The partial wave spin.
\end{itemize}
\subsubsection*{Tags}
This tag has no tags.
\subsubsection*{Example}
{\footnotesize
\begin{verbatim}
\end{verbatim}
}
\subsection{modelAlias}
\index{modelAliasTag}
\index{xml!modelAliasTag}
Defines an alias for a model.\\
\emph{Useful for models which are used frequently with the same parameters.}
\subsubsection*{Attributes}
\begin{itemize}
\item{\tt name}\\
The name of the alias.
\item{\tt model}\\
The name of the model that this alias is for.
\item{\tt params}\\
The parameters to be passed to the model when using this alias.
\end{itemize}
\subsubsection*{Tags}
This tag has no tags.
\subsubsection*{Example}
{\footnotesize
\begin{verbatim}
\end{verbatim}
}
\subsection{particle}
\index{particleTag}
\index{xml!particleTag}
Contains modifications to a defined particle.
\subsubsection*{Attributes}
\begin{itemize}
\item{\tt name}\\
The name of the particle to be modified.
\item{\tt mass}\\
The mass of the particle.
\item{\tt width}\\
The width of the particle.
\item{\tt massMax, massMin}\\
The maximum and minimum allowed masses for the particle.
\item{\tt includeBirthFactor, includeDecayFactor}\\
Whether birth and decay factors should be included for the particle.
\item{\tt lineShape}\\
Takes the values RELBW, NONRELBW, FLAT, MANYDELTAFUNC.
\item{\tt blattWeisskopfFactor}\\
The BlattWeisskopf factor associated with the particle.
\end{itemize}
\subsubsection*{Tags}
This tag has no tags.
\subsubsection*{Example}
{\footnotesize
\begin{verbatim}
\end{verbatim}
}
-\subsection{photos}
-\index{photosTag}
-\index{xml!photosTag}
-Configure PHOTOS.
+\subsection{fsr}
+\index{fsrTag}
+\index{xml!fsrTag}
+Configure FSR.
\subsubsection*{Attributes}
\begin{itemize}
\item{\tt usage}\\
- Configure usage of PHOTOS. Takes the values always or never.\\
- \emph{Overrides the {\tt photos} parameter of the channel tag when set.}
+ Configure usage of FSR. Takes the values always or never.\\
+ \emph{Overrides the {\tt fsr} parameter of the channel tag when set.}
\end{itemize}
\subsubsection*{Tags}
This tag has no tags.
\subsubsection*{Example}
{\footnotesize
\begin{verbatim}
-
+
\end{verbatim}
}
\subsection{pythiaParam}
\index{pythiaParamTag}
\index{xml!pythiaParamTag}
Configure PYTHIA.
\subsubsection*{Attributes}
\begin{itemize}
\item{\tt generator}\\
The generator this should be applied to. Takes the values generic, alias or both.
\item{\tt module}\\
The name of the PYTHIA8 module.
\item{\tt param}\\
The name of the PYTHIA8 parameter.
\item{\tt value}\\
The value to give the parameter.
\end{itemize}
\subsubsection*{Tags}
This tag has no tags.
\subsubsection*{Example}
{\footnotesize
\begin{verbatim}
\end{verbatim}
}
\subsection{pythia6Param}
\index{pythia6ParamTag}
\index{xml!pythia6ParamTag}
Configure PYTHIA.\\
\emph{Apply PYTHIA6 configuration to PYTHIA8}
\subsubsection*{Attributes}
\begin{itemize}
\item{\tt generator}\\
The generator this should be applied to. Takes the values generic, alias or both.
\item{\tt module}\\
The name of the PYTHIA6 module.
\item{\tt param}\\
The number of the PYTHIA6 parameter.
\item{\tt value}\\
The value to give the parameter.
\end{itemize}
\subsubsection*{Tags}
This tag has no tags.
\subsubsection*{Example}
{\footnotesize
\begin{verbatim}
\end{verbatim}
}
\subsection{removeDecay}
\index{removeDecayTag}
\index{xml!removeDecayTag}
Remove a decay channel from the decay of a particle.\\
\emph{Used in conjunction with copyDecay}
\subsubsection*{Attributes}
\begin{itemize}
\item{\tt particle}\\
The name of the decaying particle.
\end{itemize}
\subsubsection*{Tags}
channel.
\subsubsection*{Example}
{\footnotesize
\begin{verbatim}
\end{verbatim}
}
\subsection{resonance}
\index{resonanceTag}
\index{xml!resonanceTag}
Contains a single resonance that contributes to a Dalitz decay.\\
\emph{Used by EvtGenericDalitz}
\subsubsection*{Attributes}
\begin{itemize}
\item{\tt mag, phase}\\
The magnitude and phase of the resonance.\\
\emph{Defaults: 1, 0}
\item{\tt real, imag}\\
The real and imaginary components of the resonances amplitude.\\
\emph{Overridden by \tt mag, phase}
\item{\tt ampFactorReal, ampFactorImag}\\
Further multiplicative factor for the amplitude.\\
\emph{Defaults: 1, 0}
\item{\tt particle}\\
The name of the resonant particle to obtain mass, spin and width from.\\
\emph{Overridden by \tt mass, spin, width}
\item{\tt mass, spin, width}\\
The mass, spin and width of the resonant particle.
\item{\tt shape}\\
The shape of the resonance.\\
\emph{Can take the values: NBW, RBW, RBW\_CLEO\_ZEMACH, NonRes, Flatte.}
\item{\tt BlattWeisskopfFactorParent, BlattWeisskopfFactorResonance}\\
The BlattWeisskopf factors associated with the parent and the resonance.\\
\emph{Defaults: 0.0, 1.5}
\item{\tt resDaughters}\\
A space-separated list of the daughters produced by the resonance.
\item{\tt daughterPair}\\
The pair of daughters associated with the resonance 1=AB, 2=BC, 3=CA.\\
\emph{Overridden by \tt resDaughters}
\item{\tt normalise}\\
If multiple daughter pairs match the {\tt resDaughters} string then their amplitudes will be normalised unless this is turned off.\\
\emph{Default: on}
\end{itemize}
\subsubsection*{Tags}
This tag has no tags.
\subsubsection*{Example}
{\footnotesize
\begin{verbatim}
\end{verbatim}
}
\subsection{Title}
\index{titleTag}
\index{xml!titleTag}
Ignored by EvtGen.
\subsubsection*{Attributes}
This tag has no attributes.
\subsubsection*{Tags}
This tag has no tags.
\subsection{Version}
\index{versionTag}
\index{xml!versionTag}
Ignored by EvtGen.
\subsubsection*{Attributes}
This tag has no attributes.
\subsubsection*{Tags}
This tag has no tags.
diff --git a/scripts/convertDecayFile.py b/scripts/convertDecayFile.py
index efc1ee6..6a40e8d 100755
--- a/scripts/convertDecayFile.py
+++ b/scripts/convertDecayFile.py
@@ -1,719 +1,719 @@
#!/usr/bin/env python
########################################################################
# Copyright 1998-2022 CERN for the benefit of the EvtGen authors #
# #
# This file is part of EvtGen. #
# #
# EvtGen is free software: you can redistribute it and/or modify #
# it under the terms of the GNU General Public License as published by #
# the Free Software Foundation, either version 3 of the License, or #
# (at your option) any later version. #
# #
# EvtGen is distributed in the hope that it will be useful, #
# but WITHOUT ANY WARRANTY; without even the implied warranty of #
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the #
# GNU General Public License for more details. #
# #
# You should have received a copy of the GNU General Public License #
# along with EvtGen. If not, see . #
########################################################################
import sys
comments = True
def main(inFile, outFile, extraFiles):
#open our files
fh1 = open(inFile,"r")
fh2 = open(outFile, "w")
data = fh1.readlines()
allowedParticles = []
particleData = {}
#open extra files to get aliases
firstWordIsAlias = False
for file in extraFiles:
extrafh = open(file,"r")
extradata = extrafh.readlines()
for line in extradata:
words = line.split()
if len(words) == 0:
continue
if firstWordIsAlias:
allowedParticles.append(words[0])
firstWordIsAlias = False
for x in range(len(words)-1):
if words[x][0] == '#':
break
elif words[x] == "Alias":
allowedParticles.append(words[x+1])
if words[len(words)-1] == "Alias":
firstWordIsAlias = True
extrafh.close()
#assemble particles list
fhPDL = open("evt.pdl","r")
pdlData = fhPDL.readlines()
for line in pdlData:
words = line.split()
if words[0] == "add" and words[2] == "Particle":
allowedParticles.append(words[3])
fhPDL.close()
#keep count of some things
count = 0
countComment = 0
countDec = 0
countParticle = 0
countAlias = 0
countModelAlias = 0
countDef = 0
countConj = 0
countConjDecay = 0
countLineShapePW = 0
- countPhotos = 0
+ countFSR = 0
countBad = 0
countCopyDec = 0
countRemoveDec = 0
countPythia6 = 0
#flags to figure out if we're in a decay block
inDecay = False
inRemoveDecay = False
#store unused tokens from previous lines
previousLine=""
getMore=True
#first print the top
fh2.write("\n")
fh2.write("\n")
fh2.write("\n")
fh2.write("\t"+outFile+"\n")
fh2.write("\tXML Decay File for EvtGen - automatically generated by convertDecayFile.py \n")
fh2.write("\tconvertDecayFile.py\n")
fh2.write("\t1.0\n")
for line in data:
#add in anything we had previously
if previousLine:
line = " ".join([previousLine,line])
previousLine = ""
getMore = False
line = line.strip(" \t")
while line and not getMore:
line = line.strip(" \t")
line = line.lstrip("\n")
if not line:#catch any lines that were just whitespace here
continue
#check if we have a comment
if line[0] == '#':
countComment += 1
if line.find('\n')!=-1:
comment = line.split('\n',1)[0]
line = line.split('\n',1)[1]
else:
comment = line
line = ""
if comments:
comment = comment.strip("#")
while comment.find("--") != -1:#illegal sequence in XML comments
comment = comment.replace("--","-")
if comment and comment != "-":#ignore empty comments
comment = "\n"
fh2.write(comment)
continue
count += 1
#split the line into words and check it's not empty
words = line.split()
if len(words) == 0:
fh2.write(line)
getMore = True
continue
#are we currently parsing a decay?
if inDecay:
if words[0] == "Enddecay":
fh2.write("\t\n")
inDecay = False
if len(words) > 1:
line = " ".join(words[1:])
else:
getMore = True
else:
br = words[0]
daughtersList = []
model = ""
paramsList = []
#various flags to deal with the evil format
- photos = False
+ fsr = False
summary = False
verbose = False
stage = 0 ## 0 - daughters, 1 - PSV/model, 2 - params
semicolonDetected = False
#precheck for a semicolon to save ourselves a bit of work
for word in words:
if word[-1] == ';':
semicolonDetected = True
break
if not semicolonDetected: #we're missing some of this line so wait til we have it all
previousLine = line
getMore = True
continue
semicolonDetected = False
for x in range(1,len(words)):
if not semicolonDetected and words[x][-1] == ';':
semicolonDetected = True
words[x] = words[x][:-1]
if stage == 0:
allowed = set(allowedParticles)
if words[x] in allowed:
daughtersList.append(words[x])
else:
stage = 1 #fall through into stage 1
if stage == 1:
- if words[x] == "PHOTOS":
- photos = True
+ if words[x] == "FSR" or words[x] == "PHOTOS":
+ fsr = True
elif words[x] == "SUMMARY":
summary = True
elif words[x] == "VERBOSE":
verbose = True
else:
model = words[x]
stage = 2 #don't fall through on this lap
elif stage == 2:
paramsList.append(words[x])
if semicolonDetected:
if len(words) > x+1:
line = " ".join(words[x+1:])
else:
getMore = True
break
daughters = " ".join(daughtersList)
params = " ".join(paramsList)
toWrite = "\t\t\n"
fh2.write(toWrite)
continue
#are we currently parsing a removeDecay?
if inRemoveDecay:
if words[0] == "Enddecay":
fh2.write("\t\n")
inRemoveDecay = False
if len(words) > 1:
line = " ".join(words[1:])
else:
getMore = True
else:
semicolonDetected = False
daughtersList = []
#precheck for a semicolon to save ourselves a bit of work
for word in words:
if word[-1] == ';':
semicolonDetected = True
break
if not semicolonDetected: #we're missing some of this line so wait til we have it all
previousLine = line
getMore = True
continue
for x in range(len(words)):
if words[x][-1] == ';':
daughtersList.append(words[x][:-1])
if len(words) > x+1:
print(words[x+1:])
line = " ".join(words[x+1:])
else:
getMore = True
break
else:
daughtersList.append(words[x])
daughters = " ".join(daughtersList)
fh2.write("\t\t\n");
continue
#otherwise lets figure out what this line does!
#######DECAY##################
if words[0] == "Decay":
if len(words) < 2:
previousLine = line
getMore = True
continue
countDec += 1
parent = words[1]
fh2.write("\t\n")
if len(words) > 2:
line = " ".join(words[2:])
else:
getMore = True
inDecay = True
#######ALIAS##################
elif words[0] == "Alias":
if len(words) < 3:
previousLine = line
getMore = True
continue
countAlias += 1
alias = words[1]
particle = words[2]
fh2.write("\t\n")
if len(words) > 3:
line = " ".join(words[3:])
else:
getMore = True
allowedParticles.append(alias)
#######MODELALIAS#############
elif words[0] == "ModelAlias":
semicolonDetected = False
#precheck for a semicolon to save ourselves a bit of work
if len(words) < 3:
previousLine = line
getMore = True
continue
for word in words[1:]:
if word[-1] == ';':
semicolonDetected = True
break
if not semicolonDetected: #we're missing some of this line so wait til we have it all
previousLine = line
getMore = True
continue
countModelAlias += 1
alias = words[1]
paramsList = []
if words[2][-1] == ';':
model = words[2][:-1]
else:
model = words[2]
for x in range(3,len(words)):
if word[x][-1] == ';':
paramsList.append(word[x][:-1])
if len(words) > x+1:
line = " ".join(word[x+1:])
else:
getMore = True
break
else:
paramsList.append(word[x])
params = " ".join(paramsList)
fh2.write("\t\n")
#######DEFINE#################
elif words[0] == "Define":
if len(words) < 3:
previousLine = line
getMore = True
continue
countDef += 1
name = words[1]
value = words[2]
fh2.write("\t\n")
if len(words) > 3:
line = " ".join(words[3:])
else:
getMore = True
#######CHARGECONJ#############
elif words[0] == "ChargeConj":
if len(words) < 3:
previousLine = line
getMore = True
continue
countConj += 1
particle = words[1]
conjugate = words[2]
fh2.write("\t\n")
if len(words) > 3:
line = " ".join(words[3:])
else:
getMore = True
#######CDECAY#################
elif words[0] == "CDecay":
if len(words) < 2:
previousLine = line
getMore = True
continue
countConjDecay += 1
particle = words[1]
fh2.write("\t\n")
if len(words) > 2:
line = " ".join(words[2:])
else:
getMore = True
#######LINESHAPEPW############
elif words[0] == "SetLineshapePW":
if len(words) < 5:
previousLine = line
getMore = True
continue
countLineShapePW += 1
parent = words[1]
daug1 = words[2]
daug2 = words[3]
pw = words[4]
fh2.write("\t\n")
if len(words) > 5:
line = " ".join(words[5:])
else:
getMore = True
- #######PHOTOS#################
- elif words[0] == "yesPhotos":
- countPhotos += 1
- fh2.write("\t\n")
+ #######FSR#################
+ elif words[0] == "yesFSR" or words[0] == "yesPhotos":
+ countFSR += 1
+ fh2.write("\t\n")
if len(words) > 1:
line = " ".join(words[1:])
else:
getMore = True
- elif words[0] == "noPhotos":
- countPhotos += 1
- fh2.write("\t\n")
+ elif words[0] == "noFSR" or words[0] == "noPhotos":
+ countFSR += 1
+ fh2.write("\t\n")
if len(words) > 1:
line = " ".join(words[1:])
else:
getMore = True
- elif words[0] == "normalPhotos":
- countPhotos += 1
- fh2.write("\t\n")
+ elif words[0] == "normalFSR" or words[0] == "normalPhotos":
+ countFSR += 1
+ fh2.write("\t\n")
if len(words) > 1:
line = " ".join(words[1:])
else:
getMore = True
#######PARTICLE###############
elif words[0] == "Particle":
if len(words) < 4:
previousLine = line
getMore = True
continue
particle = words[1]
mass = words[2]
width = words[3]
if particle in particleData:
particleDatum = particleData[particle]
else:
particleDatum = {}
particleDatum["mass"] = mass
particleDatum["width"] = width
particleData[particle] = particleDatum
if len(words) > 4:
line = " ".join(words[4:])
else:
getMore = True
#######CHANGEMASSMIN##########
elif words[0] == "ChangeMassMin":
if len(words) < 3:
previousLine = line
getMore = True
continue
particle = words[1]
massMin = words[2]
if particle in particleData:
particleDatum = particleData[particle]
else:
particleDatum = {}
particleDatum["massMin"] = massMin
particleData[particle] = particleDatum
if len(words) > 3:
line = " ".join(words[3:])
else:
getMore = True
#######CHANGEMASSMAX##########
elif words[0] == "ChangeMassMax":
if len(words) < 3:
previousLine = line
getMore = True
continue
particle = words[1]
massMax = words[2]
if particle in particleData:
particleDatum = particleData[particle]
else:
particleDatum = {}
particleDatum["massMax"] = massMax
particleData[particle] = particleDatum
if len(words) > 3:
line = " ".join(words[3:])
else:
getMore = True
#######BIRTHFACTOR############
elif words[0] == "IncludeBirthFactor":
if len(words) < 3:
previousLine = line
getMore = True
continue
particle = words[1]
birthFactor = words[2]
if particle in particleData:
particleDatum = particleData[particle]
else:
particleDatum = {}
particleDatum["birthFactor"] = birthFactor
particleData[particle] = particleDatum
if len(words) > 3:
line = " ".join(words[3:])
else:
getMore = True
#######DECAYFACTOR############
elif words[0] == "IncludeDecayFactor":
if len(words) < 3:
previousLine = line
getMore = True
continue
particle = words[1]
decayFactor = words[2]
if particle in particleData:
particleDatum = particleData[particle]
else:
particleDatum = {}
particleDatum["decayFactor"] = decayFactor
particleData[particle] = particleDatum
if len(words) > 3:
line = " ".join(words[3:])
else:
getMore = True
#######BLATTWEISSKOPF#########
elif words[0] == "BlattWeisskopf":
if len(words) < 3:
previousLine = line
getMore = True
continue
particle = words[1]
blattWeisskopf = words[2]
if particle in particleData:
particleDatum = particleData[particle]
else:
particleDatum = {}
particleDatum["blattWeisskopf"] = blattWeisskopf
particleData[particle] = particleDatum
if len(words) > 3:
line = " ".join(words[3:])
else:
getMore = True
#######BLATTWEISSKOPFBIRTH####
elif words[0] == "BlattWeisskopfBirth":
if len(words) < 3:
previousLine = line
getMore = True
continue
particle = words[1]
blattWeisskopf = words[2]
if particle in particleData:
particleDatum = particleData[particle]
else:
particleDatum = {}
particleDatum["blattWeisskopfBirth"] = blattWeisskopf
particleData[particle] = particleDatum
if len(words) > 3:
line = " ".join(words[3:])
else:
getMore = True
#######LSNONRELBW#############
elif words[0] == "LSNONRELBW":
if len(words) < 2:
previousLine = line
getMore = True
continue
particle = words[1]
if particle in particleData:
particleDatum = particleData[particle]
else:
particleDatum = {}
particleDatum["lineShape"] = "NONRELBW"
particleData[particle] = particleDatum
if len(words) > 2:
line = " ".join(words[2:])
else:
getMore = True
#######LSFLAT#################
elif words[0] == "LSFLAT":
if len(words) < 2:
previousLine = line
getMore = True
continue
particle = words[1]
if particle in particleData:
particleDatum = particleData[particle]
else:
particleDatum = {}
particleDatum["lineShape"] = "FLAT"
particleData[particle] = particleDatum
if len(words) > 2:
line = " ".join(words[2:])
else:
getMore = True
#######LSMANYDELTAFUNC########
elif words[0] == "LSMANYDELTAFUNC":
if len(words) < 2:
previousLine = line
getMore = True
continue
particle = words[1]
if particle in particleData:
particleDatum = particleData[particle]
else:
particleDatum = {}
particleDatum["lineShape"] = "MANYDELTAFUNC"
particleData[particle] = particleDatum
if len(words) > 2:
line = " ".join(words[2:])
else:
getMore = True
#######COPYDECAY##############
elif words[0] == "CopyDecay":
if len(words) < 3:
previousLine = line
getMore = True
continue
countCopyDec += 1
particle = words[1]
copy = words[2]
fh2.write("\t\n")
if len(words) > 3:
line = " ".join(words[3:])
else:
getMore = True
#######REMOVEDECAY############
elif words[0] == "RemoveDecay":
if len(words) < 2:
previousLine = line
getMore = True
continue
countRemoveDec += 1
parent = words[1]
fh2.write("\t\n")
if len(words) > 2:
line = " ".join(words[2:])
else:
getMore = True
inRemoveDecay = True
#######PYTHIA6################
elif words[0] == "JetSetPar":
if len(words) < 2:
previousLine = line
getMore = True
continue
s1 = words[1].find("(")
s2 = words[1].find(")")
s3 = words[1].find("=")
if s1 == -1 or s2 == -1 or s3 == -1:
countBad += 1
print("bad line: "+words[0]+" "+words[1]+" copied as comment, please fix manually!\n")
fh2.write("\t\n")
else:
countPythia6 += 1
fh2.write("\t\n")
module = words[1].split("(")[0]
if len(words) > 2:
line = " ".join(words[2:])
else:
getMore = True
#######END####################
elif words[0] == "End":
for particle in particleData.keys():
countParticle += 1
mass = particleData[particle].get("mass","")
width = particleData[particle].get("width","")
massMax = particleData[particle].get("massMax","")
massMin = particleData[particle].get("massMin","")
birthFactor = particleData[particle].get("birthFactor","")
decayFactor = particleData[particle].get("decayFactor","")
lineShape = particleData[particle].get("lineShape","")
blattWeisskopf = particleData[particle].get("blattWeisskopf","")
blattWeisskopfBirth = particleData[particle].get("blattWeisskopfBirth","")
fixLS = particleData[particle].get("fixLS","")
toWrite = "")
break
else:
countBad += 1
print("bad line: "+line+"copied as comment, please fix manually!\n")
fh2.write("\n")
getMore = True
if comments:
print(str(countComment)+" commented lines copied without modification")
else:
print(str(countComment)+" commented lines ignored")
print(str(count)+" other lines converted including:")
print(str(countDec)+" decays")
print(str(countParticle)+" modified particles")
print(str(countAlias)+" aliases")
print(str(countModelAlias)+" model aliases")
print(str(countDef)+" definitions")
print(str(countConj)+" conjugates")
print(str(countConjDecay)+" conjugate decays")
print(str(countLineShapePW)+" line shape PWs")
- print(str(countPhotos)+" PHOTOS lines")
+ print(str(countFSR)+" FSR lines")
print(str(countCopyDec)+" copied decays")
print(str(countRemoveDec)+" removed decays")
print(str(countPythia6)+" pythia commands")
print(str(countBad)+" bad lines!")
fh1.close()
fh2.close()
##################
args = sys.argv
extraFiles = []
if len(args) == 1:
inFile = "DECAY.DEC"
outFile = "DECAY.XML"
elif len(args) == 2:
inFile = args[1]
outFile = inFile.rsplit(".",1)[0]+".XML"
elif len(args) == 3:
inFile = args[1]
outFile = args[2]
else:
inFile = args[1]
outFile = args[2]
extraFiles = args[3:]
main(inFile,outFile,extraFiles)
diff --git a/test/do_tests b/test/do_tests
index a18c904..0c159bb 100755
--- a/test/do_tests
+++ b/test/do_tests
@@ -1,98 +1,98 @@
#!/bin/bash
########################################################################
# Copyright 1998-2020 CERN for the benefit of the EvtGen authors #
# #
# This file is part of EvtGen. #
# #
# EvtGen is free software: you can redistribute it and/or modify #
# it under the terms of the GNU General Public License as published by #
# the Free Software Foundation, either version 3 of the License, or #
# (at your option) any later version. #
# #
# EvtGen is distributed in the hope that it will be useful, #
# but WITHOUT ANY WARRANTY; without even the implied warranty of #
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the #
# GNU General Public License for more details. #
# #
# You should have received a copy of the GNU General Public License #
# along with EvtGen. If not, see . #
########################################################################
time ./evtgenlhc_test1 file 1000 exampleFiles/GENERIC.DEC
time ./evtgenlhc_test1 print 100 exampleFiles/GENERIC.DEC
time ./evtgenlhc_test1 filevpho 1000 exampleFiles/GENERIC.DEC
time ./evtgenlhc_test1 test1 1000
time ./evtgenlhc_test1 chi1kstar 1000
time ./evtgenlhc_test1 test2 1000
time ./evtgenlhc_test1 omega 1000
time ./evtgenlhc_test1 alias
-time ./evtgenlhc_test1 photos 1000
+time ./evtgenlhc_test1 fsr 1000
time ./evtgenlhc_test1 trackmult 1000
time ./evtgenlhc_test1 generic 1000
time ./evtgenlhc_test1 generic 1000 exampleFiles/generic.list
time ./evtgenlhc_test1 generic 1000 exampleFiles/genericlong.list
time ./evtgenlhc_test1 finalstates 1000
time ./evtgenlhc_test1 kstarnunu 1000
time ./evtgenlhc_test1 bsmix 10000
time ./evtgenlhc_test1 BtoXsgamma 1000
time ./evtgenlhc_test1 BtoK1273gamma 1000
time ./evtgenlhc_test1 pi0dalitz 1000
time ./evtgenlhc_test1 ddalitz 1000
time ./evtgenlhc_test1 kstarll 1000
time ./evtgenlhc_test1 kll 1000
time ./evtgenlhc_test1 hll 1000 pimm
time ./evtgenlhc_test1 hll 1000 piee
time ./evtgenlhc_test1 hll 1000 pi0mm
time ./evtgenlhc_test1 hll 1000 pi0ee
time ./evtgenlhc_test1 vectorisr 10000
time ./evtgenlhc_test1 bsquark 1000
time ./evtgenlhc_test1 k3gamma 1000
time ./evtgenlhc_test1 lambda 1000
time ./evtgenlhc_test1 tautaupipi 1000
time ./evtgenlhc_test1 tautauee 1000
time ./evtgenlhc_test1 tautau2pi2pi 1000
time ./evtgenlhc_test1 tautau3pi3pi 1000
time ./evtgenlhc_test1 jpsikstar 1000 0
time ./evtgenlhc_test1 jpsikstar 1000 1
time ./evtgenlhc_test1 jpsikstar 1000 2
time ./evtgenlhc_test1 jpsikstar 1000 3
time ./evtgenlhc_test1 jpsikstar 1000 4
time ./evtgenlhc_test1 svvcplh 1000
time ./evtgenlhc_test1 svscplh 1000
time ./evtgenlhc_test1 ssdcp 10000
time ./evtgenlhc_test1 dstarpi 10000
time ./evtgenlhc_test1 etacphiphi 10000
time ./evtgenlhc_test1 vvpipi 1000
time ./evtgenlhc_test1 svvhelamp 1000
time ./evtgenlhc_test1 partwave 1000
time ./evtgenlhc_test1 twobody 1000 exampleFiles/TWOBODY1.DEC twobody1.root
time ./evtgenlhc_test1 twobody 1000 exampleFiles/TWOBODY2.DEC twobody2.root
time ./evtgenlhc_test1 twobody 1000 exampleFiles/TWOBODY3.DEC twobody3.root
time ./evtgenlhc_test1 pipipi 1000
time ./evtgenlhc_test1 singleb 1000
time ./evtgenlhc_test1 pipi 1000
time ./evtgenlhc_test1 pipipipi 1000
time ./evtgenlhc_test1 a2pi 1000
time ./evtgenlhc_test1 helamp 1000 exampleFiles/HELAMP1_D2STGAMMA.DEC helamp1_D2stgamma.root
time ./evtgenlhc_test1 helamp2 1000
time ./evtgenlhc_test1 lambda 1000
time ./evtgenlhc_test1 d2pi 1000
time ./evtgenlhc_test1 a1pi 1000
time ./evtgenlhc_test1 cptest 1000
time ./evtgenlhc_test1 pipicpt 1000
time ./evtgenlhc_test1 jpsiks 1000
time ./evtgenlhc_test1 dump 10
time ./evtgenlhc_test1 genericcont 1000
time ./evtgenlhc_test1 d1 1000
time ./evtgenlhc_test1 mix 1000
time ./evtgenlhc_test1 bmix 10000 exampleFiles/BMIX_1.DEC bmix1.root
time ./evtgenlhc_test1 bmix 10000 exampleFiles/BMIX_2.DEC bmix2.root
time ./evtgenlhc_test1 semic 10000
time ./evtgenlhc_test1 ddk 10000
time ./evtgenlhc_test1 checkmass 10000 511
time ./evtgenlhc_test1 jpsipolarization 10000
time ./evtgenlhc_test1 checkrotboost
time ./evtgenlhc_test1 baryonic 1000
time ./evtgenlhc_test1 phspdecaytimecut 10000
time ./evtgenlhc_test1 3bodyPhsp 1000000
diff --git a/test/evtgenlhc_test1.cc b/test/evtgenlhc_test1.cc
index f6731eb..ded4760 100644
--- a/test/evtgenlhc_test1.cc
+++ b/test/evtgenlhc_test1.cc
@@ -1,5782 +1,5782 @@
/***********************************************************************
* Copyright 1998-2020 CERN for the benefit of the EvtGen authors *
* *
* This file is part of EvtGen. *
* *
* EvtGen is free software: you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation, either version 3 of the License, or *
* (at your option) any later version. *
* *
* EvtGen is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU General Public License for more details. *
* *
* You should have received a copy of the GNU General Public License *
* along with EvtGen. If not, see . *
***********************************************************************/
//#@# Dalitz plot for D0 --> K- pi+ pi0 decay:
//#@# 1: Mass(K-, pi+)
//#@# 2: Mass(pi+,pi0)
//
// Description:
//
// This program invokes the EvtGen event generator package
// for testing various decay models that are implemented.
#include "EvtGen/EvtGen.hh"
#include "EvtGenBase/EvtAbsRadCorr.hh"
#include "EvtGenBase/EvtComplex.hh"
#include "EvtGenBase/EvtConst.hh"
#include "EvtGenBase/EvtDecayBase.hh"
#include "EvtGenBase/EvtDecayTable.hh"
#include "EvtGenBase/EvtDiracSpinor.hh"
#include "EvtGenBase/EvtGammaMatrix.hh"
#include "EvtGenBase/EvtIdSet.hh"
#include "EvtGenBase/EvtKine.hh"
#include "EvtGenBase/EvtMTRandomEngine.hh"
#include "EvtGenBase/EvtPDL.hh"
#include "EvtGenBase/EvtParser.hh"
#include "EvtGenBase/EvtParticle.hh"
#include "EvtGenBase/EvtParticleFactory.hh"
#include "EvtGenBase/EvtRadCorr.hh"
#include "EvtGenBase/EvtRandom.hh"
#include "EvtGenBase/EvtRandomEngine.hh"
#include "EvtGenBase/EvtReport.hh"
#include "EvtGenBase/EvtSecondary.hh"
#include "EvtGenBase/EvtSimpleRandomEngine.hh"
#include "EvtGenBase/EvtStdHep.hh"
#include "EvtGenBase/EvtTensor4C.hh"
#include "EvtGenBase/EvtVector4C.hh"
#include "EvtGenBase/EvtVector4R.hh"
#include "EvtGenBase/EvtVectorParticle.hh"
#ifdef EVTGEN_EXTERNAL
#include "EvtGenExternal/EvtExternalGenList.hh"
#endif
#include "TApplication.h"
#include "TFile.h"
#include "TH1.h"
#include "TH2.h"
#include "TROOT.h"
#include "TString.h"
#include "TTree.h"
#include
#include
#include
#include
#include
#include
#include
using std::vector;
void runFile( int nevent, char* fname, EvtGen& myGenerator );
void runPrint( int nevent, char* fname, EvtGen& myGenerator );
void runFileVpho( int nevent, char* fname, EvtGen& myGenerator );
void runTest1( int nevent, EvtGen& myGenerator );
void runTest2( int nevent, EvtGen& myGenerator );
void runOmega( int nevent, EvtGen& myGenerator );
void runChi1Kstar( int nevent, EvtGen& myGenerator );
void runPi0Dalitz( int nevent, EvtGen& myGenerator );
void runMix( int nevent, EvtGen& myGenerator );
void runBMix( int nevent, EvtGen& myGenerator, std::string userFile,
std::string rootFile );
void runDDalitz( int nevent, EvtGen& myGenerator );
void runPiPiCPT( int nevent, EvtGen& myGenerator );
void runPiPiPiPi( int nevent, EvtGen& myGenerator );
void runD2Pi( int nevent, EvtGen& myGenerator );
void runJetsetTab3( int nevent, EvtGen& myGenerator );
void runHelAmp( int nevent, EvtGen& myGenerator, std::string userFile,
std::string rootFile );
void runHelAmp2( int nevent, EvtGen& myGenerator );
void runJpsiKs( int nevent, EvtGen& myGenerator );
void runDump( int nevent, EvtGen& myGenerator );
void runD1( int nevent, EvtGen& myGenerator );
void runGenericCont( int nevent, EvtGen& myGenerator );
void runPiPiPi( int nevent, EvtGen& myGenerator );
void runSingleB( int nevent, EvtGen& myGenerator );
void runA2Pi( int nevent, EvtGen& myGenerator );
void runAlias();
void runRepeat( int nevent );
-void runPhotos( int nevent, EvtGen& myGenerator );
+void runFSR( int nevent, EvtGen& myGenerator );
void runTrackMult( int nevent, EvtGen& myGenerator );
void runGeneric( int neventOrig, EvtGen& myGenerator, std::string listfile );
void runFinalStates( int nevent, EvtGen& myGenerator );
std::vector findFinalState( EvtParticle* p );
void runKstarnunu( int nevent, EvtGen& myGenerator );
void runBsmix( int nevent, EvtGen& myGenerator );
void runTauTauPiPi( int nevent, EvtGen& myGenerator );
void runTauTauEE( int nevent, EvtGen& myGenerator );
void runTauTau2Pi2Pi( int nevent, EvtGen& myGenerator );
void runTauTau3Pi3Pi( int nevent, EvtGen& myGenerator );
void runJPsiKstar( int nevent, EvtGen& myGenerator, int modeInt );
void runSVVCPLH( int nevent, EvtGen& myGenerator );
void runSVSCPLH( int nevent, EvtGen& myGenerator );
void runSSDCP( int nevent, EvtGen& myGenerator );
void runDSTARPI( int nevent, EvtGen& myGenerator );
void runETACPHIPHI( int nevent, EvtGen& myGenerator );
void runVVPiPi( int nevent, EvtGen& myGenerator );
void runSVVHelAmp( int nevent, EvtGen& myGenerator );
void runSVVHelAmp2( int nevent, EvtGen& myGenerator );
void runPartWave( int nevent, EvtGen& myGenerator );
void runPartWave2( int nevent, EvtGen& myGenerator );
void runTwoBody( int nevent, EvtGen& myGenerator, std::string decfile,
std::string rootFile );
void runPiPi( int nevent, EvtGen& myGenerator );
void runA1Pi( int nevent, EvtGen& myGenerator );
void runCPTest( int nevent, EvtGen& myGenerator );
void runSemic( int nevent, EvtGen& myGenerator );
void runKstarll( int nevent, EvtGen& myGenerator );
void runKll( int nevent, EvtGen& myGenerator );
void runHll( int nevent, EvtGen& myGenerator, char* mode );
void runVectorIsr( int nevent, EvtGen& myGenerator );
void runBsquark( int nevent, EvtGen& myGenerator );
void runK3gamma( int nevent, EvtGen& myGenerator );
void runLambda( int nevent, EvtGen& myGenerator );
void runBtoXsgamma( int nevent, EvtGen& myGenerator );
void runBtoK1273gamma( int nevent, EvtGen& myGenerator );
void runCheckRotBoost();
void runMassCheck( int nevent, EvtGen& myGenerator, int partnum );
void runJpsiPolarization( int nevent, EvtGen& myGenerator );
void runDDK( int nevent, EvtGen& myGenerator );
void runPhspDecaytimeCut( int nevent, EvtGen& myGenerator );
int countInclusive( std::string name, EvtParticle* root, TH1F* mom = nullptr,
TH1F* mass = nullptr );
int countInclusiveParent( std::string name, EvtParticle* root, EvtIdSet setIds,
TH1F* mom = nullptr );
int countInclusiveSubTree( std::string name, EvtParticle* root, EvtIdSet setIds,
TH1F* mom = nullptr );
void runBaryonic( int nEvent, EvtGen& myGenerator );
void run3BPhspRegion( int nEvent, EvtGen& myGenerator );
void runFourBody( int nevent, EvtGen& myGenerator );
int main( int argc, char* argv[] )
{
// Define the random number generator
EvtRandomEngine* myRandomEngine = nullptr;
#ifdef EVTGEN_CPP11
// Use the Mersenne-Twister generator (C++11 only)
myRandomEngine = new EvtMTRandomEngine();
#else
myRandomEngine = new EvtSimpleRandomEngine();
#endif
if ( !TROOT::Initialized() ) {
static TROOT root( "RooTuple", "RooTuple ROOT in EvtGen" );
}
if ( argc == 1 ) {
EvtVector4R p( 0.0, 1.0, 0.0, 0.0 );
EvtVector4R k( 0.0, 0.0, 1.0, 0.0 );
EvtTensor4C T = dual( EvtGenFunctions::directProd( p, k ) );
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "p:" << p << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "k:" << k << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "T=dual(directProd(p,k)):" << T << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "T03:" << T.get( 0, 3 ) << std::endl;
return 1;
}
EvtAbsRadCorr* radCorrEngine = nullptr;
std::list extraModels;
#ifdef EVTGEN_EXTERNAL
bool convertPythiaCodes( false );
bool useEvtGenRandom( true );
EvtExternalGenList genList( convertPythiaCodes, "", "gamma", useEvtGenRandom );
radCorrEngine = genList.getPhotosModel();
extraModels = genList.getListOfModels();
#endif
EvtGen myGenerator( "../DECAY.DEC", "../evt.pdl", myRandomEngine,
radCorrEngine, &extraModels );
if ( !strcmp( argv[1], "file" ) ) {
int nevent = atoi( argv[2] );
runFile( nevent, argv[3], myGenerator );
}
if ( !strcmp( argv[1], "print" ) ) {
int nevent = atoi( argv[2] );
runPrint( nevent, argv[3], myGenerator );
}
if ( !strcmp( argv[1], "filevpho" ) ) {
int nevent = atoi( argv[2] );
runFileVpho( nevent, argv[3], myGenerator );
}
if ( !strcmp( argv[1], "test1" ) ) {
int nevent = atoi( argv[2] );
runTest1( nevent, myGenerator );
}
if ( !strcmp( argv[1], "chi1kstar" ) ) {
int nevent = atoi( argv[2] );
runChi1Kstar( nevent, myGenerator );
}
if ( !strcmp( argv[1], "test2" ) ) {
int nevent = atoi( argv[2] );
runTest2( nevent, myGenerator );
}
if ( !strcmp( argv[1], "omega" ) ) {
int nevent = atoi( argv[2] );
runOmega( nevent, myGenerator );
}
if ( !strcmp( argv[1], "alias" ) ) {
runAlias();
}
if ( !strcmp( argv[1], "repeat" ) ) {
int nevent = atoi( argv[2] );
runRepeat( nevent );
}
- if ( !strcmp( argv[1], "photos" ) ) {
+ if ( !strcmp( argv[1], "fsr" ) ) {
int nevent = atoi( argv[2] );
- runPhotos( nevent, myGenerator );
+ runFSR( nevent, myGenerator );
}
if ( !strcmp( argv[1], "trackmult" ) ) {
int nevent = atoi( argv[2] );
runTrackMult( nevent, myGenerator );
}
if ( !strcmp( argv[1], "generic" ) ) {
int nevent = atoi( argv[2] );
std::string listfile( "" );
if ( argc == 4 )
listfile = argv[3];
runGeneric( nevent, myGenerator, listfile );
}
if ( !strcmp( argv[1], "finalstates" ) ) {
int nevent = atoi( argv[2] );
runFinalStates( nevent, myGenerator );
}
if ( !strcmp( argv[1], "kstarnunu" ) ) {
int nevent = atoi( argv[2] );
runKstarnunu( nevent, myGenerator );
}
if ( !strcmp( argv[1], "bsmix" ) ) {
int nevent = atoi( argv[2] );
runBsmix( nevent, myGenerator );
}
if ( !strcmp( argv[1], "BtoXsgamma" ) ) {
int nevent = atoi( argv[2] );
runBtoXsgamma( nevent, myGenerator );
}
if ( !strcmp( argv[1], "BtoK1273gamma" ) ) {
int nevent = atoi( argv[2] );
runBtoK1273gamma( nevent, myGenerator );
}
if ( !strcmp( argv[1], "pi0dalitz" ) ) {
int nevent = atoi( argv[2] );
runPi0Dalitz( nevent, myGenerator );
}
if ( !strcmp( argv[1], "ddalitz" ) ) {
int nevent = atoi( argv[2] );
runDDalitz( nevent, myGenerator );
}
if ( !strcmp( argv[1], "kstarll" ) ) {
int nevent = atoi( argv[2] );
runKstarll( nevent, myGenerator );
}
if ( !strcmp( argv[1], "kll" ) ) {
int nevent = atoi( argv[2] );
runKll( nevent, myGenerator );
}
if ( !strcmp( argv[1], "hll" ) ) {
int nevent = atoi( argv[2] );
runHll( nevent, myGenerator, argv[3] );
}
if ( !strcmp( argv[1], "vectorisr" ) ) {
int nevent = atoi( argv[2] );
runVectorIsr( nevent, myGenerator );
}
if ( !strcmp( argv[1], "bsquark" ) ) {
int nevent = atoi( argv[2] );
runBsquark( nevent, myGenerator );
}
if ( !strcmp( argv[1], "k3gamma" ) ) {
int nevent = atoi( argv[2] );
runK3gamma( nevent, myGenerator );
}
if ( !strcmp( argv[1], "lambda" ) ) {
int nevent = atoi( argv[2] );
runLambda( nevent, myGenerator );
}
if ( !strcmp( argv[1], "tautaupipi" ) ) {
int nevent = atoi( argv[2] );
runTauTauPiPi( nevent, myGenerator );
}
if ( !strcmp( argv[1], "tautauee" ) ) {
int nevent = atoi( argv[2] );
runTauTauEE( nevent, myGenerator );
}
if ( !strcmp( argv[1], "tautau2pi2pi" ) ) {
int nevent = atoi( argv[2] );
runTauTau2Pi2Pi( nevent, myGenerator );
}
if ( !strcmp( argv[1], "tautau3pi3pi" ) ) {
int nevent = atoi( argv[2] );
runTauTau3Pi3Pi( nevent, myGenerator );
}
if ( !strcmp( argv[1], "jpsikstar" ) ) {
int nevent = atoi( argv[2] );
int modeInt = atoi( argv[3] );
runJPsiKstar( nevent, myGenerator, modeInt );
}
if ( !strcmp( argv[1], "svvcplh" ) ) {
int nevent = atoi( argv[2] );
runSVVCPLH( nevent, myGenerator );
}
if ( !strcmp( argv[1], "svscplh" ) ) {
int nevent = atoi( argv[2] );
runSVSCPLH( nevent, myGenerator );
}
if ( !strcmp( argv[1], "ssdcp" ) ) {
int nevent = atoi( argv[2] );
runSSDCP( nevent, myGenerator );
}
if ( !strcmp( argv[1], "dstarpi" ) ) {
int nevent = atoi( argv[2] );
runDSTARPI( nevent, myGenerator );
}
if ( !strcmp( argv[1], "etacphiphi" ) ) {
int nevent = atoi( argv[2] );
runETACPHIPHI( nevent, myGenerator );
}
if ( !strcmp( argv[1], "vvpipi" ) ) {
int nevent = atoi( argv[2] );
runVVPiPi( nevent, myGenerator );
}
if ( !strcmp( argv[1], "svvhelamp" ) ) {
int nevent = atoi( argv[2] );
runSVVHelAmp( nevent, myGenerator );
}
if ( !strcmp( argv[1], "partwave" ) ) {
int nevent = atoi( argv[2] );
runPartWave( nevent, myGenerator );
}
if ( !strcmp( argv[1], "partwave2" ) ) {
int nevent = atoi( argv[2] );
runPartWave2( nevent, myGenerator );
}
if ( !strcmp( argv[1], "twobody" ) ) {
int nevent = atoi( argv[2] );
runTwoBody( nevent, myGenerator, argv[3], argv[4] );
}
if ( !strcmp( argv[1], "pipipi" ) ) {
int nevent = atoi( argv[2] );
runPiPiPi( nevent, myGenerator );
}
if ( !strcmp( argv[1], "singleb" ) ) {
int nevent = atoi( argv[2] );
runSingleB( nevent, myGenerator );
}
if ( !strcmp( argv[1], "pipi" ) ) {
int nevent = atoi( argv[2] );
runPiPi( nevent, myGenerator );
}
if ( !strcmp( argv[1], "pipipipi" ) ) {
int nevent = atoi( argv[2] );
runPiPiPiPi( nevent, myGenerator );
}
if ( !strcmp( argv[1], "a2pi" ) ) {
int nevent = atoi( argv[2] );
runA2Pi( nevent, myGenerator );
}
if ( !strcmp( argv[1], "helamp" ) ) {
int nevent = atoi( argv[2] );
runHelAmp( nevent, myGenerator, argv[3], argv[4] );
}
if ( !strcmp( argv[1], "helamp2" ) ) {
int nevent = atoi( argv[2] );
runHelAmp2( nevent, myGenerator );
}
if ( !strcmp( argv[1], "d2pi" ) ) {
int nevent = atoi( argv[2] );
runD2Pi( nevent, myGenerator );
}
if ( !strcmp( argv[1], "a1pi" ) ) {
int nevent = atoi( argv[2] );
runA1Pi( nevent, myGenerator );
}
if ( !strcmp( argv[1], "cptest" ) ) {
int nevent = atoi( argv[2] );
runCPTest( nevent, myGenerator );
}
if ( !strcmp( argv[1], "pipicpt" ) ) {
int nevent = atoi( argv[2] );
runPiPiCPT( nevent, myGenerator );
}
if ( !strcmp( argv[1], "jpsiks" ) ) {
int nevent = atoi( argv[2] );
runJpsiKs( nevent, myGenerator );
}
if ( !strcmp( argv[1], "dump" ) ) {
int nevent = atoi( argv[2] );
runDump( nevent, myGenerator );
}
if ( !strcmp( argv[1], "genericcont" ) ) {
int nevent = atoi( argv[2] );
runGenericCont( nevent, myGenerator );
}
if ( !strcmp( argv[1], "d1" ) ) {
int nevent = atoi( argv[2] );
runD1( nevent, myGenerator );
}
if ( !strcmp( argv[1], "mix" ) ) {
int nevent = atoi( argv[2] );
runMix( nevent, myGenerator );
}
if ( !strcmp( argv[1], "bmix" ) ) {
int nevent = atoi( argv[2] );
runBMix( nevent, myGenerator, argv[3], argv[4] );
}
if ( !strcmp( argv[1], "semic" ) ) {
int nevent = atoi( argv[2] );
runSemic( nevent, myGenerator );
}
if ( !strcmp( argv[1], "ddk" ) ) {
int nevent = atoi( argv[2] );
runDDK( nevent, myGenerator );
}
if ( !strcmp( argv[1], "checkmass" ) ) {
int nevent = atoi( argv[2] );
int partnum = atoi( argv[3] );
runMassCheck( nevent, myGenerator, partnum );
}
if ( !strcmp( argv[1], "jpsipolarization" ) ) {
int nevent = atoi( argv[2] );
runJpsiPolarization( nevent, myGenerator );
}
if ( !strcmp( argv[1], "phspdecaytimecut" ) ) {
int nevent = atoi( argv[2] );
runPhspDecaytimeCut( nevent, myGenerator );
}
if ( !strcmp( argv[1], "3bodyPhsp" ) ) {
int nevent = atoi( argv[2] );
EvtRadCorr::setNeverRadCorr();
run3BPhspRegion( nevent, myGenerator );
}
if ( !strcmp( argv[1], "4bodyPhsp" ) ) {
int nevent = atoi( argv[2] );
EvtRadCorr::setNeverRadCorr();
runFourBody( nevent, myGenerator );
}
//*******************************************************
//test of the rotations and boosts performed in EvtGen.
// Added by Lange and Ryd Jan 5,2000.
//*******************************************************
if ( !strcmp( argv[1], "checkrotboost" ) ) {
runCheckRotBoost();
}
if ( !strcmp( argv[1], "baryonic" ) ) {
runBaryonic( atoi( argv[2] ), myGenerator );
}
delete myRandomEngine;
return 0;
}
void runFile( int nevent, char* fname, EvtGen& myGenerator )
{
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
int count;
char udecay_name[100];
strcpy( udecay_name, fname );
myGenerator.readUDecay( udecay_name );
count = 1;
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
root_part->deleteTree();
} while ( count++ < nevent );
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runPrint( int nevent, char* fname, EvtGen& myGenerator )
{
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
int count;
char udecay_name[100];
strcpy( udecay_name, fname );
myGenerator.readUDecay( udecay_name );
count = 1;
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
root_part->printTree();
root_part->deleteTree();
} while ( count++ < nevent );
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runFileVpho( int nevent, char* fname, EvtGen& myGenerator )
{
static EvtId VPHO = EvtPDL::getId( std::string( "vpho" ) );
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
int count;
char udecay_name[100];
strcpy( udecay_name, fname );
myGenerator.readUDecay( udecay_name );
count = 1;
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( VPHO,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
root_part->deleteTree();
} while ( count++ < nevent );
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
///////////////
void runJpsiPolarization( int nevent, EvtGen& myGenerator )
{
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId JPSI = EvtPDL::getId( std::string( "J/psi" ) );
int count;
myGenerator.readUDecay( "exampleFiles/GENERIC.DEC" );
myGenerator.readUDecay( "exampleFiles/JPSITOLL.DEC" );
TFile* file = new TFile( "jpsipolar.root", "RECREATE" );
TH1F* coshel = new TH1F( "h1", "cos hel", 50, -1.0, 1.0 );
TH1F* coshelHigh = new TH1F( "h2", "cos hel pstar gt 1.1", 50, -1.0, 1.0 );
TH1F* coshelLow = new TH1F( "h3", "cos hel pstar lt 1.1", 50, -1.0, 1.0 );
count = 1;
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
EvtParticle* p = root_part;
do {
if ( p->getId() == JPSI ) {
EvtVector4R p4psi = p->getP4Lab();
EvtVector4R p4Daug = p->getDaug( 0 )->getP4Lab();
double dcostheta = EvtDecayAngle( p_init, p4psi, p4Daug );
coshel->Fill( dcostheta );
if ( p4psi.d3mag() > 1.1 ) {
coshelHigh->Fill( dcostheta );
} else {
coshelLow->Fill( dcostheta );
}
}
p = p->nextIter( root_part );
} while ( p != nullptr );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runMassCheck( int nevent, EvtGen& /*myGenerator*/, int partnum )
{
int count;
static EvtId myPart = EvtPDL::evtIdFromStdHep( partnum );
TFile* file = new TFile( "checkmass.root", "RECREATE" );
TH1F* mass = new TH1F( "h1", "Mass", 500, 0.0, 2.5 );
count = 1;
do {
mass->Fill( EvtPDL::getMass( myPart ) );
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runPi0Dalitz( int nevent, EvtGen& myGenerator )
{
static EvtId PI0 = EvtPDL::getId( std::string( "pi0" ) );
TFile* file = new TFile( "pi0dalitz.root", "RECREATE" );
TH1F* q2 = new TH1F( "h1", "q2", 50, 0.0, 0.02 );
int count;
myGenerator.readUDecay( "exampleFiles/PI0DALITZ.DEC" );
count = 1;
do {
EvtVector4R p_init( EvtPDL::getMass( PI0 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( PI0,
p_init );
root_part->setDiagonalSpinDensity();
myGenerator.generateDecay( root_part );
EvtVector4R ep = root_part->getDaug( 0 )->getP4Lab();
EvtVector4R em = root_part->getDaug( 1 )->getP4Lab();
//EvtVector4R gamma=root_part->getDaug(2)->getP4Lab();
q2->Fill( ( ep + em ).mass2() );
// EvtGenReport(EVTGEN_INFO,"EvtGen") << ep << em << gamma <deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
//*******************************************************************************
void runTest1( int nevent, EvtGen& myGenerator )
{
// TFile *file=new TFile("test1.root", "RECREATE");
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
// int first=0;
// char **second;
// TApplication *theApp = new TApplication("App", &first, second);
TFile* file = new TFile( "test1.root", "RECREATE", "Example" );
TH1F* costhetaB = new TH1F( "hcosthetaB", "costhetaB", 50, -1.0, 1.0 );
TH1F* phiB = new TH1F( "hphiB", "phiB", 50, -EvtConst::pi, EvtConst::pi );
TH1F* Elep = new TH1F( "hEl", "E?l!", 50, 0.0, 2.5 );
TH1F* q2 = new TH1F( "hq2", "q^2!", 44, 0.0, 11.0 );
TH1F* ctv = new TH1F( "hctv", "ctv", 50, -1.0, 1.0 );
TH1F* chi_low_ctv = new TH1F( "hcostv1", "[h] for cos[Q]?V!\"L#0", 50, 0.0,
EvtConst::twoPi );
TH1F* chi_high_ctv = new TH1F( "hcostv2", "[h] for cos[Q]?V!\"G#0", 50, 0.0,
EvtConst::twoPi );
TH1F* dt = new TH1F( "hdt", "dt", 50, -5.0, 5.0 );
int count;
EvtVector4R p4b0, p4b0b, p4dstar, p4e, p4nu, p4d, p4pi, p4pip, p4pim;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/TEST1.DEC" );
// EvtGen myGenerator(decay_name,pdttable_name,myRandomEngine);
myGenerator.readUDecay( udecay_name );
double costhetaV;
count = 1;
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
p4b0 = root_part->getDaug( 0 )->getP4Lab();
p4b0b = root_part->getDaug( 1 )->getP4Lab();
p4dstar = root_part->getDaug( 0 )->getDaug( 0 )->getP4Lab();
p4e = root_part->getDaug( 0 )->getDaug( 1 )->getP4Lab();
p4nu = root_part->getDaug( 0 )->getDaug( 2 )->getP4Lab();
p4d = root_part->getDaug( 0 )->getDaug( 0 )->getDaug( 0 )->getP4Lab();
p4pi = root_part->getDaug( 0 )->getDaug( 0 )->getDaug( 1 )->getP4Lab();
p4pip = root_part->getDaug( 1 )->getDaug( 0 )->getP4Lab();
p4pim = root_part->getDaug( 1 )->getDaug( 1 )->getP4Lab();
costhetaB->Fill( p4b0.get( 3 ) / p4b0.d3mag() );
phiB->Fill( atan2( p4b0.get( 1 ), p4b0.get( 2 ) ) );
Elep->Fill( p4b0 * p4e / p4b0.mass() );
q2->Fill( ( p4e + p4nu ).mass2() );
dt->Fill( root_part->getDaug( 1 )->getLifetime() -
root_part->getDaug( 0 )->getLifetime() );
costhetaV = EvtDecayAngle( p4b0, p4d + p4pi, p4d );
ctv->Fill( costhetaV );
if ( costhetaV < 0.0 ) {
chi_low_ctv->Fill( EvtDecayAngleChi( p4b0, p4d, p4pi, p4e, p4nu ) );
} else {
chi_high_ctv->Fill( EvtDecayAngleChi( p4b0, p4d, p4pi, p4e, p4nu ) );
}
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
// delete theApp;
// hfile.write();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
//*******************************************************************************
void runDDK( int nevent, EvtGen& myGenerator )
{
// TFile *file=new TFile("test1.root", "RECREATE");
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
int count;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/GENERIC.DEC" );
myGenerator.readUDecay( udecay_name );
count = 1;
static EvtId kp = EvtPDL::getId( std::string( "K+" ) );
static EvtId km = EvtPDL::getId( std::string( "K-" ) );
static EvtId ks = EvtPDL::getId( std::string( "K_S0" ) );
static EvtId kl = EvtPDL::getId( std::string( "K_L0" ) );
static EvtId k0 = EvtPDL::getId( std::string( "K0" ) );
static EvtId kb = EvtPDL::getId( std::string( "anti-K0" ) );
static EvtId d0 = EvtPDL::getId( std::string( "D0" ) );
static EvtId dp = EvtPDL::getId( std::string( "D+" ) );
static EvtId dm = EvtPDL::getId( std::string( "D-" ) );
static EvtId db = EvtPDL::getId( std::string( "anti-D0" ) );
static EvtIdSet theKs{ kp, km, ks, kl, k0, kb };
static EvtIdSet theDs{ d0, dp, dm, db };
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
static EvtId B0B = EvtPDL::getId( std::string( "anti-B0" ) );
static EvtId BP = EvtPDL::getId( std::string( "B+" ) );
static EvtId BM = EvtPDL::getId( std::string( "B-" ) );
static EvtIdSet theBs{ B0B, B0, BP, BM };
int nDDK = 0;
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
EvtParticle* theB01 = root_part->getDaug( 0 );
EvtParticle* theB02 = root_part->getDaug( 1 );
int nD = 0;
int nK = 0;
EvtParticle* p = theB01;
do {
EvtId type = p->getId();
EvtId typePar = p->getParent()->getId();
if ( theDs.contains( type ) )
nD++;
if ( theKs.contains( type ) && theBs.contains( typePar ) )
nK++;
p = p->nextIter( theB01 );
} while ( p != nullptr );
if ( nD == 2 && nK == 1 )
nDDK++;
nD = 0;
nK = 0;
p = theB02;
do {
EvtId type = p->getId();
EvtId typePar = p->getParent()->getId();
if ( theDs.contains( type ) )
nD++;
if ( theKs.contains( type ) && theBs.contains( typePar ) )
nK++;
p = p->nextIter( theB02 );
} while ( p != nullptr );
if ( nD == 2 && nK == 1 )
nDDK++;
root_part->deleteTree();
} while ( count++ < nevent );
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< nDDK << " " << ( count - 1 ) << " "
<< nDDK / float( 2 * ( count - 1 ) ) << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
//*******************************************************************************
void runTest2( int nevent, EvtGen& myGenerator )
{
TFile* file = new TFile( "test2.root", "RECREATE" );
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
TH1F* costhetaB = new TH1F( "h1", "cos[Q]?B!", 50, -1.0, 1.0 );
TH1F* phiB = new TH1F( "h2", "[f]?B!", 50, -EvtConst::pi, EvtConst::pi );
TH1F* dt = new TH1F( "h3", "[D]t", 100, -5.0, 5.0 );
TH1F* costhetaJpsi = new TH1F( "h4", "cos[Q]?J/[y]!", 50, -1.0, 1.0 );
TH1F* costhetaKstar = new TH1F( "h5", "cos[Q]?K*!", 50, -1.0, 1.0 );
TH1F* chi = new TH1F( "h6", "[h]", 50, 0.0, EvtConst::twoPi );
TH1F* chi1 = new TH1F( "h26", "[h] [D]t\"L#0", 50, 0.0, EvtConst::twoPi );
TH1F* chi2 = new TH1F( "h27", "[h] [D]t\"G#0", 50, 0.0, EvtConst::twoPi );
TH1F* costhetaomega = new TH1F( "h7", "costhetaomega", 50, -1.0, 1.0 );
TH1F* costhetaomega1 = new TH1F( "h20", "costhetaomega1", 50, -1.0, 1.0 );
TH1F* costhetaomega2 = new TH1F( "h21", "costhetaomega2", 50, -1.0, 1.0 );
TH1F* costhetaomega3 = new TH1F( "h22", "costhetaomega3", 50, -1.0, 1.0 );
TH1F* omegaamp = new TH1F( "h8", "omegaamp", 50, 0.0, 0.05 );
TH1F* omegaamp1 = new TH1F( "h9", "omegaamp1", 50, 0.0, 0.05 );
TH1F* omegaamp2 = new TH1F( "h10", "omegaamp2", 50, 0.0, 0.05 );
TH1F* omegaamp3 = new TH1F( "h11", "omegaamp3", 50, 0.0, 0.05 );
TH2F* chi1vscoskstarl = new TH2F( "h30", "[h] vs. cos[Q]?J/[y]! [D]t\"L#0",
20, 0.0, EvtConst::twoPi, 20, -1.0, 1.0 );
TH2F* chi1vscoskstarg = new TH2F( "h31", "[h] vs. cos[Q]?J/[y]! [D]t\"G#0",
20, 0.0, EvtConst::twoPi, 20, -1.0, 1.0 );
int count = 1;
EvtVector4R p4_b0, p4_b0b, p4_psi, p4_kstar, p4_mup, p4_mum;
EvtVector4R p4_kz, p4_pi0, p4_pi1, p4_pi2, p4_pi3, p4_omega;
EvtVector4R p4_pi1_omega, p4_pi2_omega, p4_pi3_omega;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/TEST2.DEC" );
//EvtGen myGenerator(decay_name,pdttable_name,myRandomEngine);
myGenerator.readUDecay( udecay_name );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
p4_b0 = root_part->getDaug( 0 )->getP4Lab();
p4_b0b = root_part->getDaug( 1 )->getP4Lab();
p4_psi = root_part->getDaug( 1 )->getDaug( 0 )->getP4Lab();
p4_kstar = root_part->getDaug( 1 )->getDaug( 1 )->getP4Lab();
p4_mup = root_part->getDaug( 1 )->getDaug( 0 )->getDaug( 0 )->getP4Lab();
p4_mum = root_part->getDaug( 1 )->getDaug( 0 )->getDaug( 1 )->getP4Lab();
p4_kz = root_part->getDaug( 1 )->getDaug( 1 )->getDaug( 0 )->getP4Lab();
p4_pi0 = root_part->getDaug( 1 )->getDaug( 1 )->getDaug( 1 )->getP4Lab();
p4_omega = root_part->getDaug( 0 )->getDaug( 0 )->getP4Lab();
p4_pi1 = root_part->getDaug( 0 )->getDaug( 0 )->getDaug( 0 )->getP4Lab();
p4_pi2 = root_part->getDaug( 0 )->getDaug( 0 )->getDaug( 1 )->getP4Lab();
p4_pi3 = root_part->getDaug( 0 )->getDaug( 0 )->getDaug( 2 )->getP4Lab();
//get momentum in the omega restframe
p4_pi1_omega =
root_part->getDaug( 0 )->getDaug( 0 )->getDaug( 0 )->getP4();
p4_pi2_omega =
root_part->getDaug( 0 )->getDaug( 0 )->getDaug( 1 )->getP4();
p4_pi3_omega =
root_part->getDaug( 0 )->getDaug( 0 )->getDaug( 2 )->getP4();
EvtVector3R p3_perp =
cross( EvtVector3R( p4_pi2_omega.get( 0 ), p4_pi2_omega.get( 1 ),
p4_pi2_omega.get( 2 ) ),
EvtVector3R( p4_pi3_omega.get( 0 ), p4_pi3_omega.get( 1 ),
p4_pi3_omega.get( 2 ) ) );
EvtVector4R p4_perp( p3_perp.d3mag(), p3_perp.get( 0 ),
p3_perp.get( 1 ), p3_perp.get( 2 ) );
root_part->getDaug( 0 )->getDaug( 0 )->getDaug( 0 )->setP4( p4_perp );
p4_perp = root_part->getDaug( 0 )->getDaug( 0 )->getDaug( 0 )->getP4Lab();
EvtVector4R p4_perpprime = p4_omega - p4_perp;
double d_omegaamp = EvtVector3R( p4_pi1_omega.get( 0 ),
p4_pi1_omega.get( 1 ),
p4_pi1_omega.get( 2 ) ) *
p3_perp;
d_omegaamp *= d_omegaamp;
d_omegaamp *= 20.0;
double d_dt = root_part->getDaug( 1 )->getLifetime() -
root_part->getDaug( 0 )->getLifetime();
double d_costhetaJpsi = EvtDecayAngle( p4_b0b, p4_mup + p4_mum, p4_mup );
double d_costhetaKstar = EvtDecayAngle( p4_b0b, p4_pi0 + p4_kz, p4_pi0 );
double d_chi = EvtDecayAngleChi( p4_b0b, p4_pi0, p4_kz, p4_mup, p4_mum );
costhetaB->Fill( p4_b0.get( 3 ) / p4_b0.d3mag() );
phiB->Fill( atan2( p4_b0.get( 1 ), p4_b0.get( 2 ) ) );
dt->Fill( d_dt );
costhetaJpsi->Fill( d_costhetaJpsi );
costhetaKstar->Fill( d_costhetaKstar );
chi->Fill( d_chi );
if ( d_dt < 0.0 ) {
chi1->Fill( d_chi );
chi1vscoskstarl->Fill( d_chi, d_costhetaJpsi, 1.0 );
}
if ( d_dt > 0.0 ) {
chi2->Fill( d_chi );
chi1vscoskstarg->Fill( d_chi, d_costhetaJpsi, 1.0 );
}
double d_costhetaomega = EvtDecayAngle( p4_b0b, p4_perp + p4_perpprime,
p4_perp );
costhetaomega->Fill( d_costhetaomega );
if ( d_omegaamp < 0.001 )
costhetaomega1->Fill( d_costhetaomega );
if ( d_omegaamp > 0.02 )
costhetaomega2->Fill( d_costhetaomega );
if ( std::fabs( d_omegaamp - 0.015 ) < 0.005 )
costhetaomega3->Fill( d_costhetaomega );
omegaamp->Fill( d_omegaamp );
if ( d_costhetaomega < -0.5 )
omegaamp1->Fill( d_omegaamp );
if ( d_costhetaomega > 0.5 )
omegaamp2->Fill( d_omegaamp );
if ( std::fabs( d_costhetaomega ) < 0.5 )
omegaamp3->Fill( d_omegaamp );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runOmega( int nevent, EvtGen& myGenerator )
{
TFile* file = new TFile( "omega.root", "RECREATE" );
static EvtId OMEGA = EvtPDL::getId( std::string( "omega" ) );
TH2F* dalitz = new TH2F( "h1", "E1 vs E2", 50, 0.0, 0.5, 50, 0.0, 0.5 );
int count = 1;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/OMEGA.DEC" );
myGenerator.readUDecay( udecay_name );
do {
EvtVector4R p_init( EvtPDL::getMeanMass( OMEGA ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( OMEGA,
p_init );
//root_part->setDiagonalSpinDensity();
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
dalitz->Fill( root_part->getDaug( 0 )->getP4().get( 0 ),
root_part->getDaug( 1 )->getP4().get( 0 ), 1.0 );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runChi1Kstar( int nevent, EvtGen& myGenerator )
{
TFile* file = new TFile( "chi1kstar.root", "RECREATE" );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
TH1F* costhetaChi1 = new TH1F( "h1", "cos[Q]?J/[x]!", 50, -1.0, 1.0 );
TH1F* costhetaKstar = new TH1F( "h2", "cos[Q]?K*!", 50, -1.0, 1.0 );
TH1F* chi = new TH1F( "h3", "[x]", 50, -EvtConst::pi, EvtConst::pi );
int count = 1;
EvtVector4R p4_b, p4_chi, p4_kstar, p4_gamma, p4_psi, p4_k, p4_p;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/CHI1KSTAR.DEC" );
myGenerator.readUDecay( udecay_name );
do {
EvtVector4R p_init( EvtPDL::getMass( B0 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( B0, p_init );
myGenerator.generateDecay( root_part );
p4_b = root_part->getP4Lab();
p4_chi = root_part->getDaug( 0 )->getP4Lab();
p4_kstar = root_part->getDaug( 1 )->getP4Lab();
p4_psi = root_part->getDaug( 0 )->getDaug( 0 )->getP4Lab();
p4_gamma = root_part->getDaug( 0 )->getDaug( 1 )->getP4Lab();
p4_k = root_part->getDaug( 1 )->getDaug( 0 )->getP4Lab();
p4_p = root_part->getDaug( 1 )->getDaug( 1 )->getP4Lab();
double d_costhetaChi1 = EvtDecayAngle( p4_b, p4_chi, p4_psi );
double d_costhetaKstar = EvtDecayAngle( p4_b, p4_kstar, p4_k );
double d_chi = EvtDecayAngleChi( p4_b, p4_k, p4_p, p4_psi, p4_gamma );
if ( d_chi > EvtConst::pi )
d_chi -= EvtConst::twoPi;
costhetaChi1->Fill( d_costhetaChi1 );
costhetaKstar->Fill( d_costhetaKstar );
chi->Fill( d_chi );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runAlias()
{
EvtId idpip = EvtPDL::getId( std::string( "pi+" ) );
EvtPDL::alias( idpip, std::string( "my_pi+" ) );
EvtId myidpip = EvtPDL::getId( std::string( "my_pi+" ) );
EvtId idpim = EvtPDL::getId( std::string( "pi-" ) );
EvtPDL::alias( idpim, std::string( "my_pi-" ) );
EvtId myidpim = EvtPDL::getId( std::string( "my_pi-" ) );
EvtId idpi0 = EvtPDL::getId( std::string( "pi0" ) );
EvtPDL::alias( idpi0, std::string( "my_pi0" ) );
EvtId myidpi0 = EvtPDL::getId( std::string( "my_pi0" ) );
EvtPDL::aliasChgConj( myidpip, myidpim );
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "Id pi+:" << idpip << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "Id pi-:" << idpim << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "Id pi0:" << idpi0 << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "Id my_pi+:" << myidpip << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "Id my_pi-:" << myidpim << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "Id my_pi0:" << myidpi0 << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Chg conj pi+:" << EvtPDL::chargeConj( idpip ) << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Chg conj pi-:" << EvtPDL::chargeConj( idpim ) << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Chg conj pi0:" << EvtPDL::chargeConj( idpi0 ) << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Chg conj my_pi+:" << EvtPDL::chargeConj( myidpip ) << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Chg conj my_pi-:" << EvtPDL::chargeConj( myidpim ) << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Chg conj my_pi0:" << EvtPDL::chargeConj( myidpi0 ) << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runRepeat( int nevent )
{
int i;
for ( i = 0; i < nevent; i++ ) {
EvtDecayTable::getInstance()->readDecayFile(
std::string( "../DECAY.DEC" ) );
}
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
-void runPhotos( int nevent, EvtGen& myGenerator )
+void runFSR( int nevent, EvtGen& myGenerator )
{
static EvtId PSI = EvtPDL::getId( std::string( "J/psi" ) );
- TFile* file = new TFile( "photos.root", "RECREATE" );
+ TFile* file = new TFile( "fsr.root", "RECREATE" );
TH1F* mee = new TH1F( "h1", "mee", 60, 3.0, 3.12 );
int count = 1;
EvtVector4R e1, e2;
char udecay_name[100];
- strcpy( udecay_name, "exampleFiles/PHOTOS.DEC" );
+ strcpy( udecay_name, "exampleFiles/FSR.DEC" );
//EvtGen myGenerator(decay_name,pdttable_name,myRandomEngine);
myGenerator.readUDecay( udecay_name );
do {
EvtVector4R p_init( EvtPDL::getMass( PSI ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( PSI,
p_init );
root_part->setDiagonalSpinDensity();
myGenerator.generateDecay( root_part );
e1 = root_part->getDaug( 0 )->getP4Lab();
e2 = root_part->getDaug( 1 )->getP4Lab();
mee->Fill( ( e1 + e2 ).mass() );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runFinalStates( int nevent, EvtGen& myGenerator )
{
//Parse the table of particles to find..
EvtParser parser;
parser.read( std::string( "exampleFiles/finalstates.list" ) );
std::vector dList[20];
int dListNum[20];
std::vector* dListItem = nullptr;
std::string dListName[20];
int ik, lk;
std::string tk = "";
int tline = -1;
std::string parent;
for ( ik = 0; ik < parser.getNToken(); ik++ ) {
lk = tline;
tline = parser.getLineofToken( ik );
tk = parser.getToken( ik );
if ( lk != tline && tline > 2 ) {
if ( tline > 1 ) {
dList[tline - 3] = *dListItem;
dListItem = new std::vector;
dListNum[tline - 3] = 0;
dListName[tline - 2] = parser.getToken( ik );
}
} else {
if ( tline == 1 ) {
//This is the parent particle name
parent = parser.getToken( ik );
dListItem = new std::vector;
} else {
//This is one of the daughters
if ( tline != 2 || ( lk == tline ) ) {
dListItem->push_back( parser.getToken( ik ) );
}
if ( tline == 2 && ( lk != tline ) ) {
dListName[tline - 2] = parser.getToken( ik );
}
}
}
}
dList[tline - 2] = *dListItem;
dListNum[tline - 2] = 0;
static EvtId parId = EvtPDL::getId( parent );
int count = 0;
do {
if ( count == 1000 * ( count / 1000 ) ) {
//if (count==1*(count/1)) {
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Event:" << count << std::endl;
//EvtGenReport(EVTGEN_INFO,"EvtGen") << HepRandom::getTheSeed()<setVectorSpinDensity();
} else {
root_part->setDiagonalSpinDensity();
}
myGenerator.generateDecay( root_part );
EvtParticle* p = root_part;
std::vector fs = findFinalState( p );
int j;
for ( j = 0; j < ( tline - 1 ); j++ ) {
std::vector temp = dList[j];
if ( temp.size() == fs.size() ) {
bool foundIt = true;
unsigned int k, l;
std::vector alreadyUsed( temp.size() );
for ( k = 0; k < temp.size(); k++ ) {
bool foundThisOne = false;
for ( l = 0; l < temp.size(); l++ ) {
if ( k == 0 )
alreadyUsed[l] = false;
if ( foundThisOne || alreadyUsed[l] )
continue;
if ( temp[k] == fs[l] ) {
alreadyUsed[l] = true;
foundThisOne = true;
// EvtGenReport(EVTGEN_INFO,"EvtGen") << "found daughter " << k << " " << l << std::endl;
}
}
if ( !foundThisOne )
foundIt = false;
}
if ( foundIt ) { //EvtGenReport(EVTGEN_INFO,"EvtGen") << "found a cand \n"; (histo1[j])->Fill(0.5);
//EvtGenReport(EVTGEN_INFO,"EvtGen") << "found one " << j << std::endl;
dListNum[j]++;
}
}
}
root_part->deleteTree();
count++;
} while ( count < nevent );
int j;
for ( j = 0; j < ( tline - 1 ); j++ )
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< dListName[j].c_str() << " " << j << " " << dListNum[j] << " "
<< count << " " << ( dListNum[j] / ( 1.0 * count ) ) << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
std::vector findFinalState( EvtParticle* tree )
{
EvtParticle* p = tree;
std::vector fs;
static EvtId ep = EvtPDL::getId( std::string( "e+" ) );
static EvtId em = EvtPDL::getId( std::string( "e-" ) );
static EvtId kp = EvtPDL::getId( std::string( "K+" ) );
static EvtId km = EvtPDL::getId( std::string( "K-" ) );
static EvtId mup = EvtPDL::getId( std::string( "mu+" ) );
static EvtId mum = EvtPDL::getId( std::string( "mu-" ) );
static EvtId pip = EvtPDL::getId( std::string( "pi+" ) );
static EvtId pim = EvtPDL::getId( std::string( "pi-" ) );
static EvtId pi0 = EvtPDL::getId( std::string( "pi0" ) );
static EvtId pr = EvtPDL::getId( std::string( "p+" ) );
static EvtId apr = EvtPDL::getId( std::string( "anti-p-" ) );
static EvtId ne = EvtPDL::getId( std::string( "n0" ) );
static EvtId ane = EvtPDL::getId( std::string( "anti-n0" ) );
do {
EvtId type = p->getId();
if ( type == ep )
fs.push_back( std::string( "e+" ) );
if ( type == em )
fs.push_back( std::string( "e-" ) );
if ( type == mup )
fs.push_back( std::string( "mu+" ) );
if ( type == mum )
fs.push_back( std::string( "mu-" ) );
if ( type == kp )
fs.push_back( std::string( "K+" ) );
if ( type == km )
fs.push_back( std::string( "K-" ) );
if ( type == pip )
fs.push_back( std::string( "pi+" ) );
if ( type == pim )
fs.push_back( std::string( "pi-" ) );
if ( type == pi0 )
fs.push_back( std::string( "pi0" ) );
if ( type == pr )
fs.push_back( std::string( "p+" ) );
if ( type == apr )
fs.push_back( std::string( "anti-p-" ) );
if ( type == ne )
fs.push_back( std::string( "n0" ) );
if ( type == ane )
fs.push_back( std::string( "anti-n0" ) );
p = p->nextIter();
} while ( p != nullptr );
return fs;
}
void runTrackMult( int nevent, EvtGen& myGenerator )
{
TFile* file = new TFile( "trackmult.root", "RECREATE" );
TH1F* trackAll = new TH1F( "trackAll", "trackAll", 12, 1.0, 25.0 );
TH1F* trackNoSL = new TH1F( "trackNoSL", "trackNoSL", 12, 1.0, 25.0 );
TH1F* track1SL = new TH1F( "track1SL", "track1SL", 12, 1.0, 25.0 );
TH1F* track2SL = new TH1F( "track2SL", "track2SL", 12, 1.0, 25.0 );
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
static EvtId B0B = EvtPDL::getId( std::string( "anti-B0" ) );
static EvtId BP = EvtPDL::getId( std::string( "B+" ) );
static EvtId BM = EvtPDL::getId( std::string( "B-" ) );
//look for these tracks in generic events
static EvtId ep = EvtPDL::getId( std::string( "e+" ) );
static EvtId em = EvtPDL::getId( std::string( "e-" ) );
static EvtId mup = EvtPDL::getId( std::string( "mu+" ) );
static EvtId mum = EvtPDL::getId( std::string( "mu-" ) );
static EvtId pip = EvtPDL::getId( std::string( "pi+" ) );
static EvtId pim = EvtPDL::getId( std::string( "pi-" ) );
static EvtId kp = EvtPDL::getId( std::string( "K+" ) );
static EvtId km = EvtPDL::getId( std::string( "K-" ) );
static EvtId pp = EvtPDL::getId( std::string( "p+" ) );
static EvtId pm = EvtPDL::getId( std::string( "anti-p-" ) );
static EvtIdSet theTracks{ ep, em, mup, mum, pip, pim, kp, km, pp, pm };
static EvtIdSet theLeptons{ ep, em, mup, mum };
static EvtIdSet theBs{ B0, B0B, BP, BM };
int count = 1;
EvtParticle* p;
myGenerator.readUDecay( "exampleFiles/GENERIC.DEC" );
int totTracks = 0;
int totTracksNoSL = 0;
int totTracks1SL = 0;
int totTracks2SL = 0;
int totNoSL = 0;
int tot1SL = 0;
int tot2SL = 0;
do {
int evTracks = 0;
if ( count == 1000 * ( count / 1000 ) ) {
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << count << std::endl;
//EvtGenReport(EVTGEN_INFO,"EvtGen") << HepRandom::getTheSeed()<setVectorSpinDensity();
myGenerator.generateDecay( root_part );
p = root_part;
int howManySL = 0;
do {
if ( theTracks.contains( p->getId() ) ) {
totTracks += 1;
evTracks += 1;
}
if ( theLeptons.contains( p->getId() ) ) {
if ( p->getParent() ) {
if ( theBs.contains( p->getParent()->getId() ) )
howManySL += 1;
}
}
p = p->nextIter( root_part );
} while ( p != nullptr );
//Now need to figure out which histogram to book
trackAll->Fill( evTracks );
if ( howManySL == 0 ) {
trackNoSL->Fill( evTracks );
totNoSL += 1;
totTracksNoSL += evTracks;
}
if ( howManySL == 1 ) {
track1SL->Fill( evTracks );
tot1SL += 1;
totTracks1SL += evTracks;
}
if ( howManySL == 2 ) {
track2SL->Fill( evTracks );
tot2SL += 1;
totTracks2SL += evTracks;
}
root_part->deleteTree();
} while ( count++ < nevent );
double aveMulti = float( totTracks ) / float( nevent );
double aveMultiNoSL = float( totTracksNoSL ) / float( totNoSL );
double aveMulti1SL = float( totTracks1SL ) / float( tot1SL );
double aveMulti2SL = float( totTracks2SL ) / float( tot2SL );
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Your average multiplicity=" << aveMulti << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Your average multiplicity for no B->semileptonic events="
<< aveMultiNoSL << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Your average multiplicity for 1 B->semileptonic events="
<< aveMulti1SL << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Your average multiplicity for 2 B->semileptonic events="
<< aveMulti2SL << std::endl;
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runGeneric( int neventOrig, EvtGen& myGenerator, std::string listfile )
{
int nevent = abs( neventOrig );
//Parse the table of particles to find..
TFile* file = new TFile( "generic.root", "RECREATE" );
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId VPHO = EvtPDL::getId( std::string( "vpho" ) );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
static EvtId B0B = EvtPDL::getId( std::string( "anti-B0" ) );
static EvtId BP = EvtPDL::getId( std::string( "B+" ) );
static EvtId BM = EvtPDL::getId( std::string( "B-" ) );
static EvtIdSet theBs{ B0B, B0, BP, BM };
static EvtIdSet theB0B{ B0B };
static EvtIdSet theB0{ B0 };
static EvtIdSet theBP{ BP };
static EvtIdSet theBM{ BM };
static EvtId D0 = EvtPDL::getId( std::string( "D0" ) );
static EvtId D0B = EvtPDL::getId( std::string( "anti-D0" ) );
static EvtId DP = EvtPDL::getId( std::string( "D+" ) );
static EvtId DM = EvtPDL::getId( std::string( "D-" ) );
static EvtIdSet theDs{ D0B, D0, DP, DM };
static EvtIdSet theD0B{ D0B };
static EvtIdSet theD0{ D0 };
static EvtIdSet theDP{ DP };
static EvtIdSet theDM{ DM };
int count;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/GENERIC.DEC" );
myGenerator.readUDecay( udecay_name );
if ( listfile != "" ) {
EvtParser parser;
if ( parser.read( listfile ) != 0 ) {
EvtGenReport( EVTGEN_ERROR, "EvtGen" )
<< "Will terminate." << std::endl;
exit( -1 );
}
std::vector histo1( parser.getNToken() );
std::vector histo2( parser.getNToken() );
std::vector massHisto( parser.getNToken() );
int ik;
std::string tk, tkname;
for ( ik = 0; ik < ( parser.getNToken() / 2 ); ik++ ) {
tk = parser.getToken( 2 * ik );
tkname = parser.getToken( 1 + 2 * ik );
histo1[ik] = new TH1F( tkname.c_str(), tkname.c_str(), 30, 0.0, 3.0 );
char* directName;
directName = new char[( strlen( tkname.c_str() ) + 8 )];
directName = strcpy( directName, tkname.c_str() );
directName = strcat( directName, "Direct" );
histo2[ik] = new TH1F( directName, directName, 30, 0.0, 3.0 );
delete[] directName;
char* massName;
massName = new char[( strlen( tkname.c_str() ) + 4 )];
massName = strcpy( massName, tkname.c_str() );
massName = strcat( massName, "Mass" );
massHisto[ik] = new TH1F( massName, massName, 3000, 0.0, 5.0 );
delete[] massName;
}
count = 1;
std::vector temp( parser.getNToken() / 2, 0 );
std::vector tempB( parser.getNToken() / 2, 0 );
std::vector tempB0B( parser.getNToken() / 2, 0 );
std::vector tempB0( parser.getNToken() / 2, 0 );
std::vector tempBP( parser.getNToken() / 2, 0 );
std::vector tempBM( parser.getNToken() / 2, 0 );
std::vector tempD( parser.getNToken() / 2, 0 );
std::vector tempD0B( parser.getNToken() / 2, 0 );
std::vector tempD0( parser.getNToken() / 2, 0 );
std::vector tempDP( parser.getNToken() / 2, 0 );
std::vector tempDM( parser.getNToken() / 2, 0 );
do {
//EvtGenReport(EVTGEN_INFO,"EvtGen") << "new event\n";
if ( count == 1000 * ( count / 1000 ) ) {
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << count << std::endl;
//EvtGenReport(EVTGEN_INFO,"EvtGen") << HepRandom::getTheSeed()< 0 ) {
root_part = EvtParticleFactory::particleFactory( UPS4, p_init );
} else {
root_part = EvtParticleFactory::particleFactory( VPHO, p_init );
}
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
//EvtStdHep stdhep;
//stdhep.init();
//root_part->makeStdHep(stdhep);
//EvtGenReport(EVTGEN_INFO,"EvtGen") <printTree();
root_part->deleteTree();
} while ( count++ < nevent );
int itok;
std::string token;
for ( itok = 0; itok < ( parser.getNToken() / 2 ); itok++ ) {
token = parser.getToken( 2 * itok );
float br = 0.5 * float( temp[itok] ) / float( nevent );
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Found " << temp[itok] << " " << token.c_str() << " in "
<< nevent << " events. Average number of " << token.c_str()
<< " per B meson=" << br << std::endl;
br = 0.5 * float( tempB[itok] ) / float( nevent );
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Found " << tempB[itok] << " " << token.c_str()
<< " produced directly in decays of B mesons avg. br.fr.=" << br
<< std::endl;
br = 2.0 * float( tempB0[itok] ) / float( nevent );
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Found " << tempB0[itok] << " " << token.c_str()
<< " in decay tree of B0, br.fr.=" << br << std::endl;
br = 2.0 * float( tempB0B[itok] ) / float( nevent );
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Found " << tempB0B[itok] << " " << token.c_str()
<< " in decay tree of anti-B0, br.fr.=" << br << std::endl;
br = 2.0 * float( tempBP[itok] ) / float( nevent );
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Found " << tempBP[itok] << " " << token.c_str()
<< " in decay tree of B+, br.fr.=" << br << std::endl;
br = 2.0 * float( tempBM[itok] ) / float( nevent );
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Found " << tempBM[itok] << " " << token.c_str()
<< " in decay tree of B-, br.fr.=" << br << std::endl;
// br=0.5*float(tempD[itok])/float(numd0+numd0b+numdm+numdp);
// EvtGenReport(EVTGEN_INFO,"EvtGen") << "Found "< 0 ) {
root_part = EvtParticleFactory::particleFactory( UPS4, p_init );
} else {
root_part = EvtParticleFactory::particleFactory( VPHO, p_init );
}
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
root_part->deleteTree();
} while ( count++ < nevent );
}
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runKstarnunu( int nevent, EvtGen& myGenerator )
{
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
//static EvtId B0B=EvtPDL::getId(std::string("anti-B0"));
TFile* file = new TFile( "kstarnunu.root", "RECREATE" );
TH1F* q2 = new TH1F( "h1", "q2", 50, 0.0, 25.0 );
TH1F* enu = new TH1F( "h2", "Neutrino energy", 50, 0.0, 5.0 );
TH1F* x = new TH1F( "h3", "Total neutrino energy/B mass", 50, 0.5, 0.9 );
int count;
EvtVector4R kstar, nu, nub;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/KSTARNUNU.DEC" );
//EvtGen myGenerator(decay_name,pdttable_name,myRandomEngine);
myGenerator.readUDecay( udecay_name );
count = 1;
do {
EvtVector4R p_init( EvtPDL::getMass( B0 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( B0, p_init );
root_part->setDiagonalSpinDensity();
myGenerator.generateDecay( root_part );
kstar = root_part->getDaug( 0 )->getP4Lab();
nu = root_part->getDaug( 1 )->getP4Lab();
nub = root_part->getDaug( 2 )->getP4Lab();
q2->Fill( ( nu + nub ).mass2() );
enu->Fill( nu.get( 0 ) );
x->Fill( ( nu.get( 0 ) + nub.get( 0 ) ) / root_part->mass() );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runBsmix( int nevent, EvtGen& myGenerator )
{
static EvtId BS0 = EvtPDL::getId( std::string( "B_s0" ) );
static EvtId BSB = EvtPDL::getId( std::string( "anti-B_s0" ) );
TFile* file = new TFile( "bsmix.root", "RECREATE" );
TH1F* tmix = new TH1F( "h1", "tmix (mm)", 100, 0.0, 5.0 );
TH1F* tnomix = new TH1F( "h2", "tnomix (mm)", 100, 0.0, 5.0 );
int count;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/BSMIX.DEC" );
//EvtGen myGenerator(decay_name,pdttable_name,myRandomEngine);
myGenerator.readUDecay( udecay_name );
count = 1;
do {
EvtVector4R p_init( EvtPDL::getMass( BS0 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( BS0,
p_init );
root_part->setDiagonalSpinDensity();
myGenerator.generateDecay( root_part );
double t = root_part->getLifetime();
int mix = 0;
if ( root_part->getNDaug() == 1 ) {
if ( root_part->getDaug( 0 )->getId() == BSB ) {
mix = 1;
}
}
if ( mix == 0 )
tnomix->Fill( t );
if ( mix == 1 )
tmix->Fill( t );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runSemic( int nevent, EvtGen& myGenerator )
{
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId EP = EvtPDL::getId( std::string( "e+" ) );
static EvtId EM = EvtPDL::getId( std::string( "e-" ) );
static EvtId DST0 = EvtPDL::getId( std::string( "D*0" ) );
static EvtId DSTB = EvtPDL::getId( std::string( "anti-D*0" ) );
static EvtId DSTP = EvtPDL::getId( std::string( "D*+" ) );
static EvtId DSTM = EvtPDL::getId( std::string( "D*-" ) );
static EvtId D0 = EvtPDL::getId( std::string( "D0" ) );
static EvtId D0B = EvtPDL::getId( std::string( "anti-D0" ) );
static EvtId DP = EvtPDL::getId( std::string( "D+" ) );
static EvtId DM = EvtPDL::getId( std::string( "D-" ) );
static EvtId D1P1P = EvtPDL::getId( std::string( "D_1+" ) );
static EvtId D1P1N = EvtPDL::getId( std::string( "D_1-" ) );
static EvtId D1P10 = EvtPDL::getId( std::string( "D_10" ) );
static EvtId D1P1B = EvtPDL::getId( std::string( "anti-D_10" ) );
static EvtId D3P2P = EvtPDL::getId( std::string( "D_2*+" ) );
static EvtId D3P2N = EvtPDL::getId( std::string( "D_2*-" ) );
static EvtId D3P20 = EvtPDL::getId( std::string( "D_2*0" ) );
static EvtId D3P2B = EvtPDL::getId( std::string( "anti-D_2*0" ) );
static EvtId D3P1P = EvtPDL::getId( std::string( "D'_1+" ) );
static EvtId D3P1N = EvtPDL::getId( std::string( "D'_1-" ) );
static EvtId D3P10 = EvtPDL::getId( std::string( "D'_10" ) );
static EvtId D3P1B = EvtPDL::getId( std::string( "anti-D'_10" ) );
static EvtId D3P0P = EvtPDL::getId( std::string( "D_0*+" ) );
static EvtId D3P0N = EvtPDL::getId( std::string( "D_0*-" ) );
static EvtId D3P00 = EvtPDL::getId( std::string( "D_0*0" ) );
static EvtId D3P0B = EvtPDL::getId( std::string( "anti-D_0*0" ) );
static EvtId D23S1P = EvtPDL::getId( std::string( "D*(2S)+" ) );
static EvtId D23S1N = EvtPDL::getId( std::string( "D*(2S)-" ) );
static EvtId D23S10 = EvtPDL::getId( std::string( "D*(2S)0" ) );
static EvtId D23S1B = EvtPDL::getId( std::string( "anti-D*(2S)0" ) );
static EvtIdSet radExitDstar{ D23S1P, D23S1N, D23S10, D23S1B };
TFile* file = new TFile( "semic.root", "RECREATE" );
TH1F* Dpe_q2 = new TH1F( "h11", "q2 for B0B ->D+ e- nu", 50, 0.0, 12.0 );
TH1F* Dpe_elep = new TH1F( "h12", "Elep for B0B ->D+ e- nu", 50, 0.0, 2.5 );
TH1F* Dme_q2 = new TH1F( "h13", "q2 for B0 ->D- e+ nu", 50, 0.0, 12.0 );
TH1F* Dme_elep = new TH1F( "h14", "Elep for B0 ->D- e+ nu", 50, 0.0, 2.5 );
TH1F* D0e_q2 = new TH1F( "h15", "q2 for B- ->D0 e- nu", 50, 0.0, 12.0 );
TH1F* D0e_elep = new TH1F( "h16", "Elep for B- ->D0 e- nu", 50, 0.0, 2.5 );
TH1F* D0Be_q2 = new TH1F( "h17", "q2 for B+ ->D0B e+ nu", 50, 0.0, 12.0 );
TH1F* D0Be_elep = new TH1F( "h18", "Elep for B+ ->D0B e+ nu", 50, 0.0, 2.5 );
TH1F* Dstpe_q2 = new TH1F( "h21", "q2 for B0B ->D*+ e- nu", 50, 0.0, 12.0 );
TH1F* Dstpe_elep = new TH1F( "h22", "Elep for B0B ->D*+ e- nu", 50, 0.0, 2.5 );
TH1F* Dstme_q2 = new TH1F( "h23", "q2 for B0 ->D*- e+ nu", 50, 0.0, 12.0 );
TH1F* Dstme_elep = new TH1F( "h24", "Elep for B0 ->D*- e+ nu", 50, 0.0, 2.5 );
TH1F* Dst0e_q2 = new TH1F( "h25", "q2 for B- ->D*0 e- nu", 50, 0.0, 12.0 );
TH1F* Dst0e_elep = new TH1F( "h26", "Elep for B*- ->D*0 e- nu", 50, 0.0, 2.5 );
TH1F* Dst0Be_q2 = new TH1F( "h27", "q2 for B+ ->D*0B e+ nu", 50, 0.0, 12.0 );
TH1F* Dst0Be_elep = new TH1F( "h28", "Elep for B+ ->D*0B e+ nu", 50, 0.0,
2.5 );
TH1F* D1P1pe_q2 = new TH1F( "h31", "q2 for B0B ->1P1+ e- nu", 50, 0.0, 12.0 );
TH1F* D1P1pe_elep = new TH1F( "h32", "Elep for B0B ->1P1+ e- nu", 50, 0.0,
2.5 );
TH1F* D1P1me_q2 = new TH1F( "h33", "q2 for B0 ->1P1- e+ nu", 50, 0.0, 12.0 );
TH1F* D1P1me_elep = new TH1F( "h34", "Elep for B0 ->1P1- e+ nu", 50, 0.0,
2.5 );
TH1F* D1P10e_q2 = new TH1F( "h35", "q2 for B- ->1P10 e- nu", 50, 0.0, 12.0 );
TH1F* D1P10e_elep = new TH1F( "h36", "Elep for B*- ->1P10 e- nu", 50, 0.0,
2.5 );
TH1F* D1P10Be_q2 = new TH1F( "h37", "q2 for B+ ->1P1B e+ nu", 50, 0.0, 12.0 );
TH1F* D1P10Be_elep = new TH1F( "h38", "Elep for B+ ->1P1B e+ nu", 50, 0.0,
2.5 );
TH1F* D3P0pe_q2 = new TH1F( "h41", "q2 for B0B ->3P0+ e- nu", 50, 0.0, 12.0 );
TH1F* D3P0pe_elep = new TH1F( "h42", "Elep for B0B ->3P0+ e- nu", 50, 0.0,
2.5 );
TH1F* D3P0me_q2 = new TH1F( "h43", "q2 for B0 ->3P0- e+ nu", 50, 0.0, 12.0 );
TH1F* D3P0me_elep = new TH1F( "h44", "Elep for B0 ->3P0- e+ nu", 50, 0.0,
2.5 );
TH1F* D3P00e_q2 = new TH1F( "h45", "q2 for B- ->3P00 e- nu", 50, 0.0, 12.0 );
TH1F* D3P00e_elep = new TH1F( "h46", "Elep for B*- ->3P00 e- nu", 50, 0.0,
2.5 );
TH1F* D3P00Be_q2 = new TH1F( "h47", "q2 for B+ ->3P0B e+ nu", 50, 0.0, 12.0 );
TH1F* D3P00Be_elep = new TH1F( "h48", "Elep for B+ ->3P0B e+ nu", 50, 0.0,
2.5 );
TH1F* D3P1pe_q2 = new TH1F( "h51", "q2 for B0B ->3P1+ e- nu", 50, 0.0, 12.0 );
TH1F* D3P1pe_elep = new TH1F( "h52", "Elep for B0B ->3P1+ e- nu", 50, 0.0,
2.5 );
TH1F* D3P1me_q2 = new TH1F( "h53", "q2 for B0 ->3P1- e+ nu", 50, 0.0, 12.0 );
TH1F* D3P1me_elep = new TH1F( "h54", "Elep for B0 ->3P1- e+ nu", 50, 0.0,
2.5 );
TH1F* D3P10e_q2 = new TH1F( "h55", "q2 for B- ->3P10 e- nu", 50, 0.0, 12.0 );
TH1F* D3P10e_elep = new TH1F( "h56", "Elep for B*- ->3P10 e- nu", 50, 0.0,
2.5 );
TH1F* D3P10Be_q2 = new TH1F( "h57", "q2 for B+ ->3P1B e+ nu", 50, 0.0, 12.0 );
TH1F* D3P10Be_elep = new TH1F( "h58", "Elep for B+ ->3P1B e+ nu", 50, 0.0,
2.5 );
TH1F* D3P2pe_q2 = new TH1F( "h61", "q2 for B0B ->3P2+ e- nu", 50, 0.0, 12.0 );
TH1F* D3P2pe_elep = new TH1F( "h62", "Elep for B0B ->3P2+ e- nu", 50, 0.0,
2.5 );
TH1F* D3P2me_q2 = new TH1F( "h63", "q2 for B0 ->3P2- e+ nu", 50, 0.0, 12.0 );
TH1F* D3P2me_elep = new TH1F( "h64", "Elep for B0 ->3P2- e+ nu", 50, 0.0,
2.5 );
TH1F* D3P20e_q2 = new TH1F( "h65", "q2 for B- ->3P20 e- nu", 50, 0.0, 12.0 );
TH1F* D3P20e_elep = new TH1F( "h66", "Elep for B*- ->3P20 e- nu", 50, 0.0,
2.5 );
TH1F* D3P20Be_q2 = new TH1F( "h67", "q2 for B+ ->3P2B e+ nu", 50, 0.0, 12.0 );
TH1F* D3P20Be_elep = new TH1F( "h68", "Elep for B+ ->3P2B e+ nu", 50, 0.0,
2.5 );
TH1F* phiL = new TH1F( "h69", "phi", 50, -3.1416, 3.1416 );
int count;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/SEMIC.DEC" );
//EvtGen myGenerator(decay_name,pdttable_name,myRandomEngine);
myGenerator.readUDecay( udecay_name );
count = 1;
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
int i;
for ( i = 0; i < 2; i++ ) {
EvtId meson = root_part->getDaug( i )->getDaug( 0 )->getId();
EvtId lepton = root_part->getDaug( i )->getDaug( 1 )->getId();
EvtVector4R lep = root_part->getDaug( i )->getDaug( 1 )->getP4Lab();
phiL->Fill( atan2( lep.get( 1 ), lep.get( 2 ) ) );
EvtVector4R nu = root_part->getDaug( i )->getDaug( 2 )->getP4Lab();
double q2 = ( lep + nu ).mass2();
double elep = root_part->getDaug( i )->getDaug( 1 )->getP4().get( 0 );
if ( meson == DP && lepton == EM ) {
Dpe_q2->Fill( q2 );
Dpe_elep->Fill( elep );
}
if ( meson == DM && lepton == EP ) {
Dme_q2->Fill( q2 );
Dme_elep->Fill( elep );
}
if ( meson == D0 && lepton == EM ) {
D0e_q2->Fill( q2 );
D0e_elep->Fill( elep );
}
if ( meson == D0B && lepton == EP ) {
D0Be_q2->Fill( q2 );
D0Be_elep->Fill( elep );
}
if ( meson == DSTP && lepton == EM ) {
Dstpe_q2->Fill( q2 );
Dstpe_elep->Fill( elep );
}
if ( meson == DSTM && lepton == EP ) {
Dstme_q2->Fill( q2 );
Dstme_elep->Fill( elep );
}
if ( meson == DST0 && lepton == EM ) {
Dst0e_q2->Fill( q2 );
Dst0e_elep->Fill( elep );
}
if ( meson == DSTB && lepton == EP ) {
Dst0Be_q2->Fill( q2 );
Dst0Be_elep->Fill( elep );
}
if ( meson == D1P1P && lepton == EM ) {
D1P1pe_q2->Fill( q2 );
D1P1pe_elep->Fill( elep );
}
if ( meson == D1P1N && lepton == EP ) {
D1P1me_q2->Fill( q2 );
D1P1me_elep->Fill( elep );
}
if ( meson == D1P10 && lepton == EM ) {
D1P10e_q2->Fill( q2 );
D1P10e_elep->Fill( elep );
}
if ( meson == D1P1B && lepton == EP ) {
D1P10Be_q2->Fill( q2 );
D1P10Be_elep->Fill( elep );
}
if ( meson == D3P0P && lepton == EM ) {
D3P0pe_q2->Fill( q2 );
D3P0pe_elep->Fill( elep );
}
if ( meson == D3P0N && lepton == EP ) {
D3P0me_q2->Fill( q2 );
D3P0me_elep->Fill( elep );
}
if ( meson == D3P00 && lepton == EM ) {
D3P00e_q2->Fill( q2 );
D3P00e_elep->Fill( elep );
}
if ( meson == D3P0B && lepton == EP ) {
D3P00Be_q2->Fill( q2 );
D3P00Be_elep->Fill( elep );
}
if ( meson == D3P1P && lepton == EM ) {
D3P1pe_q2->Fill( q2 );
D3P1pe_elep->Fill( elep );
}
if ( meson == D3P1N && lepton == EP ) {
D3P1me_q2->Fill( q2 );
D3P1me_elep->Fill( elep );
}
if ( meson == D3P10 && lepton == EM ) {
D3P10e_q2->Fill( q2 );
D3P10e_elep->Fill( elep );
}
if ( meson == D3P1B && lepton == EP ) {
D3P10Be_q2->Fill( q2 );
D3P10Be_elep->Fill( elep );
}
if ( meson == D3P2P && lepton == EM ) {
D3P2pe_q2->Fill( q2 );
D3P2pe_elep->Fill( elep );
}
if ( meson == D3P2N && lepton == EP ) {
D3P2me_q2->Fill( q2 );
D3P2me_elep->Fill( elep );
}
if ( meson == D3P20 && lepton == EM ) {
D3P20e_q2->Fill( q2 );
D3P20e_elep->Fill( elep );
}
if ( meson == D3P2B && lepton == EP ) {
D3P20Be_q2->Fill( q2 );
D3P20Be_elep->Fill( elep );
}
}
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runKstarll( int nevent, EvtGen& myGenerator )
{
TFile* file = new TFile( "kstkmm.root", "RECREATE" );
TH2F* _dalitz = new TH2F( "h1", "q^2! vs Elep", 70, 0.0, 3.5, 60, 0.0, 30.0 );
TH1F* _ctl = new TH1F( "h2", "ctl", 50, -1.0, 1.0 );
TH1F* _q2 = new TH1F( "h3", "q2", 50, 0.0, 25.0 );
TH1F* _q2low = new TH1F( "h4", "q2 (low)", 50, 0.0, 1.0 );
TH1F* _q2lowlow = new TH1F( "h5", "q2 (lowlow)", 50, 0.0, 0.00001 );
TH1F* _phi = new TH1F( "h6", "phi", 50, -EvtConst::pi, EvtConst::pi );
TH1F* _chi = new TH1F( "h7", "chi", 50, 0.0, EvtConst::twoPi );
TH1F* _chictl = new TH1F( "h8", "chictl", 50, 0.0, EvtConst::twoPi );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
int count = 1;
EvtVector4R kstar, l1, l2;
EvtVector4R k, pi, b;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/KSTARLL.DEC" );
//EvtGen myGenerator(decay_name,pdttable_name,myRandomEngine);
myGenerator.readUDecay( udecay_name );
std::vector q2low( 5 );
std::vector q2high( 5 );
std::vector counts( 5 );
//kee
//int n=4;
//q2low[0]=0.0; q2high[0]=4.5;
//q2low[1]=4.5; q2high[1]=8.41;
//q2low[2]=10.24; q2high[2]=12.96;
//q2low[3]=14.06; q2high[3]=30.0;
//kmm
//int n=4;
//q2low[0]=0.0; q2high[0]=4.5;
//q2low[1]=4.5; q2high[1]=9.0;
//q2low[2]=10.24; q2high[2]=12.96;
//q2low[3]=14.06; q2high[3]=30.0;
//K*ee
int n = 5;
q2low[0] = 0.0;
q2high[0] = 0.1;
q2low[1] = 0.1;
q2high[1] = 4.5;
q2low[2] = 4.5;
q2high[2] = 8.41;
q2low[3] = 10.24;
q2high[3] = 12.96;
q2low[4] = 14.06;
q2high[4] = 30.0;
//K*mm
//int n=5;
//q2low[0]=0.0; q2high[0]=0.1;
//q2low[1]=0.1; q2high[1]=4.5;
//q2low[2]=4.5; q2high[2]=9.0;
//q2low[3]=10.24; q2high[3]=12.96;
//q2low[4]=14.06; q2high[4]=30.0;
do {
EvtVector4R p_init( EvtPDL::getMass( B0 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( B0, p_init );
root_part->setDiagonalSpinDensity();
myGenerator.generateDecay( root_part );
// root_part->printTree();
//root_part->getDaug(0)->printTree();
//root_part->getDaug(1)->printTree();
//root_part->getDaug(2)->printTree();
kstar = root_part->getDaug( 0 )->getP4Lab();
l1 = root_part->getDaug( 1 )->getP4Lab();
l2 = root_part->getDaug( 2 )->getP4Lab();
b = root_part->getP4();
k = root_part->getDaug( 0 )->getDaug( 0 )->getP4Lab();
pi = root_part->getDaug( 0 )->getDaug( 1 )->getP4Lab();
double qsq = ( l1 + l2 ).mass2();
for ( int j = 0; j < n; j++ ) {
if ( qsq > q2low[j] && qsq < q2high[j] )
counts[j]++;
}
_q2->Fill( ( l1 + l2 ).mass2() );
_q2low->Fill( ( l1 + l2 ).mass2() );
_q2lowlow->Fill( ( l1 + l2 ).mass2() );
_ctl->Fill( EvtDecayAngle( ( l1 + l2 + kstar ), ( l1 + l2 ), l1 ) );
_dalitz->Fill( l1.get( 0 ), ( l1 + l2 ).mass2(), 1.0 );
root_part->deleteTree();
_phi->Fill( atan2( l1.get( 1 ), l1.get( 2 ) ) );
_chi->Fill( EvtDecayAngleChi( b, k, pi, l1, l2 ) );
if ( EvtDecayAngle( ( l1 + l2 + kstar ), ( l1 + l2 ), l1 ) > 0 ) {
_chictl->Fill( EvtDecayAngleChi( b, k, pi, l1, l2 ) );
}
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "count:" << count << " " << ( l1 + l2 ).mass2() << std::endl;
} while ( count++ < nevent );
for ( int j = 0; j < n; j++ ) {
std::cout << "[" << q2low[j] << ".." << q2high[j] << "]=" << counts[j]
<< std::endl;
}
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runKll( int nevent, EvtGen& myGenerator )
{
TFile* file = new TFile( "ksem.root", "RECREATE" );
TH2F* _dalitz = new TH2F( "h1", "q^2! vs Elep", 70, 0.0, 3.5, 60, 0.0, 30.0 );
TH1F* _ctl = new TH1F( "h2", "ctl", 50, -1.0, 1.0 );
TH1F* _q2 = new TH1F( "h3", "q2", 50, 0.0, 25.0 );
TH1F* _q2low = new TH1F( "h4", "q2 (low)", 50, 0.0, 1.0 );
TH1F* _q2lowlow = new TH1F( "h5", "q2 (lowlow)", 50, 0.0, 0.00001 );
TH1F* _phi = new TH1F( "h6", "phi", 50, -EvtConst::pi, EvtConst::pi );
// TH1F* _chi = new TH1F("h7","chi",50,0.0,EvtConst::twoPi);
// TH1F* _chictl = new TH1F("h8","chictl",50,0.0,EvtConst::twoPi);
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
int count = 1;
EvtVector4R k, l1, l2;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/KLL.DEC" );
//EvtGen myGenerator(decay_name,pdttable_name,myRandomEngine);
myGenerator.readUDecay( udecay_name );
std::vector q2low( 5 );
std::vector q2high( 5 );
std::vector counts( 5 );
//kee
// int n=4;
//q2low[0]=0.0; q2high[0]=4.5;
//q2low[1]=4.5; q2high[1]=8.41;
//q2low[2]=10.24; q2high[2]=12.96;
//q2low[3]=14.06; q2high[3]=30.0;
//kmm
int n = 4;
q2low[0] = 0.0;
q2high[0] = 4.5;
q2low[1] = 4.5;
q2high[1] = 9.0;
q2low[2] = 10.24;
q2high[2] = 12.96;
q2low[3] = 14.06;
q2high[3] = 30.0;
//K*ee
//int n=5;
//q2low[0]=0.0; q2high[0]=0.1;
//q2low[1]=0.1; q2high[1]=4.5;
//q2low[2]=4.5; q2high[2]=8.41;
//q2low[3]=10.24; q2high[3]=12.96;
//q2low[4]=14.06; q2high[4]=30.0;
//K*mm
//int n=5;
//q2low[0]=0.0; q2high[0]=0.1;
//q2low[1]=0.1; q2high[1]=4.5;
//q2low[2]=4.5; q2high[2]=9.0;
//q2low[3]=10.24; q2high[3]=12.96;
//q2low[4]=14.06; q2high[4]=30.0;
do {
EvtVector4R p_init( EvtPDL::getMass( B0 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( B0, p_init );
root_part->setDiagonalSpinDensity();
myGenerator.generateDecay( root_part );
// root_part->printTree();
//root_part->getDaug(0)->printTree();
//root_part->getDaug(1)->printTree();
//root_part->getDaug(2)->printTree();
k = root_part->getDaug( 0 )->getP4Lab();
l1 = root_part->getDaug( 1 )->getP4Lab();
l2 = root_part->getDaug( 2 )->getP4Lab();
//b=root_part->getP4();
// k=root_part->getDaug(0)->getDaug(0)->getP4Lab();
// pi=root_part->getDaug(0)->getDaug(1)->getP4Lab();
double qsq = ( l1 + l2 ).mass2();
for ( int j = 0; j < n; j++ ) {
if ( qsq > q2low[j] && qsq < q2high[j] )
counts[j]++;
}
_q2->Fill( ( l1 + l2 ).mass2() );
_q2low->Fill( ( l1 + l2 ).mass2() );
_q2lowlow->Fill( ( l1 + l2 ).mass2() );
_ctl->Fill( EvtDecayAngle( ( l1 + l2 + k ), ( l1 + l2 ), l1 ) );
_dalitz->Fill( l1.get( 0 ), ( l1 + l2 ).mass2(), 1.0 );
root_part->deleteTree();
_phi->Fill( atan2( l1.get( 1 ), l1.get( 2 ) ) );
//_chi->Fill(EvtDecayAngleChi(b,k,pi,l1,l2));
//if (EvtDecayAngle((l1+l2+kstar),(l1+l2),l1)>0){
// _chictl->Fill(EvtDecayAngleChi(b,k,pi,l1,l2));
// }
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "count:" << count << " " << ( l1 + l2 ).mass2() << std::endl;
} while ( count++ < nevent );
for ( int j = 0; j < n; j++ ) {
std::cout << "[" << q2low[j] << ".." << q2high[j] << "]=" << counts[j]
<< std::endl;
}
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runHll( int nevent, EvtGen& myGenerator, char* mode )
{
TString modename = mode;
TString filename;
filename = modename;
filename = filename + "_nnlo.root";
TFile* file = new TFile( filename, "RECREATE" );
TString decname;
decname += modename;
decname.ToUpper();
decname = "exampleFiles/" + decname + ".DEC";
char udecay_name[100];
strcpy( udecay_name, decname );
TH2F* _dalitz = new TH2F( "h1", "q^2! vs Elep", 70, 0.0, 3.5, 60, 0.0, 30.0 );
TH1F* _ctl = new TH1F( "h2", "ctl", 50, -1.0, 1.0 );
TH1F* _q2 = new TH1F( "h3", "q2", 50, 0.0, 25.0 );
TH1F* _q2low = new TH1F( "h4", "q2 (low)", 50, 0.0, 1.0 );
TH1F* _q2lowlow = new TH1F( "h5", "q2 (lowlow)", 50, 0.0, 0.00001 );
TH1F* _phi = new TH1F( "h6", "phi", 50, -EvtConst::pi, EvtConst::pi );
TH1F* _chi = new TH1F( "h7", "chi", 50, 0.0, EvtConst::twoPi );
TH1F* _chictl = new TH1F( "h8", "chictl", 50, 0.0, EvtConst::twoPi );
EvtId B;
if ( modename == "kee" || modename == "kmm" || modename == "kstksee" ||
modename == "kstksmm" || modename == "piee" || modename == "pimm" ||
modename == "rhoee" || modename == "rhomm" ) {
B = EvtPDL::getId( std::string( "B+" ) );
} else {
B = EvtPDL::getId( std::string( "B0" ) );
}
int count = 1;
EvtVector4R b, h, l1, l2;
EvtVector4R hdaug1, hdaug2;
myGenerator.readUDecay( udecay_name );
std::vector q2low( 7 );
std::vector q2high( 7 );
std::vector counts( 7 );
int n( 0 );
if ( modename == "kee" || modename == "ksee" || modename == "piee" ||
modename == "pi0ee" || modename == "etaee" || modename == "etapee" ) {
//kee
n = 6;
q2low[0] = 0.0;
q2high[0] = 4.5;
q2low[1] = 4.5;
q2high[1] = 8.41;
q2low[2] = 8.41;
q2high[2] = 10.24;
q2low[3] = 10.24;
q2high[3] = 12.96;
q2low[4] = 12.96;
q2high[4] = 14.06;
q2low[5] = 14.06;
q2high[5] = 30.0;
} else if ( modename == "kmm" || modename == "ksmm" || modename == "pimm" ||
modename == "pi0mm" || modename == "etamm" ||
modename == "etapmm" ) {
//kmm
n = 6;
q2low[0] = 0.0;
q2high[0] = 4.5;
q2low[1] = 4.5;
q2high[1] = 9.0;
q2low[2] = 9.0;
q2high[2] = 10.24;
q2low[3] = 10.24;
q2high[3] = 12.96;
q2low[4] = 12.96;
q2high[4] = 14.06;
q2low[5] = 14.06;
q2high[5] = 30.0;
} else if ( modename == "kstkee" || modename == "kstksee" ||
modename == "rhoee" || modename == "rho0ee" ||
modename == "omegaee" ) {
//K*ee
n = 7;
q2low[0] = 0.0;
q2high[0] = 0.1;
q2low[1] = 0.1;
q2high[1] = 4.5;
q2low[2] = 4.5;
q2high[2] = 8.41;
q2low[3] = 8.41;
q2high[3] = 10.24;
q2low[4] = 10.24;
q2high[4] = 12.96;
q2low[5] = 12.96;
q2high[5] = 14.06;
q2low[6] = 14.06;
q2high[6] = 30.0;
} else if ( modename == "kstkmm" || modename == "kstksmm" ||
modename == "rhomm" || modename == "rho0mm" ||
modename == "omegamm" ) {
//K*mm
n = 7;
q2low[0] = 0.0;
q2high[0] = 0.1;
q2low[1] = 0.1;
q2high[1] = 4.5;
q2low[2] = 4.5;
q2high[2] = 9.0;
q2low[3] = 9.0;
q2high[3] = 10.24;
q2low[4] = 10.24;
q2high[4] = 12.96;
q2low[5] = 12.96;
q2high[5] = 14.06;
q2low[6] = 14.06;
q2high[6] = 30.0;
}
float q2binlow[n + 1];
for ( int i = 0; i < n; i++ ) {
q2binlow[i] = q2low[i];
}
q2binlow[n] = 30.0;
TH1F* _q2var = new TH1F( "h9", "q2var", n, q2binlow );
do {
EvtVector4R p_init( EvtPDL::getMass( B ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( B, p_init );
root_part->setDiagonalSpinDensity();
myGenerator.generateDecay( root_part );
// root_part->printTree();
//root_part->getDaug(0)->printTree();
//root_part->getDaug(1)->printTree();
//root_part->getDaug(2)->printTree();
h = root_part->getDaug( 0 )->getP4Lab();
l1 = root_part->getDaug( 1 )->getP4Lab();
l2 = root_part->getDaug( 2 )->getP4Lab();
double qsq = ( l1 + l2 ).mass2();
for ( int j = 0; j < n; j++ ) {
if ( qsq > q2low[j] && qsq < q2high[j] )
counts[j]++;
}
_q2->Fill( ( l1 + l2 ).mass2() );
_q2var->Fill( ( l1 + l2 ).mass2() );
_q2low->Fill( ( l1 + l2 ).mass2() );
_q2lowlow->Fill( ( l1 + l2 ).mass2() );
_ctl->Fill( EvtDecayAngle( ( l1 + l2 + h ), ( l1 + l2 ), l1 ) );
_dalitz->Fill( l1.get( 0 ), ( l1 + l2 ).mass2(), 1.0 );
_phi->Fill( atan2( l1.get( 1 ), l1.get( 2 ) ) );
if ( modename == "kstkee" || modename == "kstkmm" ||
modename == "kstksee" || modename == "kstksmm" ||
modename == "rhoee" || modename == "rhomm" ||
modename == "rho0ee" || modename == "rho0mm" ) {
b = root_part->getP4();
hdaug1 = root_part->getDaug( 0 )->getDaug( 0 )->getP4Lab();
hdaug2 = root_part->getDaug( 0 )->getDaug( 1 )->getP4Lab();
_chi->Fill( EvtDecayAngleChi( b, hdaug1, hdaug2, l1, l2 ) );
if ( EvtDecayAngle( ( l1 + l2 + h ), ( l1 + l2 ), l1 ) > 0 ) {
_chictl->Fill( EvtDecayAngleChi( b, hdaug1, hdaug2, l1, l2 ) );
}
}
if ( count % 1000 == 0 ) {
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "count:" << count << " " << ( l1 + l2 ).mass2() << std::endl;
}
root_part->deleteTree();
} while ( count++ < nevent );
for ( int j = 0; j < n; j++ ) {
std::cout << "[" << q2low[j] << ".." << q2high[j] << "] = " << counts[j]
<< std::endl;
}
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runVectorIsr( int nevent, EvtGen& myGenerator )
{
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId VPHO = EvtPDL::getId( std::string( "vpho" ) );
TFile* file = new TFile( "vectorisr.root", "RECREATE" );
TH1F* cosv = new TH1F( "h1", "Cos vector in e+e- frame", 50, -1.0, 1.0 );
TH1F* cosd1 = new TH1F( "h2", "Cos helang 1st dau of vector", 50, -1.0, 1.0 );
TH1F* cosd1d1 = new TH1F( "h3", "Cos helang 1st dau of 1st dau", 50, -1.0,
1.0 );
TH1F* cosd2d1 = new TH1F( "h4", "Cos helang 1st dau of 2nd dau", 50, -1.0,
1.0 );
TH2F* d1vsd1d1 = new TH2F( "h5", "Cos helangs d1 vs d1d1", 20, -1.0, 1.0,
20, -1.0, 1.0 );
TH2F* d2vsd2d1 = new TH2F( "h6", "Cos helangs d2 vs d2d1", 20, -1.0, 1.0,
20, -1.0, 1.0 );
TH2F* d1d1vsd2d1 = new TH2F( "h7", "Cos helangs d1d1 vs d2d1", 20, -1.0,
1.0, 20, -1.0, 1.0 );
TH1F* chidd = new TH1F( "h8", "Chi - angle between decay planes", 60, 0.,
360.0 );
TH2F* chi12vsd1d1 = new TH2F( "h9", "Chi 1-2 vs d1d1", 30, 0., 360.0, 20,
-1.0, 1.0 );
TH2F* chi12vsd2d1 = new TH2F( "h10", "Chi 1-2 vs d2d1", 30, 0., 360.0, 20,
-1.0, 1.0 );
TH2F* chi21vsd1d1 = new TH2F( "h11", "Chi 2-1 vs d1d1", 30, 0., 360.0, 20,
-1.0, 1.0 );
TH2F* chi21vsd2d1 = new TH2F( "h12", "Chi 2-1 vs d2d1", 30, 0., 360.0, 20,
-1.0, 1.0 );
int count = 1;
char udecay_name[100];
EvtVector4R cm, v, d1, d2, d1d1, d1d2, d2d1, d2d2;
strcpy( udecay_name, "exampleFiles/VECTORISR.DEC" );
myGenerator.readUDecay( udecay_name );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( VPHO,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
cm = root_part->getP4Lab();
v = root_part->getDaug( 0 )->getP4Lab();
d1 = root_part->getDaug( 0 )->getDaug( 0 )->getP4Lab();
d2 = root_part->getDaug( 0 )->getDaug( 1 )->getP4Lab();
cosv->Fill( v.get( 3 ) / v.d3mag() );
double cosdecayd1 = EvtDecayAngle( cm, v, d1 );
double cosdecayd2 = EvtDecayAngle( cm, v, d2 );
cosd1->Fill( cosdecayd1 );
// now get daughters of the daughters
//
// first daughter of first daughter
if ( root_part->getDaug( 0 )->getDaug( 0 )->getNDaug() >= 2 ) {
d1d1 = root_part->getDaug( 0 )->getDaug( 0 )->getDaug( 0 )->getP4Lab();
double cosdecayd1d1 = EvtDecayAngle( v, d1, d1d1 );
cosd1d1->Fill( cosdecayd1d1 );
d1vsd1d1->Fill( cosdecayd1, cosdecayd1d1, 1.0 );
}
// first daughter of second daughter
if ( root_part->getDaug( 0 )->getDaug( 1 )->getNDaug() >= 2 ) {
d2d1 = root_part->getDaug( 0 )->getDaug( 1 )->getDaug( 0 )->getP4Lab();
double cosdecayd2d1 = EvtDecayAngle( v, d2, d2d1 );
cosd2d1->Fill( cosdecayd2d1 );
d2vsd2d1->Fill( cosdecayd2, cosdecayd2d1, 1.0 );
if ( root_part->getDaug( 0 )->getDaug( 0 )->getNDaug() >= 2 ) {
d1d1 =
root_part->getDaug( 0 )->getDaug( 0 )->getDaug( 0 )->getP4Lab();
double cosdecayd1d1 = EvtDecayAngle( v, d1, d1d1 );
d1d1vsd2d1->Fill( cosdecayd1d1, cosdecayd2d1, 1.0 );
//second daughters of daughters 1 and 2
d1d2 =
root_part->getDaug( 0 )->getDaug( 0 )->getDaug( 1 )->getP4Lab();
d2d2 =
root_part->getDaug( 0 )->getDaug( 1 )->getDaug( 1 )->getP4Lab();
double chi21 = 57.29578 *
EvtDecayAngleChi( v, d2d1, d2d2, d1d1, d1d2 );
double chi12 = 57.29578 *
EvtDecayAngleChi( v, d1d1, d1d2, d2d1, d2d2 );
chidd->Fill( chi12 );
chi12vsd1d1->Fill( chi12, cosdecayd1d1, 1.0 );
chi12vsd2d1->Fill( chi12, cosdecayd2d1, 1.0 );
chi21vsd1d1->Fill( chi21, cosdecayd1d1, 1.0 );
chi21vsd2d1->Fill( chi21, cosdecayd2d1, 1.0 );
}
}
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runBsquark( int nevent, EvtGen& myGenerator )
{
static EvtId VPHO = EvtPDL::getId( std::string( "vpho" ) );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
static EvtId B0B = EvtPDL::getId( std::string( "anti-B0" ) );
TFile* file = new TFile( "bsquark.root", "RECREATE" );
TH1F* elep = new TH1F( "h1", "Elep", 50, 0.0, 1.5 );
TH1F* q2 = new TH1F( "h2", "q2", 50, 0.0, 3.0 );
TH2F* dalitz = new TH2F( "h3", "q2 vs. Elep", 50, 0.0, 1.5, 50, 0.0, 3.0 );
TH1F* elepbar = new TH1F( "h11", "Elep bar", 50, 0.0, 1.5 );
TH1F* q2bar = new TH1F( "h12", "q2 bar", 50, 0.0, 3.0 );
TH2F* dalitzbar = new TH2F( "h13", "q2 vs. Elep bar", 50, 0.0, 1.5, 50, 0.0,
3.0 );
int count = 1;
char udecay_name[100];
EvtVector4R cm, v, d1, d2, d1d1, d1d2, d2d1, d2d2;
strcpy( udecay_name, "exampleFiles/BSQUARK.DEC" );
myGenerator.readUDecay( udecay_name );
do {
EvtVector4R p_init( 10.55, 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( VPHO,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
EvtParticle* p = root_part->nextIter();
while ( p ) {
if ( p->getId() == B0 ) {
//EvtParticle *dstar=p->getDaug(0);
EvtParticle* lepton = p->getDaug( 1 );
EvtParticle* sneutrino = p->getDaug( 2 );
//EvtVector4R p4dstar=dstar->getP4();
EvtVector4R p4lepton = lepton->getP4();
EvtVector4R p4sneutrino = sneutrino->getP4();
elep->Fill( p4lepton.get( 0 ) );
q2->Fill( ( p4lepton + p4sneutrino ).mass2() );
dalitz->Fill( p4lepton.get( 0 ),
( p4lepton + p4sneutrino ).mass2(), 1.0 );
}
if ( p->getId() == B0B ) {
//EvtParticle *dstar=p->getDaug(0);
EvtParticle* lepton = p->getDaug( 1 );
EvtParticle* sneutrino = p->getDaug( 2 );
//EvtVector4R p4dstar=dstar->getP4();
EvtVector4R p4lepton = lepton->getP4();
EvtVector4R p4sneutrino = sneutrino->getP4();
elepbar->Fill( p4lepton.get( 0 ) );
q2bar->Fill( ( p4lepton + p4sneutrino ).mass2() );
dalitzbar->Fill( p4lepton.get( 0 ),
( p4lepton + p4sneutrino ).mass2(), 1.0 );
}
p = p->nextIter();
}
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runK3gamma( int nevent, EvtGen& myGenerator )
{
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
TFile* file = new TFile( "k3gamma.root", "RECREATE" );
TH1F* costheta = new TH1F( "h1", "cosTheta", 100, -1.0, 1.0 );
int count = 1;
char udecay_name[100];
EvtVector4R cm, v, d1, d2, d1d1, d1d2, d2d1, d2d2;
strcpy( udecay_name, "exampleFiles/K3GAMMA.DEC" );
myGenerator.readUDecay( udecay_name );
do {
EvtVector4R p_init( EvtPDL::getMass( B0 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( B0, p_init );
root_part->setDiagonalSpinDensity();
myGenerator.generateDecay( root_part );
EvtParticle* k3 = root_part->getDaug( 0 );
EvtParticle* k = k3->getDaug( 0 );
EvtVector4R p4b = root_part->getP4Lab();
EvtVector4R p4k3 = k3->getP4Lab();
EvtVector4R p4k = k->getP4Lab();
costheta->Fill( EvtDecayAngle( p4b, p4k3, p4k ) );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runLambda( int nevent, EvtGen& myGenerator )
{
static EvtId LAMBDA = EvtPDL::getId( std::string( "Lambda0" ) );
TFile* file = new TFile( "lambda.root", "RECREATE" );
TH1F* costheta = new TH1F( "h1", "cosTheta", 100, -1.0, 1.0 );
int count = 1;
char udecay_name[100];
EvtVector4R cm, v, d1, d2, d1d1, d1d2, d2d1, d2d2;
strcpy( udecay_name, "exampleFiles/LAMBDA.DEC" );
myGenerator.readUDecay( udecay_name );
do {
EvtVector4R p_init( EvtPDL::getMass( LAMBDA ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( LAMBDA,
p_init );
EvtSpinDensity rho;
rho.setDim( 2 );
rho.set( 0, 0, 1.0 );
rho.set( 0, 1, 0.0 );
rho.set( 1, 0, 0.0 );
rho.set( 1, 1, 0.0 );
root_part->setSpinDensityForwardHelicityBasis( rho );
myGenerator.generateDecay( root_part );
EvtParticle* p = root_part->getDaug( 0 );
//EvtVector4R p4lambda=root_part->getP4Lab();
EvtVector4R p4p = p->getP4Lab();
costheta->Fill( p4p.get( 3 ) / p4p.d3mag() );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runTauTauPiPi( int nevent, EvtGen& myGenerator )
{
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId VPHO = EvtPDL::getId( std::string( "vpho" ) );
TFile* file = new TFile( "tautaupipi.root", "RECREATE" );
TH1F* cospi1 = new TH1F( "h1", "cos theta pi1", 50, -1.0, 1.0 );
TH1F* cospi2 = new TH1F( "h2", "cos theta pi2", 50, -1.0, 1.0 );
TH1F* costheta = new TH1F( "h3", "cos theta", 50, -1.0, 1.0 );
std::ofstream outmix;
outmix.open( "tautaupipi.dat" );
int count = 1;
EvtVector4R tau1, tau2, pi1, pi2;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/TAUTAUPIPI.DEC" );
myGenerator.readUDecay( udecay_name );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( VPHO,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
tau1 = root_part->getDaug( 0 )->getP4Lab();
tau2 = root_part->getDaug( 1 )->getP4Lab();
pi1 = root_part->getDaug( 0 )->getDaug( 0 )->getP4Lab();
pi2 = root_part->getDaug( 1 )->getDaug( 0 )->getP4Lab();
cospi1->Fill( EvtDecayAngle( tau1 + tau2, tau1, pi1 ) );
cospi2->Fill( EvtDecayAngle( tau1 + tau2, tau2, pi2 ) );
costheta->Fill( tau1.get( 3 ) / tau1.d3mag() );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
outmix.close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runTauTauEE( int nevent, EvtGen& myGenerator )
{
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId VPHO = EvtPDL::getId( std::string( "vpho" ) );
TFile* file = new TFile( "tautauee.root", "RECREATE" );
TH1F* e1 = new TH1F( "h1", "e1", 55, 0.0, 5.5 );
TH1F* e2 = new TH1F( "h2", "e2", 55, 0.0, 5.5 );
TH2F* e1vse2 = new TH2F( "h3", "e1 vs e2", 55, 0.0, 5.5, 55, 0.0, 5.5 );
int count = 1;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/TAUTAUEE.DEC" );
myGenerator.readUDecay( udecay_name );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( VPHO,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
e1->Fill( root_part->getDaug( 0 )->getDaug( 0 )->getP4Lab().get( 0 ) );
e2->Fill( root_part->getDaug( 1 )->getDaug( 0 )->getP4Lab().get( 0 ) );
e1vse2->Fill( root_part->getDaug( 0 )->getDaug( 0 )->getP4Lab().get( 0 ),
root_part->getDaug( 1 )->getDaug( 0 )->getP4Lab().get( 0 ),
1.0 );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runTauTau2Pi2Pi( int nevent, EvtGen& myGenerator )
{
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId VPHO = EvtPDL::getId( std::string( "vpho" ) );
TFile* file = new TFile( "tautau2pi2pi.root", "RECREATE" );
TH1F* e1 = new TH1F( "h1", "mrho", 200, 0.0, 2.0 );
TH1F* e2 = new TH1F( "h2", "coshel", 200, -1.0, 1.0 );
int count = 1;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/TAUTAU2PI2PI.DEC" );
myGenerator.readUDecay( udecay_name );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( VPHO,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
EvtVector4R p4tau = root_part->getDaug( 0 )->getP4();
EvtVector4R p4rho = root_part->getDaug( 0 )->getDaug( 0 )->getP4() +
root_part->getDaug( 0 )->getDaug( 1 )->getP4();
EvtVector4R p4pi = root_part->getDaug( 0 )->getDaug( 0 )->getP4();
e1->Fill( p4rho.mass() );
double dcostheta = EvtDecayAngle( p4tau, p4rho, p4pi );
e2->Fill( dcostheta );
p4tau = root_part->getDaug( 1 )->getP4();
p4rho = root_part->getDaug( 1 )->getDaug( 0 )->getP4() +
root_part->getDaug( 1 )->getDaug( 1 )->getP4();
p4pi = root_part->getDaug( 1 )->getDaug( 0 )->getP4();
e1->Fill( p4rho.mass() );
dcostheta = EvtDecayAngle( p4tau, p4rho, p4pi );
e2->Fill( dcostheta );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runTauTau3Pi3Pi( int nevent, EvtGen& myGenerator )
{
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId VPHO = EvtPDL::getId( std::string( "vpho" ) );
TFile* file = new TFile( "tautau3pi3pi.root", "RECREATE" );
TH1F* e1 = new TH1F( "h1", "a1", 200, 0.0, 2.0 );
int count = 1;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/TAUTAU3PI3PI.DEC" );
myGenerator.readUDecay( udecay_name );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( VPHO,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
EvtVector4R p4tau = root_part->getDaug( 0 )->getP4();
EvtVector4R p4a1 = root_part->getDaug( 0 )->getDaug( 0 )->getP4() +
root_part->getDaug( 0 )->getDaug( 1 )->getP4() +
root_part->getDaug( 0 )->getDaug( 2 )->getP4();
e1->Fill( p4a1.mass() );
p4tau = root_part->getDaug( 1 )->getP4();
p4a1 = root_part->getDaug( 1 )->getDaug( 0 )->getP4() +
root_part->getDaug( 1 )->getDaug( 1 )->getP4() +
root_part->getDaug( 1 )->getDaug( 2 )->getP4();
e1->Fill( p4a1.mass() );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runJPsiKstar( int nevent, EvtGen& myGenerator, int modeInt )
{
std::ofstream outmix;
outmix.open( "jpsikstar.dat" );
int count = 1;
char udecay_name[100];
if ( modeInt == 0 )
strcpy( udecay_name, "exampleFiles/JPSIKSTAR.DEC" );
if ( modeInt == 1 )
strcpy( udecay_name, "exampleFiles/JPSIKSTAR1.DEC" );
if ( modeInt == 2 )
strcpy( udecay_name, "exampleFiles/JPSIKSTAR2.DEC" );
if ( modeInt == 3 )
strcpy( udecay_name, "exampleFiles/JPSIKSTAR3.DEC" );
if ( modeInt == 4 )
strcpy( udecay_name, "exampleFiles/JPSIKSTAR4.DEC" );
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
static EvtId B0B = EvtPDL::getId( std::string( "anti-B0" ) );
myGenerator.readUDecay( udecay_name );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
EvtParticle *btag, *bcp;
if ( root_part->getDaug( 0 )->getNDaug() == 3 ) {
btag = root_part->getDaug( 0 );
bcp = root_part->getDaug( 1 );
} else {
bcp = root_part->getDaug( 0 );
btag = root_part->getDaug( 1 );
}
EvtId tag;
if ( btag->getId() == B0B ) {
tag = B0;
} else {
tag = B0B;
}
EvtParticle *p_b, *p_psi, *p_kstar, *p_pi0, *p_kz, *p_ep, *p_em;
EvtVector4R p4_b, p4_psi, p4_kstar, p4_pi0, p4_kz, p4_ep, p4_em;
p_b = bcp;
p_psi = p_b->getDaug( 0 );
p_kstar = p_b->getDaug( 1 );
p_pi0 = p_kstar->getDaug( 0 );
p_kz = p_kstar->getDaug( 1 );
p_ep = p_psi->getDaug( 0 );
p_em = p_psi->getDaug( 1 );
p4_b = p_b->getP4Lab();
p4_psi = p_psi->getP4Lab();
p4_kstar = p_kstar->getP4Lab();
p4_pi0 = p_pi0->getP4Lab();
p4_kz = p_kz->getP4Lab();
p4_ep = p_ep->getP4Lab();
p4_em = p_em->getP4Lab();
outmix << tag.getId() << " ";
outmix << root_part->getDaug( 0 )->getLifetime() << " ";
outmix << root_part->getDaug( 1 )->getLifetime() << " ";
outmix << EvtDecayAngle( p4_b, p4_ep + p4_em, p4_ep ) << " ";
outmix << EvtDecayAngle( p4_b, p4_pi0 + p4_kz, p4_pi0 ) << " ";
outmix << EvtDecayAngleChi( p4_b, p4_pi0, p4_kz, p4_ep, p4_em ) << "\n";
root_part->deleteTree();
} while ( count++ < nevent );
outmix.close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runSVVCPLH( int nevent, EvtGen& myGenerator )
{
TFile* file = new TFile( "svvcplh.root", "RECREATE" );
TH1F* t = new TH1F( "h1", "t", 50, 0.0, 5.0 );
TH1F* cospsi = new TH1F( "h2", "cos theta e+", 50, -1.0, 1.0 );
TH1F* cosphi = new TH1F( "h3", "cos theta k+", 50, -1.0, 1.0 );
TH1F* chi = new TH1F( "h4", "chi", 50, 0.0, 2.0 * EvtConst::pi );
int count = 1;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/SVVCPLH.DEC" );
myGenerator.readUDecay( udecay_name );
static EvtId BS0 = EvtPDL::getId( std::string( "B_s0" ) );
do {
EvtVector4R p_init( EvtPDL::getMass( BS0 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( BS0,
p_init );
root_part->setDiagonalSpinDensity();
myGenerator.generateDecay( root_part );
EvtParticle *p_b, *p_psi, *p_phi, *p_kp, *p_km, *p_ep, *p_em;
EvtVector4R p4_b, p4_psi, p4_phi, p4_kp, p4_km, p4_ep, p4_em;
p_b = root_part;
if ( p_b->getNDaug() == 1 )
p_b = p_b->getDaug( 0 );
p_psi = p_b->getDaug( 0 );
p_phi = p_b->getDaug( 1 );
p_kp = p_phi->getDaug( 0 );
p_km = p_phi->getDaug( 1 );
p_ep = p_psi->getDaug( 0 );
p_em = p_psi->getDaug( 1 );
p4_b = p_b->getP4Lab();
p4_psi = p_psi->getP4Lab();
p4_phi = p_phi->getP4Lab();
p4_kp = p_kp->getP4Lab();
p4_km = p_km->getP4Lab();
p4_ep = p_ep->getP4Lab();
p4_em = p_em->getP4Lab();
t->Fill( root_part->getLifetime() );
cospsi->Fill( EvtDecayAngle( p4_b, p4_ep + p4_em, p4_ep ) );
cosphi->Fill( EvtDecayAngle( p4_b, p4_kp + p4_km, p4_kp ) );
chi->Fill( EvtDecayAngleChi( p4_b, p4_kp, p4_km, p4_ep, p4_em ) );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runSVSCPLH( int nevent, EvtGen& myGenerator )
{
TFile* file = new TFile( "svscplh.root", "RECREATE" );
TH1F* t = new TH1F( "h1", "t", 200, -5.0, 5.0 );
TH1F* tB0tag = new TH1F( "h2", "dt B0 tag (ps)", 200, -15.0, 15.0 );
TH1F* tB0Btag = new TH1F( "h3", "dt B0B tag (ps)", 200, -15.0, 15.0 );
TH1F* ctheta = new TH1F( "h4", "costheta", 50, -1.0, 1.0 );
int count = 1;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/SVSCPLH.DEC" );
myGenerator.readUDecay( udecay_name );
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
static EvtId B0B = EvtPDL::getId( std::string( "anti-B0" ) );
std::ofstream outmix;
outmix.open( "svscplh.dat" );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
EvtParticle *p_tag, *p_cp, *p_jpsi, *p_ep;
EvtVector4R p4_tag, p4_cp, p4_jpsi, p4_ep;
p_tag = root_part->getDaug( 0 );
p_cp = root_part->getDaug( 1 );
p_jpsi = p_cp->getDaug( 0 );
p_ep = p_jpsi->getDaug( 0 );
p4_tag = p_tag->getP4Lab();
p4_cp = p_cp->getP4Lab();
p4_jpsi = p_jpsi->getP4Lab();
p4_ep = p_ep->getP4Lab();
double dt = p_cp->getLifetime() - p_tag->getLifetime();
dt = dt / ( 1e-12 * 3e11 );
t->Fill( dt );
if ( p_tag->getId() == B0 ) {
tB0tag->Fill( dt );
outmix << dt << " 1" << std::endl;
}
if ( p_tag->getId() == B0B ) {
tB0Btag->Fill( dt );
outmix << dt << " -1" << std::endl;
}
ctheta->Fill( EvtDecayAngle( p4_cp, p4_jpsi, p4_ep ) );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
outmix.close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runSSDCP( int nevent, EvtGen& myGenerator )
{
TFile* file = new TFile( "ssdcp.root", "RECREATE" );
TH1F* t = new TH1F( "h1", "dt", 100, -15.0, 15.0 );
TH1F* tB0tag = new TH1F( "h2", "dt B0 tag (ps)", 100, -15.0, 15.0 );
TH1F* tB0Btag = new TH1F( "h3", "dt B0B tag (ps)", 100, -15.0, 15.0 );
int count = 1;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/SSDCP.DEC" );
myGenerator.readUDecay( udecay_name );
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
static EvtId B0B = EvtPDL::getId( std::string( "anti-B0" ) );
std::ofstream outmix;
do {
EvtVector4R pinit( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
pinit );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
EvtParticle *p_tag, *p_cp, *p_jpsi;
EvtVector4R p4_tag, p4_cp, p4_jpsi, p4_ep;
p_tag = root_part->getDaug( 0 );
p_cp = root_part->getDaug( 1 );
p_jpsi = p_cp->getDaug( 0 );
//p_ep=p_jpsi->getDaug(0);
p4_tag = p_tag->getP4Lab();
p4_cp = p_cp->getP4Lab();
p4_jpsi = p_jpsi->getP4Lab();
//p4_ep=p_ep->getP4Lab();
double dt = p_cp->getLifetime() - p_tag->getLifetime();
dt = dt / ( 1e-12 * EvtConst::c );
t->Fill( dt );
if ( p_tag->getId() == B0 ) {
tB0tag->Fill( dt );
}
if ( p_tag->getId() == B0B ) {
tB0Btag->Fill( dt );
}
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runDSTARPI( int nevent, EvtGen& myGenerator )
{
TFile* file = new TFile( "dstarpi.root", "RECREATE" );
TH1F* t = new TH1F( "h1", "dt", 100, -15.0, 15.0 );
TH1F* tB0tagpip = new TH1F( "h2", "dt B0 tag pi+ (ps)", 100, -15.0, 15.0 );
TH1F* tB0Btagpip = new TH1F( "h3", "dt B0B tag pi+(ps)", 100, -15.0, 15.0 );
TH1F* tB0tagpim = new TH1F( "h4", "dt B0 tag pi- (ps)", 100, -15.0, 15.0 );
TH1F* tB0Btagpim = new TH1F( "h5", "dt B0B tag pi- (ps)", 100, -15.0, 15.0 );
int count = 1;
myGenerator.readUDecay( "exampleFiles/DSTARPI.DEC" );
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
static EvtId B0B = EvtPDL::getId( std::string( "anti-B0" ) );
static EvtId PIP = EvtPDL::getId( std::string( "pi+" ) );
static EvtId PIM = EvtPDL::getId( std::string( "pi-" ) );
std::ofstream outmix;
do {
EvtVector4R pinit( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
pinit );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
EvtParticle *p_tag, *p_cp, *p_pi;
p_tag = root_part->getDaug( 0 );
p_cp = root_part->getDaug( 1 );
//p_dstar=p_cp->getDaug(1);
p_pi = p_cp->getDaug( 0 );
double dt = p_cp->getLifetime() - p_tag->getLifetime();
dt = dt / ( 1e-12 * EvtConst::c );
t->Fill( dt );
if ( p_tag->getId() == B0 ) {
if ( p_pi->getId() == PIP )
tB0tagpip->Fill( dt );
if ( p_pi->getId() == PIM )
tB0tagpim->Fill( dt );
}
if ( p_tag->getId() == B0B ) {
if ( p_pi->getId() == PIP )
tB0Btagpip->Fill( dt );
if ( p_pi->getId() == PIM )
tB0Btagpim->Fill( dt );
}
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runETACPHIPHI( int nevent, EvtGen& myGenerator )
{
TFile* file = new TFile( "etacphiphi.root", "RECREATE" );
TH2F* cosphi12 = new TH2F( "h1", "cos phi1 vs phi2", 50, -1.0, 1.0, 50,
-1.0, 1.0 );
TH1F* cosphi1 = new TH1F( "h2", "cos phi1", 50, -1.0, 1.0 );
TH1F* cosphi2 = new TH1F( "h3", "cos phi2", 50, -1.0, 1.0 );
TH1F* chi = new TH1F( "h4", "chi", 50, 0.0, 2.0 * EvtConst::pi );
int count = 1;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/ETACPHIPHI.DEC" );
myGenerator.readUDecay( udecay_name );
static EvtId ETAC = EvtPDL::getId( std::string( "eta_c" ) );
do {
EvtVector4R p_init( EvtPDL::getMass( ETAC ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( ETAC,
p_init );
root_part->setDiagonalSpinDensity();
myGenerator.generateDecay( root_part );
EvtParticle *p_etac, *p_phi1, *p_phi2, *p_kp1, *p_km1, *p_kp2, *p_km2;
EvtVector4R p4_etac, p4_phi1, p4_phi2, p4_kp1, p4_km1, p4_kp2, p4_km2;
p_etac = root_part;
p_phi1 = p_etac->getDaug( 0 );
p_phi2 = p_etac->getDaug( 1 );
p_kp1 = p_phi1->getDaug( 0 );
p_km1 = p_phi1->getDaug( 1 );
p_kp2 = p_phi2->getDaug( 0 );
p_km2 = p_phi2->getDaug( 1 );
p4_etac = p_etac->getP4Lab();
p4_phi1 = p_phi1->getP4Lab();
p4_phi2 = p_phi2->getP4Lab();
p4_kp1 = p_kp1->getP4Lab();
p4_km1 = p_km1->getP4Lab();
p4_kp2 = p_kp2->getP4Lab();
p4_km2 = p_km2->getP4Lab();
cosphi12->Fill( EvtDecayAngle( p4_etac, p4_phi1, p4_kp1 ),
EvtDecayAngle( p4_etac, p4_phi2, p4_kp2 ), 1.0 );
cosphi1->Fill( EvtDecayAngle( p4_etac, p4_phi1, p4_kp1 ) );
cosphi2->Fill( EvtDecayAngle( p4_etac, p4_phi2, p4_kp2 ) );
chi->Fill( EvtDecayAngleChi( p4_etac, p4_kp1, p4_km1, p4_kp2, p4_km2 ) );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runVVPiPi( int nevent, EvtGen& myGenerator )
{
TFile* file = new TFile( "vvpipi.root", "RECREATE" );
TH1F* cospsi = new TH1F( "h1", "cos theta J/psi ", 50, -1.0, 1.0 );
TH1F* cose = new TH1F( "h2", "cos theta e+ ", 50, -1.0, 1.0 );
TH1F* mpipi = new TH1F( "h3", "m pipi ", 50, 0.0, 1.0 );
TH2F* cosevspsi = new TH2F( "h4", "cos theta e+vs cos thete J/psi ", 25,
-1.0, 1.0, 25, -1.0, 1.0 );
TH1F* cose1 = new TH1F( "h5", "cos theta e+ 1 ", 50, -1.0, 1.0 );
TH1F* cose2 = new TH1F( "h6", "cos theta e+ 2 ", 50, -1.0, 1.0 );
int count = 1;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/VVPIPI.DEC" );
myGenerator.readUDecay( udecay_name );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
do {
EvtVector4R p_init( EvtPDL::getMass( B0 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( B0, p_init );
root_part->setDiagonalSpinDensity();
myGenerator.generateDecay( root_part );
EvtParticle *p_b, *p_psip, *p_psi, *p_ep, *p_pi1, *p_pi2;
EvtVector4R p4_b, p4_psip, p4_psi, p4_ep, p4_pi1, p4_pi2;
p_b = root_part;
p_psip = p_b->getDaug( 0 );
p_psi = p_psip->getDaug( 0 );
p_pi1 = p_psip->getDaug( 1 );
p_pi2 = p_psip->getDaug( 2 );
p_ep = p_psi->getDaug( 0 );
p4_b = p_b->getP4Lab();
p4_psip = p_psip->getP4Lab();
p4_psi = p_psi->getP4Lab();
p4_pi1 = p_pi1->getP4Lab();
p4_pi2 = p_pi2->getP4Lab();
p4_ep = p_ep->getP4Lab();
cospsi->Fill( EvtDecayAngle( p4_b, p4_psip, p4_psi ) );
cose->Fill( EvtDecayAngle( p4_psip, p4_psi, p4_ep ) );
mpipi->Fill( ( p4_pi1 + p4_pi2 ).mass() );
cosevspsi->Fill( EvtDecayAngle( p4_b, p4_psip, p4_psi ),
EvtDecayAngle( p4_psip, p4_psi, p4_ep ), 1.0 );
if ( std::fabs( EvtDecayAngle( p4_b, p4_psip, p4_psi ) ) > 0.95 ) {
cose1->Fill( EvtDecayAngle( p4_psip, p4_psi, p4_ep ) );
}
if ( std::fabs( EvtDecayAngle( p4_b, p4_psip, p4_psi ) ) < 0.05 ) {
cose2->Fill( EvtDecayAngle( p4_psip, p4_psi, p4_ep ) );
}
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runSVVHelAmp( int nevent, EvtGen& myGenerator )
{
TFile* file = new TFile( "svvhelamp.root", "RECREATE" );
TH1F* cospip = new TH1F( "h1", "cos theta pi+", 50, -1.0, 1.0 );
TH1F* cospim = new TH1F( "h2", "cos theta pi-", 50, -1.0, 1.0 );
TH1F* chi = new TH1F( "h3", "chi pi+ to pi- in D+ direction", 50, 0.0,
EvtConst::twoPi );
TH1F* chicospipp = new TH1F( "h4",
"chi pi+ to pi- in D+ direction (cospip>0)",
50, 0.0, EvtConst::twoPi );
TH1F* chicospipn = new TH1F( "h5", "chi pi+ to pi- in D+ direction (cospip<0",
50, 0.0, EvtConst::twoPi );
TH1F* chipp = new TH1F( "h6",
"chi pi+ to pi- in D+ direction (cospip>0,cospim>0)",
50, 0.0, EvtConst::twoPi );
TH1F* chipn = new TH1F( "h7",
"chi pi+ to pi- in D+ direction (cospip>0,cospim<0)",
50, 0.0, EvtConst::twoPi );
TH1F* chinp = new TH1F( "h8",
"chi pi+ to pi- in D+ direction (cospip<0,cospim>0)",
50, 0.0, EvtConst::twoPi );
TH1F* chinn = new TH1F( "h9",
"chi pi+ to pi- in D+ direction (cospip<0,cospim<0)",
50, 0.0, EvtConst::twoPi );
TH1F* chinnnn = new TH1F(
"h10", "chi pi+ to pi- in D+ direction (cospip<-0.5,cospim<-0.5)", 50,
0.0, EvtConst::twoPi );
int count = 1;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/SVVHELAMP.DEC" );
myGenerator.readUDecay( udecay_name );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
do {
EvtVector4R p_init( EvtPDL::getMass( B0 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( B0, p_init );
root_part->setDiagonalSpinDensity();
myGenerator.generateDecay( root_part );
EvtParticle *p_b, *p_dstp, *p_dstm, *p_pip, *p_pim, *p_d0, *p_d0b;
EvtVector4R p4_b, p4_dstp, p4_dstm, p4_pip, p4_pim, p4_d0, p4_d0b;
p_b = root_part;
p_dstp = p_b->getDaug( 0 );
p_dstm = p_b->getDaug( 1 );
p_pip = p_dstp->getDaug( 1 );
p_pim = p_dstm->getDaug( 1 );
p_d0 = p_dstp->getDaug( 0 );
p_d0b = p_dstm->getDaug( 0 );
p4_b = p_b->getP4Lab();
p4_dstp = p_dstp->getP4Lab();
p4_dstm = p_dstm->getP4Lab();
p4_pip = p_pip->getP4Lab();
p4_pim = p_pim->getP4Lab();
p4_d0 = p_d0->getP4Lab();
p4_d0b = p_d0b->getP4Lab();
double costhpip = EvtDecayAngle( p4_b, p4_pip + p4_d0, p4_pip );
double costhpim = EvtDecayAngle( p4_b, p4_pim + p4_d0b, p4_pim );
double chiang = EvtDecayAngleChi( p4_b, p4_pip, p4_d0, p4_pim, p4_d0b );
cospip->Fill( costhpip );
cospim->Fill( costhpim );
chi->Fill( chiang );
if ( costhpip > 0 )
chicospipp->Fill( chiang );
if ( costhpip < 0 )
chicospipn->Fill( chiang );
if ( costhpip > 0 && costhpim > 0 )
chipp->Fill( chiang );
if ( costhpip > 0 && costhpim < 0 )
chipn->Fill( chiang );
if ( costhpip < 0 && costhpim > 0 )
chinp->Fill( chiang );
if ( costhpip < 0 && costhpim < 0 )
chinn->Fill( chiang );
if ( costhpip < -0.5 && costhpim < -0.5 )
chinnnn->Fill( chiang );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runPartWave( int nevent, EvtGen& myGenerator )
{
TFile* file = new TFile( "partwave.root", "RECREATE" );
TH1F* cospip = new TH1F( "h1", "cos theta pi+", 50, -1.0, 1.0 );
TH1F* cospim = new TH1F( "h2", "cos theta pi-", 50, -1.0, 1.0 );
TH1F* chi = new TH1F( "h3", "chi pi+ to pi- in D+ direction", 50, 0.0,
EvtConst::twoPi );
TH1F* chicospipp = new TH1F( "h4",
"chi pi+ to pi- in D+ direction (cospip>0)",
50, 0.0, EvtConst::twoPi );
TH1F* chicospipn = new TH1F( "h5", "chi pi+ to pi- in D+ direction (cospip<0",
50, 0.0, EvtConst::twoPi );
TH1F* chipp = new TH1F( "h6",
"chi pi+ to pi- in D+ direction (cospip>0,cospim>0)",
50, 0.0, EvtConst::twoPi );
TH1F* chipn = new TH1F( "h7",
"chi pi+ to pi- in D+ direction (cospip>0,cospim<0)",
50, 0.0, EvtConst::twoPi );
TH1F* chinp = new TH1F( "h8",
"chi pi+ to pi- in D+ direction (cospip<0,cospim>0)",
50, 0.0, EvtConst::twoPi );
TH1F* chinn = new TH1F( "h9",
"chi pi+ to pi- in D+ direction (cospip<0,cospim<0)",
50, 0.0, EvtConst::twoPi );
TH1F* chinnnn = new TH1F(
"h10", "chi pi+ to pi- in D+ direction (cospip<-0.5,cospim<-0.5)", 50,
0.0, EvtConst::twoPi );
int count = 1;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/PARTWAVE.DEC" );
myGenerator.readUDecay( udecay_name );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
do {
EvtVector4R p_init( EvtPDL::getMass( B0 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( B0, p_init );
root_part->setDiagonalSpinDensity();
myGenerator.generateDecay( root_part );
EvtParticle *p_b, *p_dstp, *p_dstm, *p_pip, *p_pim, *p_d0, *p_d0b;
EvtVector4R p4_b, p4_dstp, p4_dstm, p4_pip, p4_pim, p4_d0, p4_d0b;
p_b = root_part;
p_dstp = p_b->getDaug( 0 );
p_dstm = p_b->getDaug( 1 );
p_pip = p_dstp->getDaug( 1 );
p_pim = p_dstm->getDaug( 1 );
p_d0 = p_dstp->getDaug( 0 );
p_d0b = p_dstm->getDaug( 0 );
p4_b = p_b->getP4Lab();
p4_dstp = p_dstp->getP4Lab();
p4_dstm = p_dstm->getP4Lab();
p4_pip = p_pip->getP4Lab();
p4_pim = p_pim->getP4Lab();
p4_d0 = p_d0->getP4Lab();
p4_d0b = p_d0b->getP4Lab();
double costhpip = EvtDecayAngle( p4_b, p4_pip + p4_d0, p4_pip );
double costhpim = EvtDecayAngle( p4_b, p4_pim + p4_d0b, p4_pim );
double chiang = EvtDecayAngleChi( p4_b, p4_pip, p4_d0, p4_pim, p4_d0b );
cospip->Fill( costhpip );
cospim->Fill( costhpim );
chi->Fill( chiang );
if ( costhpip > 0 )
chicospipp->Fill( chiang );
if ( costhpip < 0 )
chicospipn->Fill( chiang );
if ( costhpip > 0 && costhpim > 0 )
chipp->Fill( chiang );
if ( costhpip > 0 && costhpim < 0 )
chipn->Fill( chiang );
if ( costhpip < 0 && costhpim > 0 )
chinp->Fill( chiang );
if ( costhpip < 0 && costhpim < 0 )
chinn->Fill( chiang );
if ( costhpip < -0.5 && costhpim < -0.5 )
chinnnn->Fill( chiang );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runPartWave2( int nevent, EvtGen& myGenerator )
{
TFile file( "partwave2.root", "RECREATE" );
TH1F* cthetapi = new TH1F( "h1", "cos theta pi", 50, -1.0, 1.0 );
TH1F* cthetapi2 = new TH1F( "h2", "cos theta pi (|cosrho|<0.1)", 50, -1.0,
1.0 );
TH1F* cthetan = new TH1F( "h3", "cos thetan", 50, -1.0, 1.0 );
//TH1F* cthetan2 = new TH1F("h4","cos thetan costhetapi>0 ",
// 50,-1.0,1.0);
TH1F* cthetarho = new TH1F( "h4", "cos thetarho ", 50, -1.0, 1.0 );
int count = 1;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/PARTWAVE2.DEC" );
myGenerator.readUDecay( udecay_name );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
do {
EvtVector4R p_init( EvtPDL::getMass( B0 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( B0, p_init );
root_part->setDiagonalSpinDensity();
myGenerator.generateDecay( root_part );
EvtParticle *p_b, *p_jpsi, *p_rho, *p_pi1, *p_pi2;
EvtVector4R p4_b, p4_jpsi, p4_rho, p4_pi1, p4_pi2;
p_b = root_part;
p_jpsi = root_part->getDaug( 0 );
p_rho = nullptr;
if ( p_jpsi->getDaug( 0 )->getNDaug() == 2 ) {
p_rho = p_jpsi->getDaug( 0 );
}
if ( p_jpsi->getDaug( 1 )->getNDaug() == 2 ) {
p_rho = p_jpsi->getDaug( 1 );
}
assert( p_rho != 0 );
p_pi1 = p_rho->getDaug( 0 );
p_pi2 = p_rho->getDaug( 1 );
p4_b = p_b->getP4Lab();
p4_jpsi = p_jpsi->getP4Lab();
p4_rho = p_rho->getP4Lab();
p4_pi1 = p_pi1->getP4Lab();
p4_pi2 = p_pi2->getP4Lab();
double costhetan = EvtDecayPlaneNormalAngle( p4_b, p4_jpsi, p4_pi1,
p4_pi2 );
//EvtGenReport(EVTGEN_INFO,"EvtGen") << "costhetan:"<Fill( costhetan );
double costhpi = EvtDecayAngle( p4_jpsi, p4_rho, p4_pi1 );
double costhrho = EvtDecayAngle( p4_b, p4_jpsi, p4_rho );
//EvtGenReport(EVTGEN_INFO,"EvtGen") << "costhetarho:"<Fill( costhrho );
//if (((p4_rho.get(3)/p4_rho.d3mag()))<-0.95) cthetan2->Fill( costhetan );
cthetapi->Fill( costhpi );
if ( ( p4_rho.get( 3 ) / p4_rho.d3mag() ) > 0.9 ) {
cthetapi2->Fill( costhpi );
}
root_part->deleteTree();
} while ( count++ < nevent );
file.Write();
file.Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runTwoBody( int nevent, EvtGen& myGenerator, std::string decFile,
std::string rootFile )
{
TFile* file = new TFile( rootFile.c_str(), "RECREATE" );
int count = 0;
myGenerator.readUDecay( decFile.c_str() );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
vector histograms;
do {
EvtVector4R p_init( EvtPDL::getMass( B0 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( B0, p_init );
root_part->setDiagonalSpinDensity();
myGenerator.generateDecay( root_part );
//root_part->printTree();
myGenerator.generateDecay( root_part );
int nhist = 0;
EvtParticle* p = root_part;
do {
int nDaug = p->getNDaug();
if ( !( nDaug == 0 || nDaug == 2 ) ) {
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "nDaug=" << nDaug << " but can only handle 0 or 2!"
<< std::endl;
abort();
}
if ( nDaug == 2 ) {
if ( p->getParent() == nullptr ) {
EvtVector4R p4 = p->getDaug( 0 )->getP4();
double ctheta = p4.get( 3 ) / p4.d3mag();
double phi = atan2( p4.get( 2 ), p4.get( 1 ) );
if ( count == 0 ) {
histograms.push_back(
new TH1F( "h1", "cos theta", 50, -1.0, 1.0 ) );
histograms.push_back( new TH1F(
"h2", "phi", 50, -EvtConst::pi, EvtConst::pi ) );
}
histograms[nhist++]->Fill( ctheta );
histograms[nhist++]->Fill( phi );
} else {
double ctheta = EvtDecayAngle( p->getParent()->getP4Lab(),
p->getP4Lab(),
p->getDaug( 0 )->getP4Lab() );
if ( count == 0 ) {
// char* tmp=new char[10];
// std::ostrstream strm(tmp,9);
// strm << (nhist+1) << '\0'<< std::endl;
// histograms.push_back(new TH1F(TString("h")+tmp,TString("cos theta")+tmp,50,-1.0,1.0));
std::ostringstream strm;
strm << ( nhist + 1 );
histograms.push_back(
new TH1F( TString( "h" ) + strm.str().c_str(),
TString( "cos theta" ) + strm.str().c_str(),
50, -1.0, 1.0 ) );
}
histograms[nhist++]->Fill( ctheta );
if ( p->getDaug( 0 )->getNDaug() == 2 ) {
double costhetan = EvtDecayPlaneNormalAngle(
p->getParent()->getP4Lab(), p->getP4Lab(),
p->getDaug( 0 )->getDaug( 0 )->getP4Lab(),
p->getDaug( 0 )->getDaug( 1 )->getP4Lab() );
if ( count == 0 ) {
// char* tmp=new char[10];
// std::ostrstream strm(tmp,9);
// strm << (nhist+1) << '\0'<< std::endl;
// histograms.push_back(new TH1F(TString("h")+tmp,TString("cos thetan")+tmp,50,-1.0,1.0));
std::ostringstream strm;
strm << ( nhist + 1 );
histograms.push_back( new TH1F(
TString( "h" ) + strm.str().c_str(),
TString( "cos theta" ) + strm.str().c_str(), 50,
-1.0, 1.0 ) );
}
histograms[nhist++]->Fill( costhetan );
}
if ( p->getDaug( 1 )->getNDaug() == 2 ) {
double costhetan = EvtDecayPlaneNormalAngle(
p->getParent()->getP4Lab(), p->getP4Lab(),
p->getDaug( 1 )->getDaug( 0 )->getP4Lab(),
p->getDaug( 1 )->getDaug( 1 )->getP4Lab() );
if ( count == 0 ) {
// char* tmp=new char[10];
// std::ostrstream strm(tmp,9);
// strm << (nhist+1) << '\0'<< std::endl;
// histograms.push_back(new TH1F(TString("h")+tmp,TString("cos thetan")+tmp,50,-1.0,1.0));
std::ostringstream strm;
strm << ( nhist + 1 );
histograms.push_back( new TH1F(
TString( "h" ) + strm.str().c_str(),
TString( "cos theta" ) + strm.str().c_str(), 50,
-1.0, 1.0 ) );
}
histograms[nhist++]->Fill( costhetan );
}
}
}
p = p->nextIter( root_part );
} while ( p != nullptr );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runPiPi( int nevent, EvtGen& myGenerator )
{
std::ofstream outmix;
outmix.open( "pipi.dat" );
TFile* file = new TFile( "pipi.root", "RECREATE" );
TH1F* tB0Hist = new TH1F( "h1", "dt in B->pipi with B0 tag", 50, -5.0, 5.0 );
TH1F* tB0BHist = new TH1F( "h2", "dt in B->pipi with B0B tag", 50, -5.0, 5.0 );
TH1F* tB0 = new TH1F( "h3", "t in B->pipi for B0 tag", 25, 0.0, 5.0 );
TH1F* tB0B = new TH1F( "h4", "t in B->pipi for B0B tag", 25, 0.0, 5.0 );
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/PIPI.DEC" );
//EvtGen myGenerator(decay_name,pdttable_name,myRandomEngine);
myGenerator.readUDecay( udecay_name );
EvtParticle *bcp, *btag;
int count = 1;
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
static EvtId B0B = EvtPDL::getId( std::string( "anti-B0" ) );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
if ( root_part->getDaug( 0 )->getNDaug() == 3 ) {
btag = root_part->getDaug( 0 );
bcp = root_part->getDaug( 1 );
} else {
bcp = root_part->getDaug( 0 );
btag = root_part->getDaug( 1 );
}
EvtId tag; //cp tag
if ( btag->getId() == B0B ) {
tag = B0;
} else {
tag = B0B;
}
// int a1=bcp->getDaug(0)->getId();
if ( tag == B0 )
tB0Hist->Fill( bcp->getLifetime() - btag->getLifetime() );
if ( tag == B0 )
tB0->Fill( btag->getLifetime() );
if ( tag == B0B )
tB0BHist->Fill( bcp->getLifetime() - btag->getLifetime() );
if ( tag == B0B )
tB0B->Fill( btag->getLifetime() );
outmix << bcp->getLifetime() << " " << btag->getLifetime() << " "
<< tag.getId() << std::endl;
root_part->deleteTree();
} while ( count++ < nevent );
outmix.close();
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runA1Pi( int nevent, EvtGen& myGenerator )
{
std::ofstream outmix;
outmix.open( "a1pi.dat" );
int count = 1;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/A1PI.DEC" );
myGenerator.readUDecay( udecay_name );
EvtParticle *bcp, *btag;
EvtParticle *a1, *rho0, *pi1, *pi2, *pi3, *pi4;
EvtVector4R p4bcp, p4a1, p4rho0, p4pi1, p4pi2, p4pi3, p4pi4;
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
static EvtId B0B = EvtPDL::getId( std::string( "anti-B0" ) );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
if ( root_part->getDaug( 0 )->getNDaug() == 3 ) {
btag = root_part->getDaug( 0 );
bcp = root_part->getDaug( 1 );
} else {
bcp = root_part->getDaug( 0 );
btag = root_part->getDaug( 1 );
}
a1 = bcp->getDaug( 0 );
pi1 = bcp->getDaug( 1 );
rho0 = a1->getDaug( 0 );
pi2 = a1->getDaug( 1 );
pi3 = rho0->getDaug( 0 );
pi4 = rho0->getDaug( 1 );
p4bcp = bcp->getP4Lab();
p4a1 = a1->getP4Lab();
p4pi1 = pi1->getP4Lab();
p4rho0 = rho0->getP4Lab();
p4pi2 = pi2->getP4Lab();
p4pi3 = pi3->getP4Lab();
p4pi4 = pi4->getP4Lab();
EvtId tag; //cp tag
if ( btag->getId() == B0B ) {
tag = B0;
} else {
tag = B0B;
}
outmix << bcp->getLifetime() << " " << btag->getLifetime() << " "
<< EvtDecayAngle( p4bcp, p4rho0 + p4pi2, p4rho0 ) << " "
<< EvtDecayAngle( p4a1, p4pi3 + p4pi4, p4pi3 ) << " "
<< EvtPDL::getStdHep( tag ) << std::endl;
root_part->deleteTree();
} while ( count++ < nevent );
outmix.close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runCPTest( int nevent, EvtGen& myGenerator )
{
std::ofstream outmix;
outmix.open( "cptest.dat" );
int count = 1;
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
static EvtId B0B = EvtPDL::getId( std::string( "anti-B0" ) );
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/CPTEST.DEC" );
//EvtGen myGenerator(decay_name,pdttable_name,myRandomEngine);
myGenerator.readUDecay( udecay_name );
EvtParticle *bcp, *btag;
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
if ( root_part->getDaug( 0 )->getNDaug() == 3 ) {
btag = root_part->getDaug( 0 );
bcp = root_part->getDaug( 1 );
} else {
bcp = root_part->getDaug( 0 );
btag = root_part->getDaug( 1 );
}
EvtId tag; //cp tag
if ( btag->getId() == B0B ) {
tag = B0;
} else {
tag = B0B;
}
outmix << bcp->getLifetime() << " " << btag->getLifetime() << " "
<< tag.getId() << std::endl;
root_part->deleteTree();
} while ( count++ < nevent );
outmix.close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runBtoXsgamma( int nevent, EvtGen& myGenerator )
{
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
TFile* file = new TFile( "BtoXsgamma.root", "RECREATE" );
int count = 1;
EvtParticle* root_part;
EvtVectorParticle* vector_part;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/BTOXSGAMMA.DEC" );
myGenerator.readUDecay( udecay_name );
// Plot kinematics for b->s,gamma
int strangeid, antistrangeid;
int Bmulti, bId1a, bId1b, bId2a, bId2b, b1Id, b2Id;
do {
vector_part = new EvtVectorParticle;
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
vector_part->init( UPS4, p_init );
root_part = (EvtParticle*)vector_part;
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
EvtParticle* B1 = root_part->getDaug( 0 );
Bmulti = B1->getNDaug();
if ( Bmulti == 1 )
B1 = B1->getDaug( 0 );
EvtId BId1a = B1->getDaug( 0 )->getId();
bId1a = EvtPDL::getStdHep( BId1a );
EvtId BId1b = B1->getDaug( 1 )->getId();
bId1b = EvtPDL::getStdHep( BId1b );
if ( Bmulti == 1 )
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "B1"
<< " bId1a=" << bId1a << " bId1b=" << bId1b
<< " ndaug=" << B1->getNDaug()
<< " Bid=" << EvtPDL::getStdHep( B1->getId() ) << std::endl;
EvtParticle* B2 = root_part->getDaug( 1 );
Bmulti = B2->getNDaug();
if ( Bmulti == 1 )
B2 = B2->getDaug( 0 ); // B has a daughter which is a string
EvtId BId2a = B2->getDaug( 0 )->getId();
bId2a = EvtPDL::getStdHep( BId2a );
EvtId BId2b = B2->getDaug( 1 )->getId();
bId2b = EvtPDL::getStdHep( BId2b );
if ( Bmulti == 1 )
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "B2"
<< " bId2a=" << bId2a << " bId2b=" << bId2b
<< " ndaug=" << B2->getNDaug()
<< " Bid=" << EvtPDL::getStdHep( B2->getId() ) << std::endl;
EvtId B1Id = B1->getId();
b1Id = EvtPDL::getStdHep( B1Id );
EvtId B2Id = B2->getId();
b2Id = EvtPDL::getStdHep( B2Id );
strangeid = 0;
antistrangeid = 0;
if ( ( b1Id == 511 ) || ( b1Id == -511 ) || ( b2Id == 511 ) ||
( b2Id == -511 ) ) {
strangeid = 30343;
antistrangeid = -30343;
} else if ( ( b1Id == 521 ) || ( b1Id == -521 ) || ( b2Id == 521 ) ||
( b2Id == -521 ) ) {
strangeid = 30353;
antistrangeid = -30353;
} else if ( ( b1Id == 531 ) || ( b1Id == -531 ) || ( b2Id == 531 ) ||
( b2Id == -531 ) ) {
strangeid = 30363;
antistrangeid = -30363;
}
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "bId1a " << bId1a << " bId1b " << bId1b << " bId2a " << bId2a
<< " bId2b " << bId2b << " for event " << count << std::endl;
EvtParticle* Bpeng = nullptr;
//int bnum=0;
int pengcount = 0;
if ( ( ( bId1a == strangeid ) && ( bId1b == 22 ) ) ||
( ( bId1a == antistrangeid ) && ( bId1b == 22 ) ) ||
( ( bId1b == strangeid ) && ( bId1a == 22 ) ) ||
( ( bId1b == antistrangeid ) && ( bId1a == 22 ) ) ) {
Bpeng = B1;
//bnum=1;
pengcount++;
}
if ( ( ( bId2a == strangeid ) && ( bId2b == 22 ) ) ||
( ( bId2a == antistrangeid ) && ( bId2b == 22 ) ) ||
( ( bId2b == strangeid ) && ( bId2a == 22 ) ) ||
( ( bId2b == antistrangeid ) && ( bId2a == 22 ) ) ) {
Bpeng = B2;
//bnum=2;
pengcount++;
}
if ( pengcount == 0 ) {
Bpeng = B1;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "No penguin decay for event " << count << std::endl;
//bnum=0;
} else if ( pengcount == 2 ) {
Bpeng = B1;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Two penguin decays in event " << count << std::endl;
//bnum=0;
}
Bmulti = Bpeng->getNDaug();
EvtParticle* Xs = Bpeng->getDaug( 0 );
//EvtParticle *gam = Bpeng->getDaug(1);
//EvtVector4R p4Xs = Xs->getP4Lab();
//EvtId BId = Bpeng->getId();
//EvtId XsId = Xs->getId();
int Xsmulti = Xs->getNDaug();
//EvtId gamId = gam->getId();
//int bId = EvtPDL::getStdHep(BId);
//int XId = EvtPDL::getStdHep(XsId);
//int gId = EvtPDL::getStdHep(gamId);
//float XsMass = p4Xs.mass();
//double gmass = p4gam.mass();
//double genergy = p4gam.get(0);
// debug stuff: EvtGenReport(EVTGEN_INFO,"EvtGen") << "bnum=" << bnum << " pengcount=" << pengcount << " bId=" << bId << " Bmulti=" << Bmulti << " XsId=" << XId << " gId=" << gId << std::endl;
//need to change this to root...I don't have the energy now
//tuple->column("bnum", bnum);
//tuple->column("pengcount", pengcount);
//tuple->column("bId", bId);
//tuple->column("Bmulti", Bmulti);
//tuple->column("XsId", XId);
//tuple->column("gId", gId);
//tuple->column("XsMass", XsMass);
//tuple->column("Xsmulti", Xsmulti, 0,"Xs", HTRange(0,200));
//tuple->column("gmass", gmass);
//tuple->column("genergy", genergy);
//HTValOrderedVector XDaugId, XDaugNephewId;
//HTValOrderedVector XsDaugMass, XsDaugNephewMass;
int nTot( 0 );
for ( int i = 0; i < Xsmulti; i++ ) {
EvtParticle* XsDaug = Xs->getDaug( i );
//EvtVector4R p4XsDaug = XsDaug->getP4Lab();
EvtId XsDaugId = XsDaug->getId();
//XDaugId.push_back(EvtPDL::getStdHep(XsDaugId));
//XsDaugMass.push_back( p4XsDaug.mass());
int Daumulti = XsDaug->getNDaug();
if ( abs( EvtPDL::getStdHep( XsDaugId ) ) == 321 ||
EvtPDL::getStdHep( XsDaugId ) == 310 ||
EvtPDL::getStdHep( XsDaugId ) == 111 ||
abs( EvtPDL::getStdHep( XsDaugId ) ) == 211 || Daumulti == 0 ) {
nTot++;
//EvtVector4R p4XsDaugNephew = XsDaug->getP4Lab();
//EvtId XsDaugNephewId =XsDaug->getId() ;
//XDaugNephewId.push_back(EvtPDL::getStdHep(XsDaugId));
//XsDaugNephewMass.push_back( p4XsDaug.mass());
} else if ( Daumulti != 0 ) {
for ( int k = 0; k < Daumulti; k++ ) {
EvtParticle* XsDaugNephew = XsDaug->getDaug( k );
EvtId XsDaugNephewId = XsDaugNephew->getId();
int Nephmulti = XsDaugNephew->getNDaug();
if ( Nephmulti == 0 ||
abs( EvtPDL::getStdHep( XsDaugNephewId ) ) == 321 ||
EvtPDL::getStdHep( XsDaugNephewId ) == 310 ||
EvtPDL::getStdHep( XsDaugNephewId ) == 111 ||
abs( EvtPDL::getStdHep( XsDaugNephewId ) ) == 211 ) {
nTot++;
//EvtVector4R p4XsDaugNephew = XsDaugNephew->getP4Lab();
//XDaugNephewId.push_back(EvtPDL::getStdHep(XsDaugNephewId));
//XsDaugNephewMass.push_back( p4XsDaugNephew.mass());
} else {
for ( int g = 0; g < Nephmulti; g++ ) {
nTot++;
//EvtParticle *XsDaugNephewNephew = XsDaugNephew->getDaug(g);
//EvtVector4R p4XsDaugNephewNephew = XsDaugNephewNephew->getP4Lab();
//EvtId XsDaugNephewNephewId = XsDaugNephewNephew->getId();
//XDaugNephewId.push_back(EvtPDL::getStdHep(XsDaugNephewNephewId));
//XsDaugNephewMass.push_back( p4XsDaugNephewNephew.mass());
}
}
}
}
}
//tuple->column("XsDaugId", XDaugId,"Xsmulti", 0, "Xs");
//tuple->column("XsDaugMass", XsDaugMass,"Xsmulti", 0, "Xs");
//tuple->column("nTot", nTot, 0,"nTot", HTRange(0,200));
//tuple->column("XsDaugNephewId", XDaugNephewId,"nTot", 0, "nTot");
//tuple->column("XsDaugNephewMass", XsDaugNephewMass,"nTot", 0, "nTot");
//tuple->dumpData();
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "End EvtGen. Ran on " << nevent << " events." << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runBtoK1273gamma( int nevent, EvtGen& myGenerator )
{
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
TFile* file = new TFile( "BtoK1273gamma.root", "RECREATE" );
//HepTuple *tuple = hfile.ntuple("BtoK1273gamma", 1);
int count = 1;
EvtParticle* root_part;
EvtVectorParticle* vector_part;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/BTOK1273GAMMA.DEC" );
myGenerator.readUDecay( udecay_name );
// Plot kinematics for b->s,gamma
int strangeid, antistrangeid;
int Bmulti, bId1a, bId1b, bId2a, bId2b, b1Id, b2Id;
do {
vector_part = new EvtVectorParticle;
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
vector_part->init( UPS4, p_init );
root_part = (EvtParticle*)vector_part;
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
EvtParticle* B1 = root_part->getDaug( 0 );
Bmulti = B1->getNDaug();
if ( Bmulti == 1 )
B1 = B1->getDaug( 0 );
EvtId BId1a = B1->getDaug( 0 )->getId();
bId1a = EvtPDL::getStdHep( BId1a );
EvtId BId1b = B1->getDaug( 1 )->getId();
bId1b = EvtPDL::getStdHep( BId1b );
if ( Bmulti == 1 )
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "B1"
<< " bId1a=" << bId1a << " bId1b=" << bId1b
<< " ndaug=" << B1->getNDaug()
<< " Bid=" << EvtPDL::getStdHep( B1->getId() ) << std::endl;
EvtParticle* B2 = root_part->getDaug( 1 );
Bmulti = B2->getNDaug();
if ( Bmulti == 1 )
B2 = B2->getDaug( 0 ); // B has a daughter which is a string
EvtId BId2a = B2->getDaug( 0 )->getId();
bId2a = EvtPDL::getStdHep( BId2a );
EvtId BId2b = B2->getDaug( 1 )->getId();
bId2b = EvtPDL::getStdHep( BId2b );
if ( Bmulti == 1 )
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "B2"
<< " bId2a=" << bId2a << " bId2b=" << bId2b
<< " ndaug=" << B2->getNDaug()
<< " Bid=" << EvtPDL::getStdHep( B2->getId() ) << std::endl;
EvtId B1Id = B1->getId();
b1Id = EvtPDL::getStdHep( B1Id );
EvtId B2Id = B2->getId();
b2Id = EvtPDL::getStdHep( B2Id );
strangeid = 0;
antistrangeid = 0;
if ( ( b1Id == 511 ) || ( b1Id == -511 ) || ( b2Id == 511 ) ||
( b2Id == -511 ) ) {
strangeid = 10313;
antistrangeid = -10313;
} else if ( ( b1Id == 521 ) || ( b1Id == -521 ) || ( b2Id == 521 ) ||
( b2Id == -521 ) ) {
strangeid = 10323;
antistrangeid = -10323;
}
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "bId1a " << bId1a << " bId1b " << bId1b << " bId2a " << bId2a
<< " bId2b " << bId2b << " for event " << count << std::endl;
EvtParticle* Bpeng = nullptr;
//int bnum=0;
int pengcount = 0;
if ( ( ( bId1a == strangeid ) && ( bId1b == 22 ) ) ||
( ( bId1a == antistrangeid ) && ( bId1b == 22 ) ) ||
( ( bId1b == strangeid ) && ( bId1a == 22 ) ) ||
( ( bId1b == antistrangeid ) && ( bId1a == 22 ) ) ) {
Bpeng = B1;
//bnum=1;
pengcount++;
}
if ( ( ( bId2a == strangeid ) && ( bId2b == 22 ) ) ||
( ( bId2a == antistrangeid ) && ( bId2b == 22 ) ) ||
( ( bId2b == strangeid ) && ( bId2a == 22 ) ) ||
( ( bId2b == antistrangeid ) && ( bId2a == 22 ) ) ) {
Bpeng = B2;
//bnum=2;
pengcount++;
}
if ( pengcount == 0 ) {
Bpeng = B1;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "No penguin decay for event " << count << std::endl;
//bnum=0;
} else if ( pengcount == 2 ) {
Bpeng = B1;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Two penguin decays in event " << count << std::endl;
//bnum=0;
}
Bmulti = Bpeng->getNDaug();
//EvtParticle *Ks = Bpeng->getDaug(0);
//EvtParticle *gam = Bpeng->getDaug(1);
//EvtVector4R p4Ks = Ks->getP4Lab();
//const EvtVector4R& p4gam = gam->getP4(); // gamma 4-mom in parent's rest frame
//EvtId BId = Bpeng->getId();
//EvtId KsId = Ks->getId();
//int Ksmulti = Ks->getNDaug();
//EvtId gamId = gam->getId();
//int bId = EvtPDL::getStdHep(BId);
//int XId = EvtPDL::getStdHep(KsId);
//int gId = EvtPDL::getStdHep(gamId);
//double KsMass = p4Ks.mass();
//double gmass = p4gam.mass();
//double genergy = p4gam.get(0);
// debug stuff: EvtGenReport(EVTGEN_INFO,"EvtGen") << "bnum=" << bnum << " pengcount=" << pengcount << " bId=" << bId << " Bmulti=" << Bmulti << " KsId=" << XId << " gId=" << gId << std::endl;
//tuple->column("bnum", bnum);
//tuple->column("pengcount", pengcount);
//tuple->column("bId", bId);
//tuple->column("Bmulti", Bmulti);
//tuple->column("KsId", XId);
//tuple->column("gId", gId);
//tuple->column("KsMass", KsMass);
//tuple->column("Ksmulti", Ksmulti);
//tuple->column("gmass", gmass);
//tuple->column("genergy", genergy);
//for(int i=0;igetDaug(i);
//EvtVector4R p4KsDaug = KsDaug->getP4Lab();
//EvtId KsDaugId = KsDaug->getId();
//int XDaugId = EvtPDL::getStdHep(KsDaugId);
//double KsDaugMass = p4KsDaug.mass();
//tuple->column("KsDaugId", XDaugId);
//tuple->column("KsDaugMass", KsDaugMass);
//}
//tuple->dumpData();
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "End EvtGen. Ran on " << nevent << " events." << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runCheckRotBoost()
{
EvtDiracSpinor sp1, sp2;
//Generate ryd/lange random spinors.
sp1.set( EvtComplex( 1.0, -2.0 ), EvtComplex( 3.0, 1.0 ),
EvtComplex( -4.5, 0.5 ), EvtComplex( 0.2, -0.5 ) );
sp2.set( EvtComplex( 0.1, -1.0 ), EvtComplex( 1.2, -0.5 ),
EvtComplex( 3.6, 1.8 ), EvtComplex( -0.2, -0.6 ) );
EvtComplex s = EvtLeptonSCurrent( sp1, sp2 );
EvtComplex p = EvtLeptonPCurrent( sp1, sp2 );
EvtVector4C a = EvtLeptonACurrent( sp1, sp2 );
EvtVector4C v = EvtLeptonVCurrent( sp1, sp2 );
EvtVector4C va = EvtLeptonVACurrent( sp1, sp2 );
EvtTensor4C t = EvtLeptonTCurrent( sp1, sp2 );
//start with boosts...
EvtVector4R ranBoost( 2.0, 0.4, -0.8, 0.3 );
EvtDiracSpinor sp1Boost = boostTo( sp1, ranBoost );
EvtDiracSpinor sp2Boost = boostTo( sp2, ranBoost );
EvtComplex sBoost = EvtLeptonSCurrent( sp1Boost, sp2Boost );
EvtComplex pBoost = EvtLeptonPCurrent( sp1Boost, sp2Boost );
EvtVector4C aBoost = EvtLeptonACurrent( sp1Boost, sp2Boost );
EvtVector4C vBoost = EvtLeptonVCurrent( sp1Boost, sp2Boost );
EvtVector4C vaBoost = EvtLeptonVACurrent( sp1Boost, sp2Boost );
EvtTensor4C tBoost = EvtLeptonTCurrent( sp1Boost, sp2Boost );
EvtVector4C aDirBoost = boostTo( a, ranBoost );
EvtVector4C vDirBoost = boostTo( v, ranBoost );
EvtVector4C vaDirBoost = boostTo( va, ranBoost );
EvtTensor4C tDirBoost( t );
tDirBoost.applyBoostTo( ranBoost );
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Comparing after doing a random boost" << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Scalar " << s << " " << sBoost << s - sBoost << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "PseudoScalar " << p << " " << pBoost << p - pBoost << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "AxialVector " << aDirBoost << " " << aBoost << aDirBoost - aBoost
<< std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Vector " << vDirBoost << " " << vBoost << vDirBoost - vBoost
<< std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "V-A " << vaDirBoost << " " << vaBoost << vaDirBoost - vaBoost
<< std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Tensor " << tDirBoost << " " << tBoost << tDirBoost - tBoost
<< std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Done comparing after doing a random boost" << std::endl;
//Now do rotations...
//start with boosts...
double alpha = 0.4;
double beta = -0.61;
double gamma = 3.0;
EvtDiracSpinor sp1Rot = rotateEuler( sp1, alpha, beta, gamma );
EvtDiracSpinor sp2Rot = rotateEuler( sp2, alpha, beta, gamma );
EvtComplex sRot = EvtLeptonSCurrent( sp1Rot, sp2Rot );
EvtComplex pRot = EvtLeptonPCurrent( sp1Rot, sp2Rot );
EvtVector4C aRot = EvtLeptonACurrent( sp1Rot, sp2Rot );
EvtVector4C vRot = EvtLeptonVCurrent( sp1Rot, sp2Rot );
EvtVector4C vaRot = EvtLeptonVACurrent( sp1Rot, sp2Rot );
EvtTensor4C tRot = EvtLeptonTCurrent( sp1Rot, sp2Rot );
EvtVector4C aDirRot( a );
EvtVector4C vDirRot( v );
EvtVector4C vaDirRot( va );
EvtTensor4C tDirRot( t );
aDirRot.applyRotateEuler( alpha, beta, gamma );
vDirRot.applyRotateEuler( alpha, beta, gamma );
vaDirRot.applyRotateEuler( alpha, beta, gamma );
tDirRot.applyRotateEuler( alpha, beta, gamma );
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Comparing after doing a random rotation" << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Scalar " << s << " " << sRot << s - sRot << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "PseudoScalar " << p << " " << pRot << p - pRot << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "AxialVector " << aDirRot << " "
<< aRot << aDirRot - aRot << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Vector " << vDirRot << " " << vRot << vDirRot - vRot << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "V-A " << vaDirRot << " " << vaRot << vaDirRot - vaRot << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Tensor " << tDirRot << " " << tRot << tDirRot - tRot << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" )
<< "Done comparing after doing a random rotation" << std::endl;
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
int countInclusive( std::string name, EvtParticle* root_part, TH1F* mom,
TH1F* mass )
{
EvtParticle* p = root_part;
int temp = 0;
EvtId searchFor = EvtPDL::getId( name );
do {
EvtId type = p->getId();
if ( type == searchFor ) {
temp += 1;
if ( mom )
mom->Fill( p->getP4Lab().d3mag() );
if ( mass )
mass->Fill( p->mass() );
//if ( theBs.contains(p->getParent()->getId()) ) {
//dirPsimom->Fill(p->getP4Lab().d3mag());
//}
//EvtGenReport(EVTGEN_INFO,"EvtGen") << "LANGE " << p->getP4Lab().d3mag() << " " << p->getP4Lab().get(3)/p->getP4Lab().d3mag() << std::endl;
}
p = p->nextIter( root_part );
} while ( p != nullptr );
return temp;
}
int countInclusiveSubTree( std::string name, EvtParticle* root_part,
EvtIdSet setIds, TH1F* /*mom*/ )
{
int temp = 0;
EvtParticle* p = root_part;
do {
if ( setIds.contains( p->getId() ) ) {
temp += countInclusive( name, p );
}
//p->printTree();
p = p->nextIter( root_part );
} while ( p != nullptr );
//EvtGenReport(EVTGEN_INFO,"EvtGen") << "done"<getId();
if ( type == searchFor ) {
if ( p->getParent() ) {
if ( setIds.contains( p->getParent()->getId() ) ) {
temp += 1;
if ( mom )
mom->Fill( p->getP4Lab().d3mag() );
}
}
}
p = p->nextIter( root_part );
} while ( p != nullptr );
return temp;
}
void runBMix( int nevent, EvtGen& myGenerator, std::string userFile,
std::string rootFile )
{
TFile* file = new TFile( rootFile.c_str(), "RECREATE" );
TH1F* b0_b0 = new TH1F( "h1", "dt B0-B0", 100, -15.0, 15.0 );
TH1F* b0b_b0b = new TH1F( "h2", "dt B0B-B0B", 100, -15.0, 15.0 );
TH1F* b0b_b0 = new TH1F( "h3", "dt B0B-B0", 100, -15.0, 15.0 );
TH1F* b0_b0b = new TH1F( "h4", "dt B0-B0B", 100, -15.0, 15.0 );
int count = 1;
myGenerator.readUDecay( userFile.c_str() );
EvtId b0 = EvtPDL::getId( "B0" );
EvtId b0b = EvtPDL::getId( "anti-B0" );
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
std::ofstream outmix;
TString outFileName( rootFile.c_str() );
outFileName.ReplaceAll( ".root", ".dat" );
outmix.open( outFileName.Data() );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
EvtId id1 = root_part->getDaug( 0 )->getId();
EvtId id2 = root_part->getDaug( 1 )->getId();
double t1 = root_part->getDaug( 0 )->getLifetime();
double t2 = root_part->getDaug( 1 )->getLifetime();
double dt = ( t1 - t2 ) / ( 1e-12 * 3e11 );
if ( id1 == b0 && id2 == b0 ) {
b0_b0->Fill( dt );
outmix << dt << " 1" << std::endl;
}
if ( id1 == b0b && id2 == b0b ) {
b0b_b0b->Fill( dt );
outmix << dt << " 2" << std::endl;
}
if ( id1 == b0b && id2 == b0 ) {
b0b_b0->Fill( dt );
outmix << dt << " 0" << std::endl;
}
if ( id1 == b0 && id2 == b0b ) {
b0_b0b->Fill( dt );
outmix << dt << " 0" << std::endl;
}
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
outmix.close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runDDalitz( int nevent, EvtGen& myGenerator )
{
TFile* file = new TFile( "ddalitz.root", "RECREATE" );
TH2F* dalitz = new TH2F( "h1", "m^2!?[K-[p]+! vs m^2!?[K-[p]0!", 70, 0.0,
3.5, 70, 0.0, 3.5 );
TH2F* dalitz2 = new TH2F( "h5", "m^2!([p]^-![p]^0!) vs m^2!([K-[p]+!", 100,
0.0, 3.5, 100, 0.0, 2.0 );
TH1F* m12 = new TH1F( "h2", "m?[K-[p]+!", 100, 0.0, 3.0 );
TH1F* m13 = new TH1F( "h3", "m?[K-[p]0!", 100, 0.0, 3.0 );
TH1F* m23 = new TH1F( "h4", "m?[[p]+[p]0!", 100, 0.0, 2.0 );
int count;
myGenerator.readUDecay( "exampleFiles/DDALITZ.DEC" );
count = 1;
static EvtId D0 = EvtPDL::getId( std::string( "D0" ) );
std::ofstream outmix;
outmix.open( "ddalitz.dat" );
do {
EvtVector4R p_init( EvtPDL::getMass( D0 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( D0, p_init );
root_part->setDiagonalSpinDensity();
myGenerator.generateDecay( root_part );
EvtVector4R p1 = root_part->getDaug( 0 )->getP4Lab();
EvtVector4R p2 = root_part->getDaug( 1 )->getP4Lab();
EvtVector4R p3 = root_part->getDaug( 2 )->getP4Lab();
dalitz->Fill( ( p1 + p2 ).mass2(), ( p1 + p3 ).mass2(), 1.0 );
dalitz2->Fill( ( p1 + p2 ).mass2(), ( p2 + p3 ).mass2(), 1.0 );
m12->Fill( ( p1 + p2 ).mass2() );
m13->Fill( ( p1 + p3 ).mass2() );
m23->Fill( ( p2 + p3 ).mass2() );
outmix << ( p1 + p2 ).mass2() << " " << ( p2 + p3 ).mass2() << " "
<< ( p1 + p3 ).mass2() << std::endl;
root_part->deleteTree();
if ( count == nevent - 1 ) {
std::ofstream testi( "testi.dat" );
double val = m12->GetMean();
double errval = m12->GetMeanError();
testi << "evtgenlhc_test1 1 " << val << " " << errval
<< std::endl;
val = m23->GetMean();
errval = m23->GetMeanError();
testi << "evtgenlhc_test1 2 " << val << " " << errval
<< std::endl;
}
} while ( count++ < nevent );
file->Write();
file->Close();
outmix.close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runPiPiPi( int nevent, EvtGen& myGenerator )
{
std::ofstream outmix;
outmix.open( "pipipi.dat" );
int count;
EvtVector4R p4pip, p4pim, p4pi0;
myGenerator.readUDecay( "exampleFiles/PIPIPI.DEC" );
count = 1;
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
p4pip = root_part->getDaug( 0 )->getDaug( 0 )->getP4Lab();
p4pim = root_part->getDaug( 0 )->getDaug( 1 )->getP4Lab();
p4pi0 = root_part->getDaug( 0 )->getDaug( 2 )->getP4Lab();
outmix << root_part->getDaug( 0 )->getLifetime() << " "
<< root_part->getDaug( 1 )->getLifetime() << " ";
outmix << ( p4pip + p4pim ).mass2() << " " << ( p4pip + p4pi0 ).mass2()
<< std::endl;
root_part->deleteTree();
} while ( count++ < nevent );
outmix.close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runSingleB( int nevent, EvtGen& myGenerator )
{
int count;
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
count = 1;
do {
EvtVector4R p_init( EvtPDL::getMass( B0 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( B0, p_init );
root_part->setDiagonalSpinDensity();
myGenerator.generateDecay( root_part );
root_part->deleteTree();
} while ( count++ < nevent );
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runPiPiPiPi( int nevent, EvtGen& myGenerator )
{
std::ofstream outmix;
outmix.open( "pipipipi.dat" );
int count;
EvtVector4R p4pi1, p4pi2, p4pi3, p4pi4;
myGenerator.readUDecay( "exampleFiles/PIPIPIPI.DEC" );
count = 1;
EvtParticle *bcp, *btag;
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
static EvtId B0B = EvtPDL::getId( std::string( "anti-B0" ) );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
if ( root_part->getDaug( 0 )->getNDaug() == 3 ) {
btag = root_part->getDaug( 0 );
bcp = root_part->getDaug( 1 );
} else {
bcp = root_part->getDaug( 0 );
btag = root_part->getDaug( 1 );
}
EvtId tag; //cp tag
if ( btag->getId() == B0B ) {
tag = B0;
} else {
tag = B0B;
}
p4pi1 = bcp->getDaug( 0 )->getP4Lab();
p4pi2 = bcp->getDaug( 1 )->getP4Lab();
p4pi3 = bcp->getDaug( 2 )->getP4Lab();
p4pi4 = bcp->getDaug( 3 )->getP4Lab();
EvtVector4R p4bcp, p4rho0, p4a2;
p4rho0 = p4pi1 + p4pi2;
p4a2 = p4rho0 + p4pi3;
p4bcp = p4a2 + p4pi4;
outmix << bcp->getLifetime() << " " << btag->getLifetime() << " "
<< tag.getId() << " " << ( p4pi1 + p4pi2 + p4pi3 ).mass() << " "
<< ( p4pi1 + p4pi2 ).mass() << " "
<< EvtDecayAngle( p4bcp, p4rho0 + p4pi3, p4rho0 ) << " "
<< EvtDecayAngle( p4a2, p4pi1 + p4pi2, p4pi1 ) << std::endl;
root_part->deleteTree();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "count:" << count << std::endl;
} while ( count++ < nevent );
outmix.close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runA2Pi( int nevent, EvtGen& myGenerator )
{
std::ofstream outmix;
outmix.open( "a2pi.dat" );
int count;
myGenerator.readUDecay( "exampleFiles/A2PI.DEC" );
EvtParticle *bcp, *btag;
EvtParticle *a2, *rho0, *pi1, *pi2, *pi3, *pi4;
EvtVector4R p4bcp, p4a2, p4rho0, p4pi1, p4pi2, p4pi3, p4pi4;
count = 1;
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
static EvtId B0B = EvtPDL::getId( std::string( "anti-B0" ) );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
if ( root_part->getDaug( 0 )->getNDaug() == 3 ) {
btag = root_part->getDaug( 0 );
bcp = root_part->getDaug( 1 );
} else {
bcp = root_part->getDaug( 0 );
btag = root_part->getDaug( 1 );
}
a2 = bcp->getDaug( 0 );
pi1 = bcp->getDaug( 1 );
rho0 = a2->getDaug( 0 );
pi2 = a2->getDaug( 1 );
pi3 = rho0->getDaug( 0 );
pi4 = rho0->getDaug( 1 );
p4bcp = bcp->getP4Lab();
p4a2 = a2->getP4Lab();
p4pi1 = pi1->getP4Lab();
p4rho0 = rho0->getP4Lab();
p4pi2 = pi2->getP4Lab();
p4pi3 = pi3->getP4Lab();
p4pi4 = pi4->getP4Lab();
EvtId tag; //cp tag
if ( btag->getId() == B0B ) {
tag = B0;
} else {
tag = B0B;
}
outmix << bcp->getLifetime() << " " << btag->getLifetime() << " "
<< EvtDecayAngle( p4bcp, p4rho0 + p4pi2, p4rho0 ) << " "
<< EvtDecayAngle( p4a2, p4pi3 + p4pi4, p4pi3 ) << " "
<< EvtPDL::getStdHep( tag ) << std::endl;
root_part->deleteTree();
} while ( count++ < nevent );
outmix.close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runHelAmp( int nevent, EvtGen& myGenerator, std::string userFile,
std::string rootFile )
{
TFile* file = new TFile( rootFile.c_str(), "RECREATE" );
TH1F* costheta = new TH1F( "h1", "costheta", 100, -1.0, 1.0 );
TH1F* costheta2 = new TH1F( "h2", "costheta2", 100, -1.0, 1.0 );
int count;
myGenerator.readUDecay( userFile.c_str() );
count = 1;
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
EvtVector4R d14 = root_part->getDaug( 0 )->getP4Lab();
double c = d14.get( 3 ) / d14.d3mag();
costheta->Fill( c );
EvtVector4R p = root_part->getP4Lab();
EvtVector4R q = root_part->getDaug( 0 )->getP4Lab();
EvtVector4R d = root_part->getDaug( 0 )->getDaug( 0 )->getP4Lab();
costheta2->Fill( EvtDecayAngle( p, q, d ) );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runHelAmp2( int nevent, EvtGen& myGenerator )
{
TFile* file = new TFile( "helamp2.root", "RECREATE" );
TH1F* costheta = new TH1F( "h1", "costheta", 100, -1.0, 1.0 );
int count;
myGenerator.readUDecay( "exampleFiles/HELAMP2.DEC" );
count = 1;
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
EvtVector4R p = root_part->getDaug( 0 )->getDaug( 0 )->getP4Lab();
EvtVector4R q =
root_part->getDaug( 0 )->getDaug( 0 )->getDaug( 0 )->getP4Lab();
EvtVector4R d = root_part->getDaug( 0 )
->getDaug( 0 )
->getDaug( 0 )
->getDaug( 0 )
->getP4Lab();
costheta->Fill( EvtDecayAngle( p, q, d ) );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runD2Pi( int nevent, EvtGen& myGenerator )
{
TFile* file = new TFile( "d2pi.root", "RECREATE" );
TH1F* cospi = new TH1F( "h1", "cos[Q]?[p]!", 50, -1.0, 1.0 );
TH1F* ptpi = new TH1F( "h2", "Pt of pion", 50, 0.0, 1.5 );
TH1F* ppi = new TH1F( "h3", "P?[p]! in [Y](4S) rest frame", 50, 0.0, 1.5 );
int count;
myGenerator.readUDecay( "exampleFiles/D2PI.DEC" );
EvtParticle* b;
EvtParticle *d2, *pi;
EvtVector4R p4b, p4d2, p4pi;
count = 1;
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
b = root_part->getDaug( 0 );
d2 = b->getDaug( 0 );
pi = d2->getDaug( 1 );
p4b = b->getP4Lab();
p4d2 = d2->getP4Lab();
p4pi = pi->getP4Lab();
cospi->Fill( EvtDecayAngle( p4b, p4d2, p4pi ) );
ptpi->Fill( sqrt( p4pi.get( 2 ) * p4pi.get( 2 ) +
p4pi.get( 3 ) * p4pi.get( 3 ) ) );
ppi->Fill( p4pi.d3mag() );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runPiPiCPT( int nevent, EvtGen& myGenerator )
{
std::ofstream outmix;
outmix.open( "pipicpt.dat" );
int count;
myGenerator.readUDecay( "exampleFiles/PIPICPT.DEC" );
EvtParticle *bcp, *btag;
count = 1;
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
static EvtId B0B = EvtPDL::getId( std::string( "anti-B0" ) );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
if ( root_part->getDaug( 0 )->getNDaug() == 3 ) {
btag = root_part->getDaug( 0 );
bcp = root_part->getDaug( 1 );
} else {
bcp = root_part->getDaug( 0 );
btag = root_part->getDaug( 1 );
}
EvtId tag; //cp tag
if ( btag->getId() == B0B ) {
tag = B0;
} else {
tag = B0B;
}
outmix << bcp->getLifetime() << " " << btag->getLifetime() << " "
<< tag.getId() << std::endl;
root_part->deleteTree();
} while ( count++ < nevent );
outmix.close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runJpsiKs( int nevent, EvtGen& myGenerator )
{
std::ofstream outmix;
outmix.open( "jpsiks.dat" );
int count;
myGenerator.readUDecay( "exampleFiles/JPSIKS.DEC" );
EvtParticle *bcp, *btag;
count = 1;
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId B0 = EvtPDL::getId( std::string( "B0" ) );
static EvtId B0B = EvtPDL::getId( std::string( "anti-B0" ) );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
if ( root_part->getDaug( 0 )->getNDaug() == 3 ) {
btag = root_part->getDaug( 0 );
bcp = root_part->getDaug( 1 );
} else {
bcp = root_part->getDaug( 0 );
btag = root_part->getDaug( 1 );
}
EvtId tag; //cp tag
if ( btag->getId() == B0B ) {
tag = B0;
} else {
tag = B0B;
}
outmix << bcp->getLifetime() << " " << btag->getLifetime() << " "
<< tag.getId() << std::endl;
root_part->deleteTree();
} while ( count++ < nevent );
outmix.close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runDump( int nevent, EvtGen& myGenerator )
{
int count;
std::ofstream outmix;
outmix.open( "dump.dat" );
EvtParticle* p;
myGenerator.readUDecay( "exampleFiles/DUMP.DEC" );
count = 1;
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId PIP = EvtPDL::getId( std::string( "pi+" ) );
static EvtId PIM = EvtPDL::getId( std::string( "pi-" ) );
static EvtId EP = EvtPDL::getId( std::string( "e+" ) );
static EvtId KP = EvtPDL::getId( std::string( "K+" ) );
static EvtId MUP = EvtPDL::getId( std::string( "mu+" ) );
static EvtId EM = EvtPDL::getId( std::string( "e-" ) );
static EvtId KM = EvtPDL::getId( std::string( "K-" ) );
static EvtId MUM = EvtPDL::getId( std::string( "mu-" ) );
static EvtId GAMM = EvtPDL::getId( std::string( "gamma" ) );
static EvtId K0L = EvtPDL::getId( std::string( "K_L0" ) );
do {
if ( count == 100 * ( count / 100 ) ) {
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << count << std::endl;
}
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
p = root_part;
EvtParticle* otherb = root_part->getDaug( 1 );
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "Event:" << count << std::endl;
root_part->printTree();
outmix << "B"
<< " " << otherb->getP4Lab().get( 0 ) << " "
<< otherb->getP4Lab().get( 1 ) << " "
<< otherb->getP4Lab().get( 2 ) << " "
<< otherb->getP4Lab().get( 3 ) << std::endl;
do {
if ( p->getId() == PIP || p->getId() == EP || p->getId() == KP ||
p->getId() == MUP ) {
outmix << "chg +1"
<< " " << p->getP4Lab().get( 1 ) << " "
<< p->getP4Lab().get( 2 ) << " "
<< p->getP4Lab().get( 3 ) << std::endl;
}
if ( p->getId() == PIM || p->getId() == EM || p->getId() == KM ||
p->getId() == MUM ) {
outmix << "chg -1"
<< " " << p->getP4Lab().get( 1 ) << " "
<< p->getP4Lab().get( 2 ) << " "
<< p->getP4Lab().get( 3 ) << std::endl;
}
if ( p->getId() == GAMM || p->getId() == K0L ) {
outmix << "neu"
<< " " << p->getP4Lab().get( 1 ) << " "
<< p->getP4Lab().get( 2 ) << " "
<< p->getP4Lab().get( 3 ) << std::endl;
}
p = p->nextIter();
} while ( p != nullptr );
outmix << "event" << std::endl;
root_part->deleteTree();
} while ( count++ < nevent );
outmix.close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runGenericCont( int nevent, EvtGen& myGenerator )
{
int count;
std::ofstream outmix;
outmix.open( "genericcont.dat" );
EvtParticle* p;
myGenerator.readUDecay( "exampleFiles/GENERIC.DEC" );
count = 1;
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
static EvtId VPHO = EvtPDL::getId( std::string( "vpho" ) );
do {
if ( count == 1000 * ( count / 1000 ) ) {
EvtGenReport( EVTGEN_DEBUG, "EvtGen" ) << count << std::endl;
}
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( VPHO,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
p = root_part;
do {
outmix << p->getId().getId() << " " << p->getP4Lab().d3mag()
<< std::endl;
p = p->nextIter();
} while ( p != nullptr );
//root_part->printTree();
root_part->deleteTree();
} while ( count++ < nevent );
outmix.close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runD1( int nevent, EvtGen& myGenerator )
{
std::ofstream outmix;
outmix.open( "d1.dat" );
int count = 1;
myGenerator.readUDecay( "exampleFiles/D1.DEC" );
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
EvtParticle *p_b, *p_d1, *p_e, *p_nu, *p_pi1, *p_dstar, *p_pi2, *p_d;
EvtVector4R p4_b, p4_d1, p4_e, p4_nu, p4_pi1, p4_dstar, p4_pi2, p4_d;
// code for analyzing B->D1 e nu ; D1 -> D* pi ; D* -> D pi
p_b = root_part->getDaug( 1 );
p_d1 = p_b->getDaug( 0 );
p_e = p_b->getDaug( 1 );
p_nu = p_b->getDaug( 2 );
p_dstar = p_d1->getDaug( 0 );
p_pi1 = p_d1->getDaug( 1 );
p_d = p_dstar->getDaug( 0 );
p_pi2 = p_dstar->getDaug( 1 );
p4_b = p_b->getP4Lab();
p4_d1 = p_d1->getP4Lab();
p4_e = p_e->getP4Lab();
p4_nu = p_nu->getP4Lab();
p4_dstar = p_dstar->getP4Lab();
p4_pi1 = p_pi1->getP4Lab();
p4_pi2 = p_pi2->getP4Lab();
p4_d = p_d->getP4Lab();
outmix << p4_e.get( 0 ) << " ";
outmix << ( p4_e + p4_nu ) * ( p4_e + p4_nu ) << " ";
outmix << EvtDecayAngle( p4_b, p4_e + p4_nu, p4_e ) << " ";
outmix << EvtDecayAngle( p4_b, p4_dstar + p4_pi1, p4_dstar ) << " ";
outmix << EvtDecayAngle( p4_d1, p4_d + p4_pi2, p4_d ) << " ";
outmix << EvtDecayAngleChi( p4_b, p4_e, p4_nu, p4_dstar, p4_pi1 ) << "\n";
root_part->deleteTree();
EvtGenReport( EVTGEN_DEBUG, "EvtGen" ) << "count:" << count << std::endl;
} while ( count++ < nevent );
outmix.close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runMix( int nevent, EvtGen& myGenerator )
{
std::ofstream outmix;
outmix.open( "mix.dat" );
int count = 1;
myGenerator.readUDecay( "exampleFiles/MIX.DEC" );
static EvtId UPS4 = EvtPDL::getId( std::string( "Upsilon(4S)" ) );
do {
EvtVector4R p_init( EvtPDL::getMass( UPS4 ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( UPS4,
p_init );
root_part->setVectorSpinDensity();
myGenerator.generateDecay( root_part );
outmix << root_part->getDaug( 0 )->getId().getId() << " ";
outmix << root_part->getDaug( 0 )->getLifetime() << " ";
outmix << root_part->getDaug( 1 )->getId().getId() << " ";
outmix << root_part->getDaug( 1 )->getLifetime() << "\n";
root_part->deleteTree();
} while ( count++ < nevent );
outmix.close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runBaryonic( int nEvent, EvtGen& myGenerator )
{
TFile* f = new TFile( "baryonic.root", "RECREATE" );
TH1D* q2Hist = new TH1D( "q2Hist", "q square", 50, 0.0, 25.00 );
EvtId BMINUS = EvtPDL::getId( "B-" );
EvtVector4R p_init( EvtPDL::getMass( BMINUS ), 0.0, 0.0, 0.0 );
EvtParticle* root_part;
myGenerator.readUDecay( "exampleFiles/BARYONIC.DEC" );
EvtVector4R l;
EvtVector4R p;
EvtVector4R g;
EvtVector4R sum;
for ( int i = 0; i < nEvent; ++i ) {
root_part = EvtParticleFactory::particleFactory( BMINUS, p_init );
root_part->setDiagonalSpinDensity();
myGenerator.generateDecay( root_part );
l = root_part->getDaug( 0 )->getP4Lab(); // lambda momentum
p = root_part->getDaug( 1 )->getP4Lab(); // pBar momentum
g = root_part->getDaug( 2 )->getP4Lab(); // gamma momentum
sum = p + g;
q2Hist->Fill( sum.mass2() );
root_part->deleteTree();
}
f->Write();
f->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runPhspDecaytimeCut( int nevent, EvtGen& myGenerator )
{
TFile* file = new TFile( "phspdecaytimecut.root", "RECREATE" );
TH1F* thist = new TH1F( "h1", "t [ps]", 100, 0.0, 10.0 );
int count = 1;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/PhspDecaytimeCut.DEC" );
myGenerator.readUDecay( udecay_name );
static EvtId B = EvtPDL::getId( std::string( "B+" ) );
std::ofstream outmix;
do {
EvtVector4R pinit( EvtPDL::getMass( B ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( B, pinit );
myGenerator.generateDecay( root_part );
double t = root_part->getLifetime() / ( 1e-12 * EvtConst::c );
thist->Fill( t );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void run3BPhspRegion( int nevent, EvtGen& myGenerator )
{
TFile* file = new TFile( "3BodyPhspRegion.root", "RECREATE" );
TH1F* pxhist = new TH1F( "h1", "p_x ", 100, -3.0, 3.0 );
TH1F* pyhist = new TH1F( "h2", "p_y ", 100, -3.0, 3.0 );
TH1F* pzhist = new TH1F( "h3", "p_z ", 100, -3.0, 3.0 );
TH2F* dalitz = new TH2F( "h4", "Dalitz", 50, 12.5, 27., 50, 0.35, 4.8 );
TH2F* pxpyhist = new TH2F( "h5", "px-py", 50, -1.8, 1.8, 50, -1.8, 1.8 );
TH2F* pxpzhist = new TH2F( "h6", "px-pz", 50, -1.8, 1.8, 50, -1.8, 1.8 );
TH2F* pypzhist = new TH2F( "h7", "py-pz", 50, -1.8, 1.8, 50, -1.8, 1.8 );
int count = 1;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/3BodyPhspRegion.DEC" );
myGenerator.readUDecay( udecay_name );
static EvtId B = EvtPDL::getId( std::string( "B+" ) );
std::ofstream outmix;
do {
EvtVector4R pinit( EvtPDL::getMass( B ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( B, pinit );
myGenerator.generateDecay( root_part );
EvtParticle* daug1 = root_part->getDaug( 0 );
EvtParticle* daug2 = root_part->getDaug( 1 );
EvtParticle* daug3 = root_part->getDaug( 2 );
pxhist->Fill( daug1->getP4().get( 1 ) );
pyhist->Fill( daug1->getP4().get( 2 ) );
pzhist->Fill( daug1->getP4().get( 3 ) );
pxpyhist->Fill( daug1->getP4().get( 1 ), daug1->getP4().get( 2 ) );
pxpzhist->Fill( daug1->getP4().get( 1 ), daug1->getP4().get( 3 ) );
pypzhist->Fill( daug1->getP4().get( 2 ), daug1->getP4().get( 3 ) );
double m12 = ( daug1->getP4() + daug2->getP4() ).mass();
double m23 = ( daug2->getP4() + daug3->getP4() ).mass();
dalitz->Fill( m12 * m12, m23 * m23 );
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
void runFourBody( int nevent, EvtGen& myGenerator )
{
TFile* file = new TFile( "fourBody.root", "RECREATE" );
double m12, m13, m14, m23, m24, m34, m123, m124, m234;
double mB, m1, m2, m3, m4;
double pBe, pBx, pBy, pBz;
double p1e, p1x, p1y, p1z;
double p2e, p2x, p2y, p2z;
double p3e, p3x, p3y, p3z;
double p4e, p4x, p4y, p4z;
double theta1, theta3, chi;
TTree* tree = new TTree( "tree", "" );
tree->Branch( "m12", &m12, "m12/D" );
tree->Branch( "m13", &m13, "m13/D" );
tree->Branch( "m14", &m14, "m14/D" );
tree->Branch( "m23", &m23, "m23/D" );
tree->Branch( "m24", &m24, "m24/D" );
tree->Branch( "m34", &m34, "m34/D" );
tree->Branch( "m123", &m123, "m123/D" );
tree->Branch( "m124", &m124, "m124/D" );
tree->Branch( "m234", &m234, "m234/D" );
tree->Branch( "mB", &mB, "mB/D" );
tree->Branch( "m1", &m1, "m1/D" );
tree->Branch( "m2", &m2, "m2/D" );
tree->Branch( "m3", &m3, "m3/D" );
tree->Branch( "m4", &m4, "m4/D" );
tree->Branch( "pBe", &pBe, "pBe/D" );
tree->Branch( "pBx", &pBx, "pBx/D" );
tree->Branch( "pBy", &pBy, "pBy/D" );
tree->Branch( "pBz", &pBz, "pBz/D" );
tree->Branch( "p1e", &p1e, "p1e/D" );
tree->Branch( "p1x", &p1x, "p1x/D" );
tree->Branch( "p1y", &p1y, "p1y/D" );
tree->Branch( "p1z", &p1z, "p1z/D" );
tree->Branch( "p2e", &p2e, "p2e/D" );
tree->Branch( "p2x", &p2x, "p2x/D" );
tree->Branch( "p2y", &p2y, "p2y/D" );
tree->Branch( "p2z", &p2z, "p2z/D" );
tree->Branch( "p3e", &p3e, "p3e/D" );
tree->Branch( "p3x", &p3x, "p3x/D" );
tree->Branch( "p3y", &p3y, "p3y/D" );
tree->Branch( "p3z", &p3z, "p3z/D" );
tree->Branch( "p4e", &p4e, "p4e/D" );
tree->Branch( "p4x", &p4x, "p4x/D" );
tree->Branch( "p4y", &p4y, "p4y/D" );
tree->Branch( "p4z", &p4z, "p4z/D" );
tree->Branch( "theta1", &theta1, "theta1/D" );
tree->Branch( "theta3", &theta3, "theta3/D" );
tree->Branch( "chi", &chi, "chi/D" );
int count = 1;
char udecay_name[100];
strcpy( udecay_name, "exampleFiles/4BodyPhsp.DEC" );
myGenerator.readUDecay( udecay_name );
static EvtId B = EvtPDL::getId( std::string( "B+" ) );
do {
EvtVector4R pinit( EvtPDL::getMass( B ), 0.0, 0.0, 0.0 );
EvtParticle* root_part = EvtParticleFactory::particleFactory( B, pinit );
myGenerator.generateDecay( root_part );
mB = root_part->mass();
m1 = root_part->getDaug( 0 )->mass();
m2 = root_part->getDaug( 1 )->mass();
m3 = root_part->getDaug( 2 )->mass();
m4 = root_part->getDaug( 3 )->mass();
EvtParticle* daug1 = root_part->getDaug( 0 );
EvtParticle* daug2 = root_part->getDaug( 1 );
EvtParticle* daug3 = root_part->getDaug( 2 );
EvtParticle* daug4 = root_part->getDaug( 3 );
m12 = ( daug1->getP4() + daug2->getP4() ).mass();
m13 = ( daug1->getP4() + daug3->getP4() ).mass();
m14 = ( daug1->getP4() + daug4->getP4() ).mass();
m23 = ( daug2->getP4() + daug3->getP4() ).mass();
m24 = ( daug2->getP4() + daug4->getP4() ).mass();
m34 = ( daug3->getP4() + daug4->getP4() ).mass();
m123 = ( daug1->getP4() + daug2->getP4() + daug3->getP4() ).mass();
m124 = ( daug1->getP4() + daug2->getP4() + daug4->getP4() ).mass();
m234 = ( daug2->getP4() + daug3->getP4() + daug4->getP4() ).mass();
pBe = root_part->getP4().get( 0 );
pBx = root_part->getP4().get( 1 );
pBy = root_part->getP4().get( 2 );
pBz = root_part->getP4().get( 3 );
p1e = daug1->getP4().get( 0 );
p1x = daug1->getP4().get( 1 );
p1y = daug1->getP4().get( 2 );
p1z = daug1->getP4().get( 3 );
p2e = daug2->getP4().get( 0 );
p2x = daug2->getP4().get( 1 );
p2y = daug2->getP4().get( 2 );
p2z = daug2->getP4().get( 3 );
p3e = daug3->getP4().get( 0 );
p3x = daug3->getP4().get( 1 );
p3y = daug3->getP4().get( 2 );
p3z = daug3->getP4().get( 3 );
p4e = daug4->getP4().get( 0 );
p4x = daug4->getP4().get( 1 );
p4y = daug4->getP4().get( 2 );
p4z = daug4->getP4().get( 3 );
theta1 = EvtDecayAngle( root_part->getP4(),
daug1->getP4() + daug2->getP4(), daug1->getP4() );
theta3 = EvtDecayAngle( root_part->getP4(),
daug3->getP4() + daug4->getP4(), daug3->getP4() );
chi = EvtDecayAngleChi( root_part->getP4(), daug1->getP4(),
daug2->getP4(), daug3->getP4(), daug4->getP4() );
tree->Fill();
root_part->deleteTree();
} while ( count++ < nevent );
file->Write();
file->Close();
EvtGenReport( EVTGEN_INFO, "EvtGen" ) << "SUCCESS\n";
}
diff --git a/test/exampleFiles/A1PI.DEC b/test/exampleFiles/A1PI.DEC
index b11c625..f74cfc5 100644
--- a/test/exampleFiles/A1PI.DEC
+++ b/test/exampleFiles/A1PI.DEC
@@ -1,33 +1,33 @@
-noPhotos
+noFSR
Alias MYB B0
Alias MYantiB anti-B0
ChargeConj MYB MYantiB
CDecay MYantiB
Decay Upsilon(4S)
0.500 MYB anti-B0 VSS;
0.500 MYB B0 VSS;
Enddecay
Decay MYB
1.000 a_1- pi+ SVS_NONCPEIGEN 0.35 0.51e12 1.0 1.0 0.0 3.0 0.0 3.0 0.0 1.0 0.0;
1.000 a_1+ pi- SVS_NONCPEIGEN 0.35 0.51e12 1.0 3.0 0.0 1.0 0.0 1.0 0.0 3.0 0.0;
Enddecay
Decay anti-B0
1.000 D*+ e- anti-nu_e ISGW2;
Enddecay
Decay B0
1.000 D*- e+ nu_e ISGW2;
Enddecay
Decay D*+
Enddecay
Decay D*-
Enddecay
Decay a_1+
1.000 rho0 pi+ VVS_PWAVE 1.00 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay a_1-
1.000 rho0 pi- VVS_PWAVE 1.00 0.0 0.0 0.0 0.0 0.0;
Enddecay
Decay rho0
1.000 pi+ pi- VSS;
Enddecay
End
diff --git a/test/exampleFiles/A2PI.DEC b/test/exampleFiles/A2PI.DEC
index 9935497..a87aba1 100644
--- a/test/exampleFiles/A2PI.DEC
+++ b/test/exampleFiles/A2PI.DEC
@@ -1,53 +1,53 @@
-noPhotos
+noFSR
#Define a parmater dm for the B0B0bar mass difference
#
Define dm 0.51e12
#
#Define the CKM angle alpha
#
Define alpha 0.4
#
#Alias the neutral MYB to a B0
#the neutral MYB will decay to the CP mode of interest
#
Alias MYB B0
Alias MYantiB anti-B0
ChargeConj MYB MYantiB
CDecay MYantiB
#
Decay Upsilon(4S)
# two decays of the UPS4S with equal probabilities for B0 and B0B tags
0.50 MYB anti-B0 VSS;
0.50 MYB B0 VSS;
Enddecay
#
Decay MYB
1.000 a_2+ pi- STS_CP alpha dm 1 1.0 0.0 1.0 0.0;
Enddecay
#
Decay anti-B0
1.000 D*+ e- anti-nu_e ISGW2;
Enddecay
#
Decay B0
1.000 D*- e+ nu_e ISGW2;
Enddecay
#
# The statement below makes the D*+ a stable particle.
#
Decay D*+
Enddecay
#
# The statement below makes the D*- a stable particle.
#
Decay D*-
Enddecay
#
Decay a_2+
1.0000 rho0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0;
Enddecay
#
# Note this trailing "End" is important!
#
End
diff --git a/test/exampleFiles/BSQUARK.DEC b/test/exampleFiles/BSQUARK.DEC
index 9c204b8..d69b8c0 100644
--- a/test/exampleFiles/BSQUARK.DEC
+++ b/test/exampleFiles/BSQUARK.DEC
@@ -1,79 +1,79 @@
JetSetPar PARF(105)=3.2
#
#
Define theta 1.14
Define tanbeta 2.0
Define M 1000.0
Define mu 100
Define mchargino 100
#
#Decay vpho
#1.000 JSCONT 5;
#Enddecay
#
#
Decay anti-B0
-0.0490 D*+ e- anti-nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0210 D+ e- anti-nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0040 D_1+ e- anti-nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0040 D_0*+ e- anti-nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0070 D'_1+ e- anti-nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0070 D_2*+ e- anti-nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0490 D*+ mu- anti-nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0210 D+ mu- anti-nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0040 D_1+ mu- anti-nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0040 D_0*+ mu- anti-nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0070 D'_1+ mu- anti-nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0070 D_2*+ mu- anti-nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
+0.0490 D*+ e- anti-nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0210 D+ e- anti-nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0040 D_1+ e- anti-nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0040 D_0*+ e- anti-nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0070 D'_1+ e- anti-nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0070 D_2*+ e- anti-nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0490 D*+ mu- anti-nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
+0.0210 D+ mu- anti-nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
+0.0040 D_1+ mu- anti-nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
+0.0040 D_0*+ mu- anti-nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
+0.0070 D'_1+ mu- anti-nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
+0.0070 D_2*+ mu- anti-nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
Enddecay
#
#
Decay B0
-0.0490 D*- e+ nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0210 D- e+ nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0040 D_1- e+ nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0040 D_0*- e+ nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0070 D'_1- e+ nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0070 D_2*- e+ nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0490 D*- mu+ nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0210 D- mu+ nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0040 D_1- mu+ nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0040 D_0*- mu+ nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0070 D'_1- mu+ nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0070 D_2*- mu+ nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
+0.0490 D*- e+ nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0210 D- e+ nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0040 D_1- e+ nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0040 D_0*- e+ nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0070 D'_1- e+ nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0070 D_2*- e+ nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0490 D*- mu+ nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
+0.0210 D- mu+ nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
+0.0040 D_1- mu+ nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
+0.0040 D_0*- mu+ nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
+0.0070 D'_1- mu+ nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
+0.0070 D_2*- mu+ nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
Enddecay
#
Decay B-
-0.0490 D*0 e- anti-nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0210 D0 e- anti-nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0040 D_10 e- anti-nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0040 D_0*0 e- anti-nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0070 D'_10 e- anti-nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0070 D_2*0 e- anti-nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
+0.0490 D*0 e- anti-nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0210 D0 e- anti-nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0040 D_10 e- anti-nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0040 D_0*0 e- anti-nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0070 D'_10 e- anti-nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0070 D_2*0 e- anti-nu_e FSR BSQUARK theta tanbeta M mu mchargino;
#
-0.0490 D*0 mu- anti-nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0210 D0 mu- anti-nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0040 D_10 mu- anti-nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0040 D_0*0 mu- anti-nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0070 D'_10 mu- anti-nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0070 D_2*0 mu- anti-nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
+0.0490 D*0 mu- anti-nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
+0.0210 D0 mu- anti-nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
+0.0040 D_10 mu- anti-nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
+0.0040 D_0*0 mu- anti-nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
+0.0070 D'_10 mu- anti-nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
+0.0070 D_2*0 mu- anti-nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
Enddecay
#
#
Decay B+
-0.0490 anti-D*0 e+ nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0210 anti-D0 e+ nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0040 anti-D_10 e+ nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0040 anti-D_0*0 e+ nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0070 anti-D'_10 e+ nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0070 anti-D_2*0 e+ nu_e PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0490 anti-D*0 mu+ nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0210 anti-D0 mu+ nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0040 anti-D_10 mu+ nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0040 anti-D_0*0 mu+ nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0070 anti-D'_10 mu+ nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
-0.0070 anti-D_2*0 mu+ nu_mu PHOTOS BSQUARK theta tanbeta M mu mchargino;
+0.0490 anti-D*0 e+ nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0210 anti-D0 e+ nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0040 anti-D_10 e+ nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0040 anti-D_0*0 e+ nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0070 anti-D'_10 e+ nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0070 anti-D_2*0 e+ nu_e FSR BSQUARK theta tanbeta M mu mchargino;
+0.0490 anti-D*0 mu+ nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
+0.0210 anti-D0 mu+ nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
+0.0040 anti-D_10 mu+ nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
+0.0040 anti-D_0*0 mu+ nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
+0.0070 anti-D'_10 mu+ nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
+0.0070 anti-D_2*0 mu+ nu_mu FSR BSQUARK theta tanbeta M mu mchargino;
Enddecay
#
#
End
diff --git a/test/exampleFiles/Btousemileptonic.dec b/test/exampleFiles/Btousemileptonic.dec
index b8521db..947d389 100644
--- a/test/exampleFiles/Btousemileptonic.dec
+++ b/test/exampleFiles/Btousemileptonic.dec
@@ -1,43 +1,43 @@
Decay B0
#
# b -> u l nu
#
-0.000145 pi- e+ nu_e PHOTOS ISGW2; # PDG2014
-0.000294 rho- e+ nu_e PHOTOS ISGW2; # PDG2014
-0.000000 D(2S)- e+ nu_e PHOTOS ISGW2;
-0.000000 D*(2S)- e+ nu_e PHOTOS ISGW2;
+0.000145 pi- e+ nu_e FSR ISGW2; # PDG2014
+0.000294 rho- e+ nu_e FSR ISGW2; # PDG2014
+0.000000 D(2S)- e+ nu_e FSR ISGW2;
+0.000000 D*(2S)- e+ nu_e FSR ISGW2;
0.001892 Xu- e+ nu_e VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00;
#
-0.000145 pi- mu+ nu_mu PHOTOS ISGW2; # PDG2014 (electrons)
-0.000294 rho- mu+ nu_mu PHOTOS ISGW2; # PDG2014 (electrons)
-0.000000 D(2S)- mu+ nu_mu PHOTOS ISGW2;
-0.000000 D*(2S)- mu+ nu_mu PHOTOS ISGW2;
+0.000145 pi- mu+ nu_mu FSR ISGW2; # PDG2014 (electrons)
+0.000294 rho- mu+ nu_mu FSR ISGW2; # PDG2014 (electrons)
+0.000000 D(2S)- mu+ nu_mu FSR ISGW2;
+0.000000 D*(2S)- mu+ nu_mu FSR ISGW2;
0.001892 Xu- mu+ nu_mu VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00;
Enddecay
CDecay anti-B0
Decay B+
-0.00007800 pi0 e+ nu_e PHOTOS ISGW2; # PDG2014
-0.00003800 eta e+ nu_e PHOTOS ISGW2; # PDG2014
-0.00015800 rho0 e+ nu_e PHOTOS ISGW2; # PDG2014
-0.00011900 omega e+ nu_e PHOTOS ISGW2; # PDG2014
-0.000230 eta' e+ nu_e PHOTOS ISGW2; # PDG2014
-0.000000 anti-D(2S)0 e+ nu_e PHOTOS ISGW2;
-0.000000 anti-D*(2S)0 e+ nu_e PHOTOS ISGW2;
+0.00007800 pi0 e+ nu_e FSR ISGW2; # PDG2014
+0.00003800 eta e+ nu_e FSR ISGW2; # PDG2014
+0.00015800 rho0 e+ nu_e FSR ISGW2; # PDG2014
+0.00011900 omega e+ nu_e FSR ISGW2; # PDG2014
+0.000230 eta' e+ nu_e FSR ISGW2; # PDG2014
+0.000000 anti-D(2S)0 e+ nu_e FSR ISGW2;
+0.000000 anti-D*(2S)0 e+ nu_e FSR ISGW2;
0.001948 Xu0 e+ nu_e VUB 4.8 1.29 0.22 20 0.30 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51;
#
# For muons do same as for electrons
-0.00007800 pi0 mu+ nu_mu PHOTOS ISGW2;
-0.00003800 eta mu+ nu_mu PHOTOS ISGW2;
-0.00015800 rho0 mu+ nu_mu PHOTOS ISGW2;
-0.00011900 omega mu+ nu_mu PHOTOS ISGW2;
-0.000230 eta' mu+ nu_mu PHOTOS ISGW2;
-0.000000 anti-D(2S)0 mu+ nu_mu PHOTOS ISGW2;
-0.000000 anti-D*(2S)0 mu+ nu_mu PHOTOS ISGW2;
+0.00007800 pi0 mu+ nu_mu FSR ISGW2;
+0.00003800 eta mu+ nu_mu FSR ISGW2;
+0.00015800 rho0 mu+ nu_mu FSR ISGW2;
+0.00011900 omega mu+ nu_mu FSR ISGW2;
+0.000230 eta' mu+ nu_mu FSR ISGW2;
+0.000000 anti-D(2S)0 mu+ nu_mu FSR ISGW2;
+0.000000 anti-D*(2S)0 mu+ nu_mu FSR ISGW2;
0.0020454 Xu0 mu+ nu_mu VUB 4.8 1.29 0.22 20 0.30 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51;
#
Enddecay
CDecay B-
End
diff --git a/test/exampleFiles/DSEMILEPTONIC.DEC b/test/exampleFiles/DSEMILEPTONIC.DEC
index 3773393..b79f156 100644
--- a/test/exampleFiles/DSEMILEPTONIC.DEC
+++ b/test/exampleFiles/DSEMILEPTONIC.DEC
@@ -1,112 +1,112 @@
-# Turn of photos for this test
-noPhotos
+# Turn off fsr for this test
+noFSR
#
# Define model alias for the D semileptonic decays
# This should correspond to MV=2.1 GeV and MA1=MA2=2.5 GeV
# R2=0.85 RV=1.5
ModelAlias SLPOLE_DtoKstarlnu SLPOLE 1.00 -0.558 0.0 1.0
0.85 -0.558 0.0 1.0
1.50 -0.790 0.0 1.0
0.00 -0.558 0.0 1.0;
# The pole mass for the Cabibbo suppressed decays nees to be fixed!!!!!
# This should correspond to MV=2.1 GeV and MA1=MA2=2.5 GeV
# R2=0.6 RV=1.5
ModelAlias SLPOLE_Dtorhoomegalnu SLPOLE 1.00 -0.558 0.0 1.0
0.60 -0.558 0.0 1.0
1.50 -0.790 0.0 1.0
0.00 -0.558 0.0 1.0;
ModelAlias SLBKPOLE_DtoKlnu SLBKPOLE 1.0 0.25 1.0;
ModelAlias SLBKPOLE_Dtopilnu SLBKPOLE 1.0 0.25 1.0;
ModelAlias SLBKPOLE_Dtoetalnu SLBKPOLE 1.0 0.25 1.0;
ModelAlias SLBKPOLE_Dtoetaplnu SLBKPOLE 1.0 0.25 1.0;
#
Decay D+
0.0556 anti-K*0 e+ nu_e SLPOLE_DtoKstarlnu;
0.0876 anti-K0 e+ nu_e SLBKPOLE_DtoKlnu;
0.0025 anti-K_10 e+ nu_e ISGW2;
0.0026 anti-K_2*0 e+ nu_e ISGW2;
0.0039 pi0 e+ nu_e SLBKPOLE_Dtopilnu;
0.0013 eta e+ nu_e SLBKPOLE_Dtoetalnu;
0.0005 eta' e+ nu_e SLBKPOLE_Dtoetaplnu;
0.0023 rho0 e+ nu_e SLPOLE_Dtorhoomegalnu;
0.0015 omega e+ nu_e SLPOLE_Dtorhoomegalnu;
0.0018 K- pi+ e+ nu_e PHSP;
#
0.0545 anti-K*0 mu+ nu_mu SLPOLE_DtoKstarlnu;
0.0858 anti-K0 mu+ nu_mu SLBKPOLE_DtoKlnu;
0.0025 anti-K_10 mu+ nu_mu ISGW2;
0.0026 anti-K_2*0 mu+ nu_mu ISGW2;
0.0038 pi0 mu+ nu_mu SLBKPOLE_Dtopilnu;
0.0013 eta mu+ nu_mu SLBKPOLE_Dtoetalnu;
0.0005 eta' mu+ nu_mu SLBKPOLE_Dtoetaplnu;
0.0023 rho0 mu+ nu_mu SLPOLE_Dtorhoomegalnu;
0.0015 omega mu+ nu_mu SLPOLE_Dtorhoomegalnu;
0.0018 K- pi+ mu+ nu_mu PHSP;
Enddecay
Decay D-
0.0556 K*0 e- anti-nu_e SLPOLE_DtoKstarlnu;
0.0876 K0 e- anti-nu_e SLBKPOLE_DtoKlnu;
0.0025 K_10 e- anti-nu_e ISGW2;
0.0026 K_2*0 e- anti-nu_e ISGW2;
0.0039 pi0 e- anti-nu_e SLBKPOLE_Dtopilnu;
0.0013 eta e- anti-nu_e SLBKPOLE_Dtoetalnu;
0.0005 eta' e- anti-nu_e SLBKPOLE_Dtoetaplnu;
0.0023 rho0 e- anti-nu_e SLPOLE_Dtorhoomegalnu;
0.0015 omega e- anti-nu_e SLPOLE_Dtorhoomegalnu;
0.0018 K+ pi- e- anti-nu_e PHSP;
#
0.0545 K*0 mu- anti-nu_mu SLPOLE_DtoKstarlnu;
0.0858 K0 mu- anti-nu_mu SLBKPOLE_DtoKlnu;
0.0025 K_10 mu- anti-nu_mu ISGW2;
0.0026 K_2*0 mu- anti-nu_mu ISGW2;
0.0038 pi0 mu- anti-nu_mu SLBKPOLE_Dtopilnu;
0.0013 eta mu- anti-nu_mu SLBKPOLE_Dtoetalnu;
0.0005 eta' mu- anti-nu_mu SLBKPOLE_Dtoetaplnu;
0.0023 rho0 mu- anti-nu_mu SLPOLE_Dtorhoomegalnu;
0.0015 omega mu- anti-nu_mu SLPOLE_Dtorhoomegalnu;
0.0018 K+ pi- mu- anti-nu_mu PHSP;
Enddecay
Decay D0
0.0216 K*- e+ nu_e SLPOLE_DtoKstarlnu;
0.0356 K- e+ nu_e SLBKPOLE_DtoKlnu;
0.0014 K_1- e+ nu_e ISGW2;
0.0015 K_2*- e+ nu_e ISGW2;
0.0031 pi- e+ nu_e SLBKPOLE_Dtopilnu;
0.0016 rho- e+ nu_e SLPOLE_Dtorhoomegalnu;
0.0012 K- pi0 e+ nu_e PHSP;
0.0021 anti-K0 pi- e+ nu_e PHSP;
#
0.0212 K*- mu+ nu_mu SLPOLE_DtoKstarlnu;
0.0349 K- mu+ nu_mu SLBKPOLE_DtoKlnu;
0.0014 K_1- mu+ nu_mu ISGW2;
0.0015 K_2*- mu+ nu_mu ISGW2;
0.0030 pi- mu+ nu_mu SLBKPOLE_Dtopilnu;
0.0016 rho- mu+ nu_mu SLPOLE_Dtorhoomegalnu;
0.0012 K- pi0 mu+ nu_mu PHSP;
0.0021 anti-K0 pi- mu+ nu_mu PHSP;
Enddecay
Decay anti-D0
0.0216 K*+ e- anti-nu_e SLPOLE_DtoKstarlnu;
0.0356 K+ e- anti-nu_e SLBKPOLE_DtoKlnu;
0.0014 K_1+ e- anti-nu_e ISGW2;
0.0015 K_2*+ e- anti-nu_e ISGW2;
0.0031 pi+ e- anti-nu_e SLBKPOLE_Dtopilnu;
0.0016 rho+ e- anti-nu_e SLPOLE_Dtorhoomegalnu;
0.0012 K+ pi0 e- anti-nu_e PHSP;
0.0021 K0 pi+ e- anti-nu_e PHSP;
#
0.0212 K*+ mu- anti-nu_mu SLPOLE_DtoKstarlnu;
0.0349 K+ mu- anti-nu_mu SLBKPOLE_DtoKlnu;
0.0014 K_1+ mu- anti-nu_mu ISGW2;
0.0015 K_2*+ mu- anti-nu_mu ISGW2;
0.0030 pi+ mu- anti-nu_mu SLBKPOLE_Dtopilnu;
0.0016 rho+ mu- anti-nu_mu SLPOLE_Dtorhoomegalnu;
0.0012 K+ pi0 mu- anti-nu_mu PHSP;
0.0021 K0 pi+ mu- anti-nu_mu PHSP;
Enddecay
End
diff --git a/test/exampleFiles/FINALSTATES.DEC b/test/exampleFiles/FINALSTATES.DEC
index b76b58e..454b056 100644
--- a/test/exampleFiles/FINALSTATES.DEC
+++ b/test/exampleFiles/FINALSTATES.DEC
@@ -1,5 +1,5 @@
-#turn off photos to avoid the issue of random extra gammas..
-noPhotos
+#turn off fsr to avoid the issue of random extra gammas..
+noFSR
End
diff --git a/test/exampleFiles/FSR.DEC b/test/exampleFiles/FSR.DEC
new file mode 100644
index 0000000..74d9e95
--- /dev/null
+++ b/test/exampleFiles/FSR.DEC
@@ -0,0 +1,4 @@
+Decay J/psi
+1.000 e+ e- FSR VLL;
+Enddecay
+End
diff --git a/test/exampleFiles/PHOTOS.DEC b/test/exampleFiles/PHOTOS.DEC
deleted file mode 100644
index cff72c1..0000000
--- a/test/exampleFiles/PHOTOS.DEC
+++ /dev/null
@@ -1,4 +0,0 @@
-Decay J/psi
-1.000 e+ e- PHOTOS VLL;
-Enddecay
-End
diff --git a/test/exampleFiles/SEMIC.DEC b/test/exampleFiles/SEMIC.DEC
index b285afb..a764b59 100644
--- a/test/exampleFiles/SEMIC.DEC
+++ b/test/exampleFiles/SEMIC.DEC
@@ -1,85 +1,85 @@
Decay Upsilon(4S)
0.500 B+ B- VSS;
0.500 B0 anti-B0 VSS;
Enddecay
Decay anti-B0
-0.0490 D*+ e- anti-nu_e PHOTOS ISGW2;
-0.0210 D+ e- anti-nu_e PHOTOS ISGW2;
-0.0040 D_1+ e- anti-nu_e PHOTOS ISGW2;
-0.0040 D_0*+ e- anti-nu_e PHOTOS ISGW2;
-0.0070 D'_1+ e- anti-nu_e PHOTOS ISGW2;
-0.0070 D_2*+ e- anti-nu_e PHOTOS ISGW2;
+0.0490 D*+ e- anti-nu_e FSR ISGW2;
+0.0210 D+ e- anti-nu_e FSR ISGW2;
+0.0040 D_1+ e- anti-nu_e FSR ISGW2;
+0.0040 D_0*+ e- anti-nu_e FSR ISGW2;
+0.0070 D'_1+ e- anti-nu_e FSR ISGW2;
+0.0070 D_2*+ e- anti-nu_e FSR ISGW2;
Enddecay
Decay B0
-0.0490 D*- e+ nu_e PHOTOS ISGW2;
-0.0210 D- e+ nu_e PHOTOS ISGW2;
-0.0040 D_1- e+ nu_e PHOTOS ISGW2;
-0.0040 D_0*- e+ nu_e PHOTOS ISGW2;
-0.0070 D'_1- e+ nu_e PHOTOS ISGW2;
-0.0070 D_2*- e+ nu_e PHOTOS ISGW2;
+0.0490 D*- e+ nu_e FSR ISGW2;
+0.0210 D- e+ nu_e FSR ISGW2;
+0.0040 D_1- e+ nu_e FSR ISGW2;
+0.0040 D_0*- e+ nu_e FSR ISGW2;
+0.0070 D'_1- e+ nu_e FSR ISGW2;
+0.0070 D_2*- e+ nu_e FSR ISGW2;
Enddecay
Decay B-
-0.0490 D*0 e- anti-nu_e PHOTOS ISGW2;
-0.0210 D0 e- anti-nu_e PHOTOS ISGW2;
-0.0040 D_10 e- anti-nu_e PHOTOS ISGW2;
-0.0040 D_0*0 e- anti-nu_e PHOTOS ISGW2;
-0.0070 D'_10 e- anti-nu_e PHOTOS ISGW2;
-0.0070 D_2*0 e- anti-nu_e PHOTOS ISGW2;
+0.0490 D*0 e- anti-nu_e FSR ISGW2;
+0.0210 D0 e- anti-nu_e FSR ISGW2;
+0.0040 D_10 e- anti-nu_e FSR ISGW2;
+0.0040 D_0*0 e- anti-nu_e FSR ISGW2;
+0.0070 D'_10 e- anti-nu_e FSR ISGW2;
+0.0070 D_2*0 e- anti-nu_e FSR ISGW2;
Enddecay
Decay B+
-0.0490 anti-D*0 e+ nu_e PHOTOS ISGW2;
-0.0210 anti-D0 e+ nu_e PHOTOS ISGW2;
-0.0040 anti-D_10 e+ nu_e PHOTOS ISGW2;
-0.0040 anti-D_0*0 e+ nu_e PHOTOS ISGW2;
-0.0070 anti-D'_10 e+ nu_e PHOTOS ISGW2;
-0.0070 anti-D_2*0 e+ nu_e PHOTOS ISGW2;
+0.0490 anti-D*0 e+ nu_e FSR ISGW2;
+0.0210 anti-D0 e+ nu_e FSR ISGW2;
+0.0040 anti-D_10 e+ nu_e FSR ISGW2;
+0.0040 anti-D_0*0 e+ nu_e FSR ISGW2;
+0.0070 anti-D'_10 e+ nu_e FSR ISGW2;
+0.0070 anti-D_2*0 e+ nu_e FSR ISGW2;
Enddecay
Decay D*+
Enddecay
Decay D+
Enddecay
Decay D_1+
Enddecay
Decay D_0*+
Enddecay
Decay D'_1+
Enddecay
Decay D_2*+
Enddecay
Decay D*-
Enddecay
Decay D-
Enddecay
Decay D_1-
Enddecay
Decay D_0*-
Enddecay
Decay D'_1-
Enddecay
Decay D_2*-
Enddecay
Decay D*0
Enddecay
Decay D0
Enddecay
Decay D_10
Enddecay
Decay D_0*0
Enddecay
Decay D'_10
Enddecay
Decay D_2*0
Enddecay
Decay anti-D*0
Enddecay
Decay anti-D0
Enddecay
Decay anti-D_10
Enddecay
Decay anti-D_0*0
Enddecay
Decay anti-D'_10
Enddecay
Decay anti-D_2*0
Enddecay
End
diff --git a/test/exampleFiles/SSDCP.DEC b/test/exampleFiles/SSDCP.DEC
index bb4b80c..e9b6b3c 100644
--- a/test/exampleFiles/SSDCP.DEC
+++ b/test/exampleFiles/SSDCP.DEC
@@ -1,110 +1,110 @@
Define dm 0.472e12
Define dgog 0.0
Define magqop 1.0
Define beta 0.425
Define minustwobeta -0.85
Define gamma 1.6265
Define minusgamma -1.6265
Define alpha 1.09
Define minusTwoBeta -0.85
Define Rdp 0.6
Define minusRdp -0.6
## Delta=0.5 and Gamma 1.0
Define DeltaMinusGamma -0.5
Define DeltaPlusGamma 1.5
Define MinusGamma 0.0
Define PlusGamma 0.0
#
Alias MyB0 B0
Alias Myanti-B0 anti-B0
ChargeConj MyB0 Myanti-B0
Alias MyB02 B0
Alias Myanti-B02 anti-B0
ChargeConj MyB02 Myanti-B02
#
-#turn off photos so that we can count daughthers to determine
+#turn off fsr so that we can count daughthers to determine
#which B is the CP decay and which is the tag B.
-noPhotos
+noFSR
#
Decay Upsilon(4S)
0.500 MyB02 Myanti-B0 VSS;
0.500 Myanti-B02 MyB0 VSS;
Enddecay
#
Decay MyB0
#1.000 K_S0 J/psi VERBOSE SSD_CP dm 0.0 1.0 minustwobeta 1.0 0.0 -1.0 0.0;
#1.000 J/psi K_S0 VERBOSE SVS_CP beta dm -1 1.0 0.0 1.0 0.0;
#
#1.000 K_S0 eta_c VERBOSE SSD_CP dm 0.0 1.0 minustwobeta 1.0 0.0 -1.0 0.0;
#1.000 eta_c K_S0 VERBOSE SSS_CP beta dm -1 1.0 0.0 1.0 0.0;
#
#1.000 K_S0 chi_c2 VERBOSE SSD_CP dm 0.0 1.0 minustwobeta 1.0 0.0 1.0 0.0;
#1.000 chi_c2 K_S0 VERBOSE STS_CP beta dm 1 1.0 0.0 1.0 0.0;
#
#1.0 D*+ D- SSD_CP dm 0.0 1.0 minustwobeta 1.0 0.0 1.0 0.0;
#1.000 pi+ pi- VERBOSE SSD_CP dm 0.0 1.0 minustwobeta 1.0 gamma 1.0 minusgamma;
#1.000 pi+ pi- VERBOSE SSS_CP alpha dm 1 1.0 0.0 1.0 0.0;
#
#1.000 pi0 rho0 VERBOSE SSD_CP dm 0.0 1.0 minustwobeta 1.0 gamma -1.0 minusgamma;
#1.000 rho0 pi0 VERBOSE SVS_CP alpha dm -1 1.0 0.0 1.0 0.0;
1.000 D- pi+ SSD_CP dm 0.0 1.0 minusTwoBeta
1.0 0.0
Rdp PlusGamma
Rdp MinusGamma
1.0 0.0;
#1.000 D- pi+ SSD_CP dm 0.0 1.0 minusTwoBeta
# 1.0 0.0
# Rdp DeltaMinusGamma
# Rdp DeltaPlusGamma
# 1.0 0.0;
Enddecay
#
Decay Myanti-B0
#1.000 K_S0 J/psi VERBOSE SSD_CP dm 0.0 1.0 minustwobeta 1.0 0.0 -1.0 0.0;
#1.000 J/psi K_S0 VERBOSE SVS_CP beta dm -1 1.0 0.0 1.0 0.0;
#
#1.000 K_S0 eta_c VERBOSE SSD_CP dm 0.0 1.0 minustwobeta 1.0 0.0 -1.0 0.0;
#1.000 eta_c K_S0 VERBOSE SSS_CP beta dm -1 1.0 0.0 1.0 0.0;
#
#1.000 K_S0 chi_c2 VERBOSE SSD_CP dm 0.0 1.0 minustwobeta 1.0 0.0 1.0 0.0;
#1.000 chi_c2 K_S0 VERBOSE STS_CP beta dm 1 1.0 0.0 1.0 0.0;
#
#1.0 D*- D+ SSD_CP dm 0.0 1.0 minustwobeta 1.0 0.0 1.0 0.0;
#1.000 pi+ pi- VERBOSE SSD_CP dm 0.0 1.0 minustwobeta 1.0 gamma 1.0 minusgamma;
#1.000 pi+ pi- VERBOSE SSS_CP alpha dm 1 1.0 0.0 1.0 0.0;
#
#1.000 pi0 rho0 VERBOSE SSD_CP dm 0.0 1.0 minustwobeta 1.0 gamma -1.0 minusgamma;
#1.000 rho0 pi0 VERBOSE SVS_CP alpha dm -1 1.0 0.0 1.0 0.0;
1.000 D+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta
1.0 0.0 Rdp DeltaMinusGamma
Rdp DeltaPlusGamma 1.0 0.0;
Enddecay
#
Decay J/psi
1.00 mu+ mu- VLL;
Enddecay
#
Decay MyB02
-1.00 D*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72;
+1.00 D*- e+ nu_e FSR HQET 0.92 1.18 0.72;
Enddecay
#
Decay Myanti-B02
-1.00 D*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72;
+1.00 D*+ e- anti-nu_e FSR HQET 0.92 1.18 0.72;
Enddecay
#
End
diff --git a/test/exampleFiles/SSD_CP_ALIAS.DEC b/test/exampleFiles/SSD_CP_ALIAS.DEC
index 103a724..92f074e 100644
--- a/test/exampleFiles/SSD_CP_ALIAS.DEC
+++ b/test/exampleFiles/SSD_CP_ALIAS.DEC
@@ -1,27 +1,27 @@
Alias myB01 B0
Alias myanti-B01 anti-B0
Alias myB02 B0
Alias myanti-B02 anti-B0
Decay Upsilon(4S)
1.000 myB01 myanti-B01 myB02 myanti-B02 VSS_BMIX dm;
Enddecay
Decay myB01
-1.0 D*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72;
+1.0 D*- e+ nu_e FSR HQET 0.92 1.18 0.72;
Enddecay
Decay myanti-B01
-1.0 D*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72;
+1.0 D*+ e- anti-nu_e FSR HQET 0.92 1.18 0.72;
Enddecay
Decay myB02
1.0 D- pi+ SSD_CP dm 0.0 1.0 minusTwoBeta 1. 0. 1. -0.4 ;
Enddecay
Decay myanti-B02
1.0 D+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1. 0. 1. -0.4;
Enddecay
End
diff --git a/test/exampleFiles/TWOBODY1.DEC b/test/exampleFiles/TWOBODY1.DEC
index 2b2c26c..ac679d9 100644
--- a/test/exampleFiles/TWOBODY1.DEC
+++ b/test/exampleFiles/TWOBODY1.DEC
@@ -1,26 +1,26 @@
-noPhotos
+noFSR
#
#need to turn off mixing to prevent B0 from becoming an anti-B0
Define dm_incohMix_B0 0.0
#
Decay B0
1.0 J/psi K_S0 SVS;
Enddecay
Decay J/psi
#1.0 rho+ pi- VERBOSE PARTWAVE 0. 0. 1. 0. 0. 0. ;
1.0 rho+ pi- VERBOSE HELAMP 1. 0. 0. 0. -1. 0. ;
Enddecay
Decay rho0
1.000 pi+ pi- VSS;
Enddecay
Decay rho+
1.000 pi+ pi0 VSS;
Enddecay
Decay rho-
1.000 pi- pi0 VSS;
Enddecay
Decay pi0
Enddecay
Decay K_S0
Enddecay
End
diff --git a/test/exampleFiles/TWOBODY2.DEC b/test/exampleFiles/TWOBODY2.DEC
index d78e892..3836f70 100644
--- a/test/exampleFiles/TWOBODY2.DEC
+++ b/test/exampleFiles/TWOBODY2.DEC
@@ -1,15 +1,15 @@
-noPhotos
+noFSR
#
#need to turn off mixing to prevent B0 from becoming an anti-B0
Define dm_incohMix_B0 0.0
#
Decay B0
1.0 p+ anti-Lambda_c- VERBOSE HELAMP 1.0 0.0 0.0 0.0;
Enddecay
Decay anti-Lambda_c-
1.0 pi- anti-Lambda0 VERBOSE PARTWAVE 1.0 0.0 1.0 0.0 ;
Enddecay
Decay anti-Lambda0
1.000 p+ pi- VERBOSE PARTWAVE 1.0 0.0 1.0 0.0 ;
Enddecay
End
diff --git a/test/exampleFiles/TWOBODY3.DEC b/test/exampleFiles/TWOBODY3.DEC
index 6e1016f..52e6e07 100644
--- a/test/exampleFiles/TWOBODY3.DEC
+++ b/test/exampleFiles/TWOBODY3.DEC
@@ -1,12 +1,12 @@
-noPhotos
+noFSR
#
#need to turn off mixing to prevent B0 from becoming an anti-B0
Define dm_incohMix_B0 0.0
#
Decay B0
1.0 K_2*0 gamma VERBOSE HELAMP 0.0 0.0 1.0 0.0;
Enddecay
Decay K_2*0
1.0 K+ pi- VERBOSE HELAMP 1.0 0.0 ;
Enddecay
End
diff --git a/test/exampleFiles/VUB.DEC b/test/exampleFiles/VUB.DEC
index 7ddf3a6..e557207 100644
--- a/test/exampleFiles/VUB.DEC
+++ b/test/exampleFiles/VUB.DEC
@@ -1,99 +1,99 @@
###############################################################################
# This is VUB.DEC by Sven Menke for the X_u l nu mixture: #
# Up(4S) -> B0 B0bar +CC #
# | | #
# | -> X_u l- nu_bar (l = e or mu) #
# | #
# -> X #
# #
# #
# Up(4S) -> B+ B- +CC #
# | | #
# | -> X_u l- nu_bar (l = e or mu) #
# | #
# -> X #
# #
# it uses the model VUB which is an O(alpha_s) triple differential decay rate #
# for the B Meson to an inclusive X_u state and a lepton and neutrino. #
# The model has the following parameters: #
# 1) mb : the b-Quark mass. The authors of hep-ph/9905351 claim that #
# a range of 4.65 GeV to 4.95 GeV is reasonable. #
# 2) a : the Fermi Motion parameter. its default is 1.29 #
# smaller values give broader distributions; larger values #
# more narrow distributions for the fermi momentum. #
# 3) alpha_s : the strong coupling constant at the b-Quark Mass. This is #
# direct proportional to the amount of the built in radiative #
# QCD corrections #
# 4) N : the number of mass thresholds. This parameter should be at #
# least 1 #
# This mechanism allows to modify the Xu mass spectra in order#
# to mix this inclusive model with exclusive models. #
# For the purpose of a dedicated standalone inclusive run this#
# parameter should be 1 #
# Extra Feature: If the parameter is set to -N (minus N) #
# the internal parameter q+/10000 is stored as the ctau #
# value of the produced Xu. It can be reconstructed by #
# multiplying the difference of the vertex times of any #
# daughter of the Xu and the Xu by 10000 and reversing the #
# boost which can be done by multiplying this number by #
# m_Xu/E_Xu (the ratio of Xu mass over Xu energy in the lab). #
# This cludge allows for easy reweighting of the Fermi-motion.#
# 5) m0 : the lowest mass threshold (must be larger than 2*m_pi) #
# 6) w0 : the relative weight for the bin ]m0,m1] if N > 1 or for the #
# entire range ]m0,Infinity] if this is the last threshold #
# 7 - 2N+3) odd : next mass threshold in ascending order. #
# 8 - 2N+4) even: next relative weight #
###############################################################################
# Create our own versions of B-, B+, B0, anti-B0 which will decay to Xu l nu
# and specify that they should be treated as antiparticles
#
Alias myB- B-
Alias myB+ B+
ChargeConj myB+ myB-
#
# the same for B0, B0bar
#
Alias myB0 B0
Alias myantiB0 anti-B0
ChargeConj myB0 myantiB0
#
#
Decay Upsilon(4S)
0.25000 B+ myB- VSS;
0.25000 B- myB+ VSS;
0.21000 B0 myantiB0 VSS_MIX dm;
0.21000 myB0 anti-B0 VSS_MIX dm;
0.04000 anti-B0 myantiB0 VSS_MIX dm;
0.04000 B0 myB0 VSS_MIX dm;
Enddecay
#
# force all myB particles to always decay to Xu l nu
#
#
Decay myantiB0
# b -> u l nu
#
-.5 Xu+ e- anti-nu_e PHOTOS VUB 4.80 1.29 0.22 1 0.28 1;
+.5 Xu+ e- anti-nu_e FSR VUB 4.80 1.29 0.22 1 0.28 1;
.5 Xu+ mu- anti-nu_mu VUB 4.80 1.29 0.22 1 0.28 1;
#
# use the following lines instead if you need access to the hidden
# parameter q+
#
-# .5 Xu+ e- anti-nu_e PHOTOS VUB 4.80 1.29 0.22 -1 0.28 1;
+# .5 Xu+ e- anti-nu_e FSR VUB 4.80 1.29 0.22 -1 0.28 1;
# .5 Xu+ mu- anti-nu_mu VUB 4.80 1.29 0.22 -1 0.28 1;
Enddecay
CDecay myB0
Decay myB+
# b -> u l nu
#
-.5 Xu0 e+ nu_e PHOTOS VUB 4.80 1.29 0.22 1 0.28 1;
+.5 Xu0 e+ nu_e FSR VUB 4.80 1.29 0.22 1 0.28 1;
.5 Xu0 mu+ nu_mu VUB 4.80 1.29 0.22 1 0.28 1;
#
# use the following lines instead if you need access to the hidden
# parameter q+
#
-# .5 Xu0 e+ nu_e PHOTOS VUB 4.80 1.29 0.22 -1 0.28 1;
+# .5 Xu0 e+ nu_e FSR VUB 4.80 1.29 0.22 -1 0.28 1;
# .5 Xu0 mu+ nu_mu VUB 4.80 1.29 0.22 -1 0.28 1;
Enddecay
CDecay myB-
End
diff --git a/validation/BKstarGamma.dec b/validation/BKstarGamma.dec
index 7255b73..8dc3198 100644
--- a/validation/BKstarGamma.dec
+++ b/validation/BKstarGamma.dec
@@ -1,10 +1,10 @@
-yesPhotos
+yesFSR
Decay B0
1.000 K'*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0;
Enddecay
#
Decay K'*0
1.000 K+ pi- VSS;
Enddecay
#
End
diff --git a/validation/BuDst0rhop.dec b/validation/BuDst0rhop.dec
index 2d057b9..e14e603 100644
--- a/validation/BuDst0rhop.dec
+++ b/validation/BuDst0rhop.dec
@@ -1,18 +1,18 @@
-yesPhotos
+yesFSR
Decay B-
1.000 D*0 rho- SVV_HELAMP 0.283 1.13 0.932 0.0 0.228 0.95;
Enddecay
#
Decay D*0
1.000 D0 gamma VSP_PWAVE;
Enddecay
#
Decay rho-
1.000 pi- pi0 VSS;
Enddecay
#
Decay D0
1.000 K- pi+ PHSP;
Enddecay
#
End
diff --git a/validation/CMakeLists.txt b/validation/CMakeLists.txt
index dbe84df..34bad23 100644
--- a/validation/CMakeLists.txt
+++ b/validation/CMakeLists.txt
@@ -1,85 +1,85 @@
########################################################################
# Copyright 1998-2020 CERN for the benefit of the EvtGen authors #
# #
# This file is part of EvtGen. #
# #
# EvtGen is free software: you can redistribute it and/or modify #
# it under the terms of the GNU General Public License as published by #
# the Free Software Foundation, either version 3 of the License, or #
# (at your option) any later version. #
# #
# EvtGen is distributed in the hope that it will be useful, #
# but WITHOUT ANY WARRANTY; without even the implied warranty of #
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the #
# GNU General Public License for more details. #
# #
# You should have received a copy of the GNU General Public License #
# along with EvtGen. If not, see . #
########################################################################
# the validation executables require ROOT for histogramming etc.
find_package(ROOT QUIET COMPONENTS Hist)
if (ROOT_FOUND)
add_library(root_interface INTERFACE IMPORTED)
target_include_directories(root_interface INTERFACE ${ROOT_INCLUDE_DIRS})
target_link_libraries(root_interface INTERFACE ${ROOT_LIBRARIES})
# build each of the executables
foreach( validation_exe compareRootFiles genExampleRootFiles genRootDecayChain testCPVDecays )
add_executable(${validation_exe} ${validation_exe}.cc)
target_link_libraries(${validation_exe} PRIVATE EvtGen)
if (EVTGEN_HEPMC3)
target_compile_definitions(${validation_exe} PRIVATE EVTGEN_HEPMC3)
endif()
if( EVTGEN_PYTHIA OR EVTGEN_PHOTOS OR EVTGEN_TAUOLA )
target_compile_definitions(${validation_exe} PRIVATE EVTGEN_EXTERNAL)
target_link_libraries(${validation_exe} PRIVATE EvtGenExternal)
endif()
target_link_libraries(${validation_exe} PRIVATE root_interface)
endforeach()
# install the executables
install(TARGETS compareRootFiles genExampleRootFiles genRootDecayChain testCPVDecays
RUNTIME DESTINATION ${CMAKE_INSTALL_DATADIR}/EvtGen/validation
)
# install the decay files, macros, scripts, etc.
install(DIRECTORY B0Files DESTINATION ${CMAKE_INSTALL_DATADIR}/EvtGen/validation)
install(DIRECTORY CPVDecayFiles DESTINATION ${CMAKE_INSTALL_DATADIR}/EvtGen/validation)
install(DIRECTORY UpsilonFiles DESTINATION ${CMAKE_INSTALL_DATADIR}/EvtGen/validation)
install(DIRECTORY TauolaFiles DESTINATION ${CMAKE_INSTALL_DATADIR}/EvtGen/validation)
install(DIRECTORY Bs0Files DESTINATION ${CMAKE_INSTALL_DATADIR}/EvtGen/validation)
install(DIRECTORY tauFiles DESTINATION ${CMAKE_INSTALL_DATADIR}/EvtGen/validation)
install(DIRECTORY rootFiles DESTINATION ${CMAKE_INSTALL_DATADIR}/EvtGen/validation)
install(DIRECTORY PHSPFiles DESTINATION ${CMAKE_INSTALL_DATADIR}/EvtGen/validation)
install(DIRECTORY BpFiles DESTINATION ${CMAKE_INSTALL_DATADIR}/EvtGen/validation)
install(DIRECTORY gifFiles DESTINATION ${CMAKE_INSTALL_DATADIR}/EvtGen/validation)
install(DIRECTORY DalitzFiles DESTINATION ${CMAKE_INSTALL_DATADIR}/EvtGen/validation)
- install(FILES BKstarGamma.dec BuDst0rhop.dec Kspimumu.dec photosTest.dec DESTINATION ${CMAKE_INSTALL_DATADIR}/EvtGen/validation)
- install(FILES compareDalitz.C PhaseSpacePlots.C photosPlots.C plotBKstarGamma.C PlotKspimumu.C DESTINATION ${CMAKE_INSTALL_DATADIR}/EvtGen/validation)
+ install(FILES BKstarGamma.dec BuDst0rhop.dec Kspimumu.dec fsrTest.dec DESTINATION ${CMAKE_INSTALL_DATADIR}/EvtGen/validation)
+ install(FILES compareDalitz.C PhaseSpacePlots.C fsrPlots.C plotBKstarGamma.C PlotKspimumu.C DESTINATION ${CMAKE_INSTALL_DATADIR}/EvtGen/validation)
install(FILES compareAllDecays.sh
compareB0PythiaDecays.sh
compareBpPythiaDecays.sh
compareBs0PythiaDecays.sh
compareTauolaDecays.sh
compareTauPythiaDecays.sh
compareUpsilonPythiaDecays.sh
genAllDecayExamples.sh
genB0PythiaDecays.sh
genBpPythiaDecays.sh
genBs0PythiaDecays.sh
genDalitzDecays.sh
genDDalitzModes.sh
genPHSP.sh
genTauolaDecays.sh
genTauPythiaDecays.sh
genUpsilonPythiaDecays.sh
runKspimumu.sh
- runPhotosTest.sh
+ runFSRTest.sh
DESTINATION ${CMAKE_INSTALL_DATADIR}/EvtGen/validation
PERMISSIONS OWNER_READ OWNER_WRITE OWNER_EXECUTE GROUP_READ GROUP_EXECUTE WORLD_READ WORLD_EXECUTE)
else()
message(WARNING "Could not find ROOT, cannot build validation executables")
endif()
diff --git a/validation/CPVDecayFiles/Bd_JpsiKSeeCPV.dec b/validation/CPVDecayFiles/Bd_JpsiKSeeCPV.dec
index 4a811ce..3cf479e 100644
--- a/validation/CPVDecayFiles/Bd_JpsiKSeeCPV.dec
+++ b/validation/CPVDecayFiles/Bd_JpsiKSeeCPV.dec
@@ -1,44 +1,44 @@
# This is the decay file for the decay B0 -> PSI(-> E+ E-) K0S(-> PI+ PI-)
# Descriptor: [B0 -> (KS0 -> pi+ pi-) (J/psi(1S) -> e+ e- {,gamma} {,gamma})]cc
#
# Parameters are:
# P(1) = deltaM = 0.502e12
# P(2) = dg/g = 0.0
# P(3) = |q/p| = 1.0
# P(4) = arg(q/p) = -0.775
# P(5) = |Af| = 1.0
# P(6) = arg(Af) = 0.0
# P(7) = |Abarf| = 1.0
# P(8) = arg(Abarf) = 0.0
#
Alias MyB0 B0
Alias Myanti-B0 anti-B0
Alias MyJ/psi J/psi
Alias MyKs K_S0
ChargeConj Myanti-B0 MyB0
ChargeConj MyJ/psi MyJ/psi
ChargeConj MyKs MyKs
#
Define dm 0.502e12
Define minusTwoBeta -0.775
#
Decay Upsilon(4S)
0.500 B0 Myanti-B0 VSS_BMIX dm;
0.500 anti-B0 MyB0 VSS_BMIX dm;
#1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm;
Enddecay
#
Decay MyB0
1.000 MyJ/psi MyKs SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0;
Enddecay
CDecay Myanti-B0
#
Decay MyJ/psi
-1.000 e+ e- PHOTOS VLL;
+1.000 e+ e- FSR VLL;
Enddecay
#
Decay MyKs
1.000 pi+ pi- PHSP;
Enddecay
#
End
diff --git a/validation/CPVDecayFiles/Bd_JpsiKSmumuCPV.dec b/validation/CPVDecayFiles/Bd_JpsiKSmumuCPV.dec
index 1b783c5..46fa8ea 100644
--- a/validation/CPVDecayFiles/Bd_JpsiKSmumuCPV.dec
+++ b/validation/CPVDecayFiles/Bd_JpsiKSmumuCPV.dec
@@ -1,45 +1,45 @@
# $Id: Bd_JpsiKS,mm=CPV.dec 89808 2010-10-12 10:17:29Z robbep $
#
# This is the decay file for the decay B0 -> PSI(-> MU+ MU-) K0S(-> PI+ PI-)
#
# EventType: 11144102
#
# Descriptor: [B0 -> (KS0 -> pi+ pi-) (J/psi(1S) -> mu+ mu- {,gamma} {,gamma}) ]cc
#
# NickName: Bd_JpsiKS,mm=CPV
#
# Physics: CP violation
#
# Tested: No
# By:
# Date:
#
# Parameters are:
# P(1) = deltaM = 0.502e12
# P(2) = dg/g = 0
# P(3) = |q/p| = 1
# P(4) = arg(q/p) = -0.775 Sign fixed 25-11-2009 Mark Whitehead
# P(5) = |Af| = 1.0
# P(6) = arg(Af) = 0.
# P(7) = |Abarf| = -1.0 Sign fixed 25-11-2009 Mark Whitehead
# P(8) = arg(Abarf) = 0.
#
Alias MyJ/psi J/psi
ChargeConj MyJ/psi MyJ/psi
Alias MyKs K_S0
ChargeConj MyKs MyKs
#
Decay B0sig
1.000 MyKs MyJ/psi SSD_CP 0.502e12 0.0 1.0 -0.775 1.0 0. -1.0 0.;
Enddecay
CDecay anti-B0sig
#
Decay MyKs
1.000 pi+ pi- PHSP;
Enddecay
#
Decay MyJ/psi
- 1.000 mu+ mu- PHOTOS VLL;
+ 1.000 mu+ mu- FSR VLL;
Enddecay
End
diff --git a/validation/photosPlots.C b/validation/fsrPlots.C
similarity index 97%
rename from validation/photosPlots.C
rename to validation/fsrPlots.C
index b7c949c..177aaf6 100644
--- a/validation/photosPlots.C
+++ b/validation/fsrPlots.C
@@ -1,120 +1,120 @@
/***********************************************************************
* Copyright 1998-2020 CERN for the benefit of the EvtGen authors *
* *
* This file is part of EvtGen. *
* *
* EvtGen is free software: you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation, either version 3 of the License, or *
* (at your option) any later version. *
* *
* EvtGen is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU General Public License for more details. *
* *
* You should have received a copy of the GNU General Public License *
* along with EvtGen. If not, see . *
***********************************************************************/
#include
-void photosPlots( std::string fileName = "Upsilon4S_PHOTOS.root" )
+void fsrPlots( std::string fileName = "Upsilon4S_FSR.root" )
{
TFile* theFile = new TFile( fileName.c_str(), "read" );
TTree* theTree = dynamic_cast( theFile->Get( "Data" ) );
TTree* nDaugTree = dynamic_cast( theFile->Get( "nDaugTree" ) );
TH1F* eMtmHist = new TH1F( "eMtmHist", "", 100, 0.0, 5.5 );
eMtmHist->SetXTitle( "Electron momentum (GeV/c)" );
eMtmHist->SetYTitle( "Frequency/55 (MeV/c)" );
eMtmHist->SetTitleOffset( 1.1, "Y" );
TAxis* exAxis = eMtmHist->GetXaxis();
exAxis->SetLabelSize( 0.045 );
exAxis->SetTitleSize( 0.045 );
TAxis* eyAxis = eMtmHist->GetYaxis();
eyAxis->SetLabelSize( 0.045 );
eyAxis->SetTitleSize( 0.045 );
TH1F* pMtmHist = new TH1F( "pMtmHist", "", 100, 0.0, 5.5 );
pMtmHist->SetXTitle( "Positron momentum (GeV/c)" );
pMtmHist->SetYTitle( "Frequency/55 (MeV/c)" );
pMtmHist->SetTitleOffset( 1.1, "Y" );
TAxis* pxAxis = pMtmHist->GetXaxis();
pxAxis->SetLabelSize( 0.045 );
pxAxis->SetTitleSize( 0.045 );
TAxis* pyAxis = pMtmHist->GetYaxis();
pyAxis->SetLabelSize( 0.045 );
pyAxis->SetTitleSize( 0.045 );
TH1F* gMtmHist = new TH1F( "gMtmHist", "", 100, 0.0, 5.5 );
gMtmHist->SetXTitle( "Photon momentum (GeV/c)" );
gMtmHist->SetYTitle( "Frequency/55 (MeV/c)" );
gMtmHist->SetTitleOffset( 1.1, "Y" );
TAxis* gxAxis = gMtmHist->GetXaxis();
gxAxis->SetLabelSize( 0.045 );
gxAxis->SetTitleSize( 0.045 );
TAxis* gyAxis = gMtmHist->GetYaxis();
gyAxis->SetLabelSize( 0.045 );
gyAxis->SetTitleSize( 0.045 );
TH1F* nDaugHist = new TH1F( "nDaugHist", "", 10, 0, 10 );
nDaugHist->SetXTitle( "Number of daughters" );
nDaugHist->SetYTitle( "Frequency" );
nDaugHist->SetTitleOffset( 1.15, "Y" );
TAxis* nxAxis = nDaugHist->GetXaxis();
nxAxis->SetLabelSize( 0.045 );
nxAxis->SetTitleSize( 0.045 );
TAxis* nyAxis = nDaugHist->GetYaxis();
nyAxis->SetLabelSize( 0.045 );
nyAxis->SetTitleSize( 0.045 );
theTree->Draw( "p>>eMtmHist", "id==11" );
theTree->Draw( "p>>pMtmHist", "id==-11" );
theTree->Draw( "p>>gMtmHist", "id==22" );
nDaugTree->Draw( "nDaug>>nDaugHist" );
gROOT->SetStyle( "Plain" );
gStyle->SetOptStat( 0 );
TCanvas* theCanvas = new TCanvas( "theCanvas", "", 900, 700 );
theCanvas->UseCurrentStyle();
theCanvas->Divide( 2, 2 );
theCanvas->cd( 1 );
gPad->SetLogy();
double scale =
1.0 / eMtmHist->Integral(); // same normalisation number for all plots
eMtmHist->Scale( scale );
eMtmHist->SetMaximum( 1.0 );
eMtmHist->Draw();
theCanvas->cd( 2 );
gPad->SetLogy();
pMtmHist->Scale( scale );
pMtmHist->SetMaximum( 1.0 );
pMtmHist->Draw();
theCanvas->cd( 3 );
gPad->SetLogy();
gMtmHist->Scale( scale );
gMtmHist->SetMaximum( 1.0 );
gMtmHist->Draw();
theCanvas->cd( 4 );
gPad->SetLogy( 0 );
nDaugHist->Scale( scale );
nDaugHist->SetMaximum( 0.5 );
nDaugHist->Draw();
theCanvas->cd( 1 );
TLatex latex;
latex.SetNDC();
latex.SetTextSize( 0.045 );
latex.DrawLatex( 0.1, 0.95,
- "#Upsilon(4S) #rightarrow e^{-} e^{+} decay with PHOTOS" );
+ "#Upsilon(4S) #rightarrow e^{-} e^{+} decay with FSR" );
- theCanvas->Print( "photosPlots.png" );
+ theCanvas->Print( "fsrPlots.png" );
}
diff --git a/validation/photosTest.dec b/validation/fsrTest.dec
similarity index 83%
rename from validation/photosTest.dec
rename to validation/fsrTest.dec
index eda69a1..2209856 100644
--- a/validation/photosTest.dec
+++ b/validation/fsrTest.dec
@@ -1,5 +1,5 @@
-yesPhotos
+yesFSR
Decay Upsilon(4S)
1.0 e+ e- VLL;
Enddecay
End
diff --git a/validation/genRootDecayChain.cc b/validation/genRootDecayChain.cc
index 3afbbaa..4e6e88a 100644
--- a/validation/genRootDecayChain.cc
+++ b/validation/genRootDecayChain.cc
@@ -1,406 +1,406 @@
/***********************************************************************
* Copyright 1998-2020 CERN for the benefit of the EvtGen authors *
* *
* This file is part of EvtGen. *
* *
* EvtGen is free software: you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation, either version 3 of the License, or *
* (at your option) any later version. *
* *
* EvtGen is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU General Public License for more details. *
* *
* You should have received a copy of the GNU General Public License *
* along with EvtGen. If not, see . *
***********************************************************************/
// Program to create ROOT files for EvtGen validation plots,
// generalising storage of daughter information for each decay chain step.
// There are three integers to keep track of the decay tree history:
// dVtx = present decay vertex integer number
// pVtx = parent decay vertex integer number
// daug = daughter order number for the given particle
//
// Consider the following decay chain history, where Vj is vertex number j:
// V1
// A -> B + C <---- First chain level
// | |
// +--> B1 + B2 +--> C1 C2 C3 <---- Second chain level
// V2 | V5 |
// +--> B1a B1b +--> C1a C1b C1c <---- Third chain level
// V3 | V6
// +--> d1 d2 <---- Fourth chain level
// V4
//
// Since the decay tree is stored recursively, the information order follows
// the immediate, sequential, sub-decay vertex order V1, V2, V3, V4, V5, V6:
// A, B, B1, B1a, B1b, d1, d2, B2, C, C1, C1a, C1b, C1c, C2, C3
//
// The unique set of integer "attributes" for each particle is as follows:
//
// Particle dVtx pVtx daug
// A 0 0 0 The mother particle
// B 1 0 1
// B1 2 1 1
// B1a 3 2 1
// B1b 3 2 2
// d1 4 3 1
// d2 4 3 2
// B2 2 1 2
// C 1 0 2
// C1 5 1 1
// C1a 6 5 1
// C1b 6 5 2
// C1c 6 5 3
// C2 5 1 2
// C3 5 1 3
//
-// The decay tree will be defined by the decay file. Additional photons from PHOTOS will
-// only appear as appended, extra daughters on the RHS of a given vertex, e.g. if a FSR
+// The decay tree will be defined by the decay file. Additional photons from FSR will
+// only appear as appended, extra daughters on the RHS of a given vertex, e.g. if an FSR
// photon is added to the RHS of V4, there will be a "d3" particle with attributes (4,3,3)
#include "genRootDecayChain.hh"
#include "EvtGen/EvtGen.hh"
#include "EvtGenBase/EvtAbsRadCorr.hh"
#include "EvtGenBase/EvtDecayBase.hh"
#include "EvtGenBase/EvtMTRandomEngine.hh"
#include "EvtGenBase/EvtPDL.hh"
#include "EvtGenBase/EvtParticle.hh"
#include "EvtGenBase/EvtParticleFactory.hh"
#include "EvtGenBase/EvtPatches.hh"
#include "EvtGenBase/EvtRandomEngine.hh"
#include "EvtGenBase/EvtSimpleRandomEngine.hh"
#ifdef EVTGEN_EXTERNAL
#include "EvtGenExternal/EvtExternalGenList.hh"
#endif
#include "TROOT.h"
#include "TStyle.h"
#include
#include
#include
using std::cout;
using std::endl;
using std::string;
genRootDecayChain::genRootDecayChain( const string& decayFileName,
const string& rootFileName,
const string& parentName, int nEvents,
bool storeMtmXYZ ) :
_decayFileName( decayFileName ),
_rootFileName( rootFileName ),
_parentName( parentName ),
_nEvents( nEvents ),
_storeMtmXYZ( storeMtmXYZ ),
_theFile( nullptr ),
_theTree( nullptr ),
_probHist( nullptr ),
_theCanvas( nullptr )
{
_theFile = new TFile( rootFileName.c_str(), "recreate" );
_theTree = new TTree( "Data", "Data" );
_theTree->SetDirectory( _theFile );
_probHist = new TH1D( "probHist", "probHist", 100, 0.0, 0.0 );
_probHist->SetXTitle( "Prob/MaxProb" );
_probHist->SetDirectory( _theFile );
gROOT->SetStyle( "Plain" );
gStyle->SetOptStat( 0 );
_theCanvas = new TCanvas( "theCanvas", "", 900, 700 );
_theCanvas->Clear();
_theCanvas->UseCurrentStyle();
}
genRootDecayChain::~genRootDecayChain()
{
_theFile->Close();
delete _theCanvas;
}
void genRootDecayChain::run()
{
this->initTree();
this->generateEvents();
this->writeTree();
}
void genRootDecayChain::initTree()
{
// Initialise internal variables
_eventId = 0;
_PDGId = 0;
_dVtx = 0, _pVtx = 0, _daug = 0;
_px = 0.0, _py = 0.0, _pz = 0.0;
_p = 0.0, _E = 0.0, _m = 0.0, _t = 0.0;
// Set-up the TTree
_theTree->Branch( "eventId", &_eventId, "eventId/I" );
_theTree->Branch( "PDGId", &_PDGId, "PDGId/I" );
_theTree->Branch( "dVtx", &_dVtx, "dVtx/I" );
_theTree->Branch( "pVtx", &_pVtx, "pVtx/I" );
_theTree->Branch( "daug", &_daug, "daug/I" );
_theTree->Branch( "p", &_p, "p/D" );
_theTree->Branch( "E", &_E, "E/D" );
_theTree->Branch( "pL", &_pL, "pL/D" );
_theTree->Branch( "EL", &_EL, "EL/D" );
_theTree->Branch( "m", &_m, "m/D" );
if ( _storeMtmXYZ ) {
// Store momentum components as well
_theTree->Branch( "px", &_px, "px/D" );
_theTree->Branch( "py", &_py, "py/D" );
_theTree->Branch( "pz", &_pz, "pz/D" );
_theTree->Branch( "pxL", &_pxL, "pxL/D" );
_theTree->Branch( "pyL", &_pyL, "pyL/D" );
_theTree->Branch( "pzL", &_pzL, "pzL/D" );
}
// Lifetime
_theTree->Branch( "t", &_t, "t/D" );
}
void genRootDecayChain::writeTree()
{
_theFile->cd();
_theTree->Write();
_probHist->Write();
}
void genRootDecayChain::generateEvents()
{
EvtRandomEngine* randomEngine = nullptr;
EvtAbsRadCorr* radCorrEngine = nullptr;
std::list extraModels;
// Define the random number generator
#ifdef EVTGEN_CPP11
// Use the Mersenne-Twister generator (C++11 only)
randomEngine = new EvtMTRandomEngine();
#else
randomEngine = new EvtSimpleRandomEngine();
#endif
// Initialize the generator - read in the decay table and particle properties.
// For our validation purposes, we just want to read in one decay file
#ifdef EVTGEN_EXTERNAL
bool convertPythiaCodes( false );
bool useEvtGenRandom( true );
EvtExternalGenList genList( convertPythiaCodes, "", "gamma", useEvtGenRandom );
radCorrEngine = genList.getPhotosModel();
extraModels = genList.getListOfModels();
#endif
int mixingType( 1 );
bool useXml( false );
EvtGen evtGen( _decayFileName.c_str(), "../evt.pdl", randomEngine,
radCorrEngine, &extraModels, mixingType, useXml );
EvtParticle* theParent( nullptr );
EvtId theId = EvtPDL::getId( _parentName );
if ( theId.getId() == -1 && theId.getAlias() == -1 ) {
cout << "Error. Could not find valid EvtId for " << _parentName << endl;
return;
}
// Loop to create nEvents
int i;
for ( i = 0; i < _nEvents; i++ ) {
// Parent particle 4-momentum
EvtVector4R pInit( EvtPDL::getMass( theId ), 0.0, 0.0, 0.0 );
_eventId = i;
if ( i % 1000 == 0 ) {
cout << "Event number = " << i + 1 << " out of " << _nEvents
<< std::endl;
}
theParent = EvtParticleFactory::particleFactory( theId, pInit );
if ( theParent->getSpinStates() == 3 ) {
theParent->setVectorSpinDensity();
}
// Generate the event
evtGen.generateDecay( theParent );
// Decay vertex index
theParent->setAttribute( "dVtx", 0 );
// Parent vertex index
theParent->setAttribute( "pVtx", 0 );
// Daughter index
theParent->setAttribute( "daug", 0 );
int nDaug = theParent->getNDaug();
int iDaug( 0 );
storeTreeInfo( theParent );
//cout<<"Event number = "<printTree();
// Initialise the vertex number
_vertexNo = 1;
// Loop over the daughter tracks
for ( iDaug = 0; iDaug < nDaug; iDaug++ ) {
EvtParticle* daug = theParent->getDaug( iDaug );
// Decay vertex index
daug->setAttribute( "dVtx", 1 );
// Parent decay vertex
daug->setAttribute( "pVtx", 0 );
// Daughter index: 1,2,..,nDaug
daug->setAttribute( "daug", iDaug + 1 );
// Recursively store the daughter information
this->storeDaughterInfo( daug );
} // daughter loop
// Store probability/max probability
const double* dProb = theParent->decayProb();
if ( dProb ) {
_probHist->Fill( *dProb );
}
theParent->deleteTree();
} // event loop
delete randomEngine;
}
void genRootDecayChain::storeDaughterInfo( EvtParticle* theParticle )
{
if ( !theParticle ) {
return;
}
// Store the particle information in the TTree
storeTreeInfo( theParticle );
// Loop over the particle's own daughter tracks and call this function
// recursively, keeping track of the decay chain order number
int nDaug = theParticle->getNDaug();
int iDaug( 0 );
// Increment the decay vertex integer if this particle has daughters
if ( nDaug > 0 ) {
_vertexNo++;
}
// The parent vertex index for the daughters is equal to the
// current particle decay vertex index
int parentVtx = theParticle->getAttribute( "dVtx" );
// First, we need to loop over the given particle's daughters and set the
// attributes so we keep track of the decay tree history at this chain level
for ( iDaug = 0; iDaug < nDaug; iDaug++ ) {
EvtParticle* daug = theParticle->getDaug( iDaug );
// Set the attributes for the daughters
daug->setAttribute( "dVtx", _vertexNo );
daug->setAttribute( "pVtx", parentVtx );
daug->setAttribute( "daug", iDaug + 1 );
}
// Now loop over the daughters again and recursively call this function to
// follow the rest of the decay tree history
for ( iDaug = 0; iDaug < nDaug; iDaug++ ) {
EvtParticle* daug = theParticle->getDaug( iDaug );
storeDaughterInfo( daug );
}
}
void genRootDecayChain::storeTreeInfo( EvtParticle* theParticle )
{
if ( !theParticle ) {
return;
}
// Store the particle information in the TTree by first setting the internal
// variables and then calling Fill()
_dVtx = theParticle->getAttribute( "dVtx" );
_pVtx = theParticle->getAttribute( "pVtx" );
_daug = theParticle->getAttribute( "daug" );
//cout<<"Particle "<getName()<<", dVtx = "<<_dVtx
//<<", pVtx = "<<_pVtx<<", daug = "<<_daug<getP4Lab(); // lab frame = mother frame
EvtVector4R p4 = theParticle->getP4(); // frame = parents frame
// PDG id
_PDGId = EvtPDL::getStdHep( theParticle->getId() );
// 4-momenta in parent frame
_E = p4.get( 0 );
_px = p4.get( 1 );
_py = p4.get( 2 );
_pz = p4.get( 3 );
_p = sqrt( _px * _px + _py * _py + _pz * _pz );
// 4-momenta in lab frame
_EL = p4Lab.get( 0 );
_pxL = p4Lab.get( 1 );
_pyL = p4Lab.get( 2 );
_pzL = p4Lab.get( 3 );
_pL = sqrt( _pxL * _pxL + _pyL * _pyL + _pzL * _pzL );
// Rest mass and lifetime
_m = theParticle->mass();
_t = theParticle->getLifetime();
// Store the information in the TTree
_theTree->Fill();
}
int main( int argc, char** argv )
{
// Use the B0 -> K'*0 gamma, K'*0 -> K+ pi- decays as an example
string decayFileName( "BKstarGamma.dec" );
//string decayFileName("BuDst0rhop.dec");
if ( argc > 1 ) {
decayFileName = argv[1];
}
cout << "Decay file name is " << decayFileName << endl;
string rootFileName( "BKstarGamma.root" );
//string rootFileName("BuDst0rhop.root");
if ( argc > 2 ) {
rootFileName = argv[2];
}
cout << "Root file name is " << rootFileName << endl;
string parentName( "B0" );
//string parentName("B-");
if ( argc > 3 ) {
parentName = argv[3];
}
cout << "Parent name is " << parentName << endl;
int nEvents( 100000 );
if ( argc > 4 ) {
nEvents = atoi( argv[4] );
}
bool storeMtmXYZ = true;
genRootDecayChain myGen( decayFileName, rootFileName, parentName, nEvents,
storeMtmXYZ );
myGen.run();
return 0;
}
diff --git a/validation/plotBKstarGamma.C b/validation/plotBKstarGamma.C
index 132dcbe..88fd0c1 100644
--- a/validation/plotBKstarGamma.C
+++ b/validation/plotBKstarGamma.C
@@ -1,214 +1,214 @@
/***********************************************************************
* Copyright 1998-2020 CERN for the benefit of the EvtGen authors *
* *
* This file is part of EvtGen. *
* *
* EvtGen is free software: you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation, either version 3 of the License, or *
* (at your option) any later version. *
* *
* EvtGen is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU General Public License for more details. *
* *
* You should have received a copy of the GNU General Public License *
* along with EvtGen. If not, see . *
***********************************************************************/
-// Macro to create validation plots for testing PHOTOS for
+// Macro to create validation plots for testing FSR for
// B0 -> K*0' gamma, K*0' -> K+ pi- nGamma, where n = 0,1,2,...
// Uses the ROOT files created by genRootDecayChain program
#include
using std::string;
void initHist( TH1D* theHist )
{
theHist->SetDirectory( 0 );
theHist->SetTitleOffset( 1.1, "Y" );
theHist->SetLineWidth( 2 );
TAxis* xAxis = theHist->GetXaxis();
xAxis->SetLabelSize( 0.05 );
xAxis->SetTitleSize( 0.05 );
TAxis* yAxis = theHist->GetYaxis();
yAxis->SetLabelSize( 0.05 );
yAxis->SetTitleSize( 0.05 );
}
void plotBKstarGamma( string inFileName = "BKstarGamma.root" )
{
TFile* theFile = new TFile( inFileName.c_str(), "read" );
TTree* theTree = dynamic_cast( theFile->Get( "Data" ) );
// Create plots of K*0' mass, momentum of 1st and FSR gammas,
// mtm of K+, pi-, and the multiplicity of photons
TH1D* KstMHist = new TH1D( "KstMHist", "", 100, 0.0, 5.0 );
KstMHist->SetXTitle( "K^{*0'} mass (GeV/c^{2})" );
KstMHist->SetYTitle( "Frequency/50 (MeV/c^{2})" );
initHist( KstMHist );
TH1D* gamPHist = new TH1D( "gamPHist", "", 100, 0.0, 3.0 );
gamPHist->SetXTitle( "1st #gamma mtm (GeV/c)" );
gamPHist->SetYTitle( "Frequency/30 (MeV/c^{2})" );
initHist( gamPHist );
TH1D* FSRPHist = new TH1D( "FSRPHist", "", 100, 0.0, 2.0 );
FSRPHist->SetXTitle( "FSR #gamma mtm (GeV/c)" );
FSRPHist->SetYTitle( "Frequency/20 (MeV/c)" );
initHist( FSRPHist );
TH1D* KPHist = new TH1D( "KPHist", "", 100, 0.0, 3.0 );
KPHist->SetXTitle( "K^{+} mtm (GeV/c)" );
KPHist->SetYTitle( "Frequency/30 (MeV/c)" );
initHist( KPHist );
TH1D* piPHist = new TH1D( "piPHist", "", 100, 0.0, 3.0 );
piPHist->SetXTitle( "#pi^{-} mtm (GeV/c)" );
piPHist->SetYTitle( "Frequency/30 (MeV/c)" );
initHist( piPHist );
TH1D* gamNHist = new TH1D( "gamNHist", "", 6, 0, 6 );
gamNHist->SetXTitle( "Number of photons" );
gamNHist->SetYTitle( "Fraction of events" );
initHist( gamNHist );
// Setup the TTree variables
int eventId( 0 ), PDGId( 0 ), pVtx( 0 ), daug( 0 );
double pL( 0.0 ), m( 0.0 );
theTree->SetBranchStatus( "*", 0 );
theTree->SetBranchStatus( "eventId", 1 );
theTree->SetBranchStatus( "PDGId", 1 );
theTree->SetBranchStatus( "daug", 1 );
theTree->SetBranchStatus( "pVtx", 1 );
theTree->SetBranchStatus( "pL", 1 );
theTree->SetBranchStatus( "m", 1 );
theTree->SetBranchAddress( "eventId", &eventId );
theTree->SetBranchAddress( "PDGId", &PDGId );
theTree->SetBranchAddress( "pVtx", &pVtx );
theTree->SetBranchAddress( "daug", &daug );
theTree->SetBranchAddress( "pL", &pL );
theTree->SetBranchAddress( "m", &m );
int nEntries = theTree->GetEntries();
int i( 0 );
int oldEvent( -1 );
int nPhotons( 0 );
int nEvents = theTree->GetMaximum( "eventId" ) + 1;
for ( i = 0; i < nEntries; i++ ) {
theTree->GetEntry( i );
if ( oldEvent != eventId ) {
// We have a new event
// Fill the photon multiplicity histogram
gamNHist->Fill( nPhotons * 1.0 );
// Reset photon counter
nPhotons = 0;
// Set the old event index to the current one
oldEvent = eventId;
}
if ( PDGId == 100313 ) {
// K*0' mass distribution
KstMHist->Fill( m );
}
if ( PDGId == 22 ) {
if ( pVtx == 0 && daug == 2 ) {
// 1st photon momentum
gamPHist->Fill( pL );
} else {
// Other FSR photon momentum
FSRPHist->Fill( pL );
}
// Increment the photon counter
nPhotons++;
}
if ( PDGId == 321 ) {
KPHist->Fill( pL );
}
if ( PDGId == -211 ) {
piPHist->Fill( pL );
}
}
// Create the plots
gROOT->SetStyle( "Plain" );
gStyle->SetOptStat( 0 );
TCanvas* theCanvas = new TCanvas( "theCanvas", "", 1200, 1100 );
theCanvas->UseCurrentStyle();
theCanvas->Divide( 2, 3 );
// Same normalisation number for all plots (except FSR momenta)
double scale = 1.0 / ( nEvents * 1.0 );
// K*0' mass
theCanvas->cd( 1 );
gPad->SetLogy( 0 );
KstMHist->Scale( scale );
KstMHist->SetMaximum( 0.16 );
KstMHist->Draw();
// 1st photon momentum
theCanvas->cd( 2 );
gPad->SetLogy( 1 );
gamPHist->Scale( scale );
gamPHist->SetMaximum( 0.5 );
gamPHist->Draw();
// K+ momentum
theCanvas->cd( 3 );
KPHist->Scale( scale );
KPHist->SetMaximum( 0.025 );
KPHist->Draw();
// FSR photon momenta
theCanvas->cd( 4 );
gPad->SetLogy( 1 );
// Scale is equal to the area of the histogram, since there may
// be events with more than one FSR photon
double scale1( 1.0 );
double FSRIntegral = FSRPHist->Integral();
if ( FSRIntegral > 0.0 ) {
scale1 = 1.0 / FSRIntegral;
}
FSRPHist->Scale( scale1 );
FSRPHist->SetMaximum( 1.0 );
FSRPHist->Draw();
// pi- momentum
theCanvas->cd( 5 );
piPHist->Scale( scale );
piPHist->SetMaximum( 0.025 );
piPHist->Draw();
// Photon multiplicity
theCanvas->cd( 6 );
gamNHist->Scale( scale );
gamNHist->SetMaximum( 1.0 );
gamNHist->Draw();
theCanvas->cd( 1 );
TLatex latex;
latex.SetNDC();
latex.SetTextSize( 0.045 );
latex.DrawLatex(
0.1, 0.95,
- "B0 #rightarrow K^{*0'} #gamma, K^{*0'} #rightarrow K^{+} #pi^{-} with PHOTOS" );
+ "B0 #rightarrow K^{*0'} #gamma, K^{*0'} #rightarrow K^{+} #pi^{-} with FSR" );
theCanvas->Print( "plotBKstarGamma.eps" );
//theCanvas->Print("plotBKstarGamma.png");
}
diff --git a/validation/runPhotosTest.sh b/validation/runFSRTest.sh
similarity index 94%
rename from validation/runPhotosTest.sh
rename to validation/runFSRTest.sh
index e2ae982..efe217c 100644
--- a/validation/runPhotosTest.sh
+++ b/validation/runFSRTest.sh
@@ -1,21 +1,21 @@
########################################################################
# Copyright 1998-2020 CERN for the benefit of the EvtGen authors #
# #
# This file is part of EvtGen. #
# #
# EvtGen is free software: you can redistribute it and/or modify #
# it under the terms of the GNU General Public License as published by #
# the Free Software Foundation, either version 3 of the License, or #
# (at your option) any later version. #
# #
# EvtGen is distributed in the hope that it will be useful, #
# but WITHOUT ANY WARRANTY; without even the implied warranty of #
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the #
# GNU General Public License for more details. #
# #
# You should have received a copy of the GNU General Public License #
# along with EvtGen. If not, see . #
########################################################################
-./genExampleRootFiles photosTest.dec Upsilon4S_PHOTOS.root "Upsilon(4S)" 100000
+./genExampleRootFiles fsrTest.dec Upsilon4S_FSR.root "Upsilon(4S)" 100000