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# SUSY Les Houches Accord 2 - MSSM spectrum + Decays
# SPheno 3.1.1
# W. Porod, Comput. Phys. Commun. 153 (2003) 275-315, hep-ph/0301101
# in case of problems send email to porod@physik.uni-wuerzburg.de
# Created: 29.04.2011, 17:24
Block SPINFO # Program information
1 SPheno # spectrum calculator
2 3.1.1 # version number
#
Block SPhenoINFO # SPheno specific information
1 2 # using 2-loop RGEs
2 1 # using running masses for boundary conditions at mZ
Block MODSEL # Model selection
1 1 # mSUGRA model
6 3 # switching on flavour violation
Block MINPAR # Input parameters
1 7.00000000E+01 # m0
2 2.50000000E+02 # m12
3 1.03712372E+01 # tanb at m_Z
4 1.00000000E+00 # Sign(mu)
5 -3.00000000E+02 # A0
#
Block gauge Q= 1.37416898E+16 # (GUT scale)
1 7.15024169E-01 # g'(Q)^DRbar
2 7.15024169E-01 # g(Q)^D#
0.00000000E+00 3 25 21 21 23 # h0-g-g-Z eff. coupling^2, normalised to SM
0.00000000E+00 3 35 21 21 23 # H0-g-g-Z eff. coupling^2, normalised to SM
0.00000000E+00 3 36 21 21 23 # A0-g-g-Z eff. coupling^2, normalised to SMRbar
3 7.13229479E-01 # g3(Q)^DRbar
Block SMINPUTS # SM parameters#
0.00000000E+00 3 25 21 21 23 # h0-g-g-Z eff. coupling^2, normalised to SM
0.00000000E+00 3 35 21 21 23 # H0-g-g-Z eff. coupling^2, normalised to SM
0.00000000E+00 3 36 21 21 23 # A0-g-g-Z eff. coupling^2, normalised to SM
1 1.27933817E+02 # alpha_em^-1(MZ)^MSbar
2 1.16639000E-05 # G_mu [GeV^-2]
3 1.19000000E-01 # alpha_s(MZ)^MSbar
4 9.11876000E+01 # m_Z(pole)
5 4.20000000E+00 # m_b(m_b), MSbar
6 1.72900000E+02 # m_t(pole)
7 1.77700000E+00 # m_tau(pole)
8 5.10923625E-11 # m_nu_3
11 5.10998910E-04 # m_e(pole)
12 5.67060523E-16 # m_nu_1
13 1.05658000E-01 # m_muon(pole)
14 8.80908385E-12 # m_nu_2
21 5.00000000E-03 # m_d(2 GeV), MSbar
22 3.00000000E-03 # m_u(2 GeV), MSbar
23 1.05000000E-01 # m_s(2 GeV), MSbar
24 1.27000000E+00 # m_c(m_c), MSbar
Block VCKMIN # CKM matrix, Wolfenstein parameterization
1 2.25700000E-01 # lambda
2 8.14000000E-01 # A
3 1.35000000E-01 # rho bar
4 3.49000000E-01 # eta bar
Block gauge Q= 1.00000000E+03 # (SUSY scale)
1 3.64211201E-01 # g'(Q)^DRbar
2 6.44784647E-01 # g(Q)^DRbar
3 1.08509541E+00 # g3(Q)^DRbar
Block Yu Q= 1.00000000E+03 # (SUSY scale)
1 1 8.37004637E-06 # Y_u(Q)^DRbar
2 2 3.54332843E-03 # Y_c(Q)^DRbar
3 3 8.64032272E-01 # Y_t(Q)^DRbar
Block Yd Q= 1.00000000E+03 # (SUSY scale)
1 1 1.32903980E-04 # Y_d(Q)^DRbar
2 2 2.79109085E-03 # Y_s(Q)^DRbar
3 3 1.35710473E-01 # Y_b(Q)Philip Bechtle wrote:
> Dear Karina,
^DRbar
Block Ye Q= 1.00000000E+03 # (SUSY scale)
1 1 2.96871190E-05 # Y_e(Q)^DRbar
2 2 6.11217118E-03 # Y_mu(Q)^DRbar
3 3 1.02808107E-01 # Y_tau(Q)^DRbar
Block VCKM Q= 1.00000000E+03 # V_CKM at the SUSY scale
1 1 9.74192278E-01 # Re[V_(1,1)]
1 2 2.25694266E-01 # Re[V_(1,2)]
1 3 3.39166413E-03 # Re[V_(1,3)]
2 1 -2.25646353E-01 # Re[V_(2,1)]
2 2 9.73382405E-01 # Re[V_(2,2)]
2 3 4.01300099E-02 # Re[V_(2,3)]
3 1 5.75572692E-03 # Re[V_(3,1)]
3 2 -3.98596624E-02 # Re[V_(3,2)]
3 3 9.99188710E-01 # Re[V_(3,3)]
Block VPMNS Q= 1.00000000E+03 # V_PMNS at the SUSY scale
1 1 0.00000000E+00 # Re[V#
0.00000000E+00 3 25 21 21 23 # h0-g-g-Z eff. coupling^2, normalised to SM
0.00000000E+00 3 35 21 21 23 # H0-g-g-Z eff. coupling^2, normalised to SM
0.00000000E+00 3 36 21 21 23 # A0-g-g-Z eff. coupling^2, normalised to SM_(1,1)]
1 2 0.00000000E+00 # Re[V_(1,2)]
1 3 0.00000000E+00 # Re[V_(1,3)]
2 1 0.00000000E+00 # Re[V_(2,1)]
2 2 0.00000000E+00 # Re[V_(2,2)]
2 3 0.00000000E+00 # Re[V_(2,3)]
3 1 0.00000000E+00 # Re[V_(3,1)]
3 2 0.00000000E+00 # Re[V_(3,2)]
3 3 0.00000000E+00 # Re[V_Philip Bechtle wrote:
> Dear Karina,
(3,3)]
Block IMVPMNS Q= 1.00000000E+03 # V_PMNS at the SUSY scale
1 1 -8.15898145E-01 # Im[V_(1,1)]
1 2 -5.78195638E-01 # Im[V_(1,2)]
1 3 1.45459001E-04 # Im[V_(1,3)]
2 1 4.06984252E-01 # Im[V_(2,1)]
2 2 -5.74121166E-01 # Im[V_(2,2)]
2 3 7.10456688E-01 # Im[V_(2,3)]
3 1 -4.10699447E-01 # Im[V_(3,1)]
3 2 5.79719493E-01 # Im[V_(3,2)]
3 3 7.03740914E-01 # Im[V_(3,3)]
Block Tu Q= 1.00000000E+03 # SUSY scale
1 1 -6.57492259E-03 # Re[T_(u,1,1)]
1 2 3.60953891E-09 # Re[T_(u,1,2)]
1 3 5.26960876E-08 # Re[T#
0.00000000E+00 3 25 21 21 23 # h0-g-g-Z eff. coupling^2, normalised to SM
0.00000000E+00 3 35 21 21 23 # H0-g-g-Z eff. coupling^2, normalised to SM
0.00000000E+00 3 36 21 21 23 # A0-g-g-Z eff. coupling^2, normalised to SM_(u,1,3)]
2 1 1.52804235E-06 # Re[T_(u,2,1)]
2 2 -2.78336425E+00 # Re[T_(u,2,2)]
2 3 2.64136161E-04 # Re[T_(u,2,3)]
3 1 5.51165642E-03 # Re[T_(u,3,1)]
3 2 6.52601374E-02 # Re[T_(u,3,2)]
3 3 -4.84989882E+02 # Re[T_(u,3,3)]
Block Td Q= 1.00000000E+03 # SUSY scale
1 1 -1.34464575E-01 # Re[T_(d,1,1)]
1 2 -2.27070655E-06 # Re[T_(d,1,2)]
1 3 5.59925412E-05 # Re[T_(d,1,3)]
2 1 -4.76866749E-05 # Re[T_(d,2,1)]
2 2 -2.82353660E+00 # Re[T_(d,2,2)]
2 3 -8.14336676E-03 # Re[T_(d,2,3)]
3 1 5.71884718E-02 # Re[T_(d,3,1)]
3 2 -3.96046591E-01 # Re[T_(d,3,2)]
3 3 -1.26605932E+02 # Re[T_(d,3,3)]
Block Te Q= 1.00000000E+03 # SUSY scale
1 1 -1.32093520E-02 # Re[T_(l,1,1)]
1 2 1.80883261E-03 # Re[T_(Philip Bechtle wrote:
> Dear Karina,
l,1,2)]
1 3 -3.06128055E-02 # Re[T_(l,1,3)]
2 1 8.78542404E-06 # Re[T_(l,2,1)]
2 2 -2.70378637E+00 # Re[T_(l,2,2)]
2 3 2.32605426E-01 # Re[T_(l,2,3)]
3 1 -8.79256696E-06 # Re[T_(l,3,1)]
3 2 1.37552366E-02 # Re[T#
0.00000000E+00 3 25 21 21 23 # h0-g-g-Z eff. coupling^2, normalised to SM
0.00000000E+00 3 35 21 21 23 # H0-g-g-Z eff. coupling^2, normalised to SM
0.00000000E+00 3 36 21 21 23 # A0-g-g-Z eff. coupling^2, normalised to SM_(l,3,2)]
3 3 -4.51271417E+01 # Re[T_(l,3,3)]
Block MSOFT Q= 1.00000000E+03 # soft SUSY breaking masses at Q
1 1.05397957E+02 # M_1
2 1.94818473E+02 # M_2
3 5.66327276E+02 # M_3
21 2.51218836E+04 # M^2_(H,d)
22 -1.39097657E+05 # M^2_(H,u)
31 1.79137888E+02 # M_(L,11)
32 1.76650846E+02 # M_(L,22)
33 1.74978424E+02 # M_(L,33)
34 1.15396568E+02 # M_(E,11)
35 1.15377738E+02 # M_(E,22)
36 1.09977010E+02 # M_(E,33)
41 5.19874385E+02 # M_(Q,11)
42 5.19797182E+02 # M_(Q,22)
43 4.67035939E+02 # M_(Q,33)
44 5.01529735E+02 # M_(U,11)
45 5.01527426E+02 # M_(U,22)
46 3.85394763E+02 # M_(U,33)
47 4.99329226E+02 # M_(D,11)
48 4.99327371E+02 # M_(D,22)
49 4.95245133E+02 # M_(D,33)
Block MSL2 Q= 1.00000000E+03 # M^2_L soft SUSY breaking masses
1 1 3.20903831E+04 # Re[M^2_(L,1,1)]
1 2 -1.05049090E+02 # Re[M^2_(L,1,2)]
1 3 1.05360205E+02 # Re[M^2_(L,1,3)]
2 1 -1.05049090E+02 # Re[M^2_(L,2,1)]
2 2 3.12055213E+04 # Re[M^2_(L,2,2)]
2 3 -7.68060283E+02 # Re[M^2_(L,2,3)]
3 1 1.05360205E+02 # Re[M^2_(L,3,1)]
3 2 -7.68060283E+02 # Re[M^2_(L,3,2)]
3 3 3.06174490E+04 # Re[M^2_(L,3,3)]
Block MSE2 Q= 1.00000000E+03 # M^2_E soft SUSY breaking masses
1 1 1.33163678E+04 # Re[M^2_(E,1,1)]
1 2 3.23425425E-05 # Re[M^2_(E,1,2)]
1 3 -5.46449004E-04 # Re[M^2_(E,1,3)]
2 1 3.23425425E-05 # Re[M^2_(E,2,1)]
2 2 1.33120225E+04 # Re[M^2_(E,2,2)]
2 3 8.41083544E-01 # Re[M^2_(E,2,3)]
3 1 -5.46449004E-04 # Re[M^2_(E,3,1)]
3 2 8.41083544E-01 # Re[M^2_(E,3,2)]
3 3 1.20949428E+04 # Re[M^2_(E,3,3)]
Block MSQ2 Q= 1.00000000E+03 # M^2_Q soft SUSY breaking masses
1 1 2.70269376E+05 # Re[M^2_(Q,1,1)]
1 2 1.18022770E+01 # Re[M^2_(Q,1,2)]
1 3 -2.88748660E+02 # Re[M^2_(Q,1,3)]
2 1 1.18022770E+01 # Re[M^2_(Q,2,1)]
2 2 2.70189110E+05 # Re[M^2_(Q,2,2)]
2 3 1.99967205E+03 # Re[M^2_(Q,2,3)]
3 1 -2.88748660E+02 # Re[M^2_(Q,3,1)]
3 2 1.99967205E+03 # Re[M^2_(Q,3,2)]
3 3 2.18122568E+05 # Re[M^2_(Q,3,3)]
Block MSU2 Q= 1.00000000E+03 # M^2_U soft SUSY breaking masses
1 1 2.51532075E+05 # Re[M^2_(U,1,1)]
1 2 2.97206996E-09 # Re[M^2_(U,1,2)]
1 3 1.05195637E-05 # Re[M^2_(U,1,3)]
2 1 2.97206996E-09 # Re[M^2_(U,2,1)]
2 2 2.51529759E+05 # Re[M^2_(U,2,2)]
2 3 5.27287173E-02 # Re[M^2_(U,2,3)]
3 1 1.05195637E-05 # Re[M^2_(U,3,1)]
3 2 5.27287173E-02 # Re[M^2_(U,3,2)]
3 3 1.48529123E+05 # Re[M^2_(U,3,3)]
Block MSD2 Q= 1.00000000E+03 # M^2_D soft SUSY breaking masses
1 1 2.49329676E+05 # Re[M^2_(D,1,1)]
1 2 -1.44222471E-06 # Re[M^2_(D,1,2)]
1 3 1.72831358E-03 # Re[M^2_(D,1,3)]
2 1 -1.44222471E-06 # Re[M^2_(D,2,1)]
2 2 2.49327823E+05 # Re[M^2_(D,2,2)]
2 3 -2.51360116E-01 # Re[M^2_(D,2,3)]
3 1 1.72831358E-03 # Re[M^2_(D,3,1)]
3 2 -2.51360116E-01 # Re[M^2_(D,3,2)]
3 3 2.45267742E+05 # Re[M^2_(D,3,3)]
Block MASS # Mass spectrum
# PDG code mass particle
4 1.27000000E+00 # m_c(m_c), MSbar
5 4.20000000E+00 # m_b(m_b), MSbar
6 1.72900000E+02 # m_t(pole)
23 9.11876000E+01 # m_Z(pole)
24 8.02171763E+01 # W+
15 1.77700000E+00 # m_tau(pole)
25 1.10813901E+02 # h0
35 4.18954351E+02 # H0
36 4.18847765E+02 # A0
37 4.26807664E+02 # H+
1000001 5.01306710E+02 # ~d_1
1000003 5.40020142E+02 # ~d_2
1000005 5.41144642E+02 # ~d_3
2000001 5.41149026E+02 # ~d_4
2000003 5.64192978E+02 # ~d_5
2000005 5.64196745E+02 # ~d_6
1000002 3.62820963E+02 # ~u_1
1000004 5.41382016E+02 # ~u_2
1000006 5.41399851E+02 # ~u_3
2000002 5.58712192E+02 # ~u_4
2000004 5.58721917E+02 # ~u_5
2000006 5.81269213E+02 # ~u_6
1000012 1.64416768E+02 # ~nu_1
1000014 1.69294783E+02 # ~nu_2
1000016 1.70690486E+02 # ~nu_3
1000011 1.07703895E+02 # ~l_1
1000013 1.25189867E+02 # ~l_2
1000015 1.25254835E+02 # ~l_3
2000011 1.85061294E+02 # ~l_4
2000013 1.87995852E+02 # ~l_5
2000015 1.91787543E+02 # ~l_6
1000021 6.09722715E+02 # ~g
1000022 9.96315828E+01 # ~chi_10
1000023 1.84867256E+02 # ~chi_20
1000025 -3.95325014E+02 # ~chi_30
1000035 4.09392240E+02 # ~chi_40
1000024 1.84610580E+02 # ~chi_1+
1000037 4.10827619E+02 # ~chi_2+
# Higgs mixing
Block alpha # Effective Higgs mixing angle
-1.11391624E-01 # alpha
Block Hmix Q= 1.00000000E+03 # Higgs mixing parameters
1 3.69592817E+02 # mu
2 1.00000000E+01 # tan[beta](Q)
3 2.43929967E+02 # v(Q)
4 1.59221928E+05 # m^2_A(Q)
Block USQmix # u-sqark mixing matrix
1 1 -1.93942788E-05 # Re[R_Su(1,1)]
1 2 -2.29636532E-04 # Re[R_Su(1,2)]
1 3 -5.67806140E-01 # Re[R_Su(1,3)]
1 4 -6.52592327E-11 # Re[R_Su(1,4)]
1 5 -3.27112903E-07 # Re[R_Su(1,5)]
1 6 -8.23162277E-01 # Re[R_Su(1,6)]
2 1 -8.32893772E-07 # Re[R_Su(2,1)]
2 2 -2.91710047E-02 # Re[R_Su(2,2)]
2 3 -3.14829971E-05 # Re[R_Su(2,3)]
2 4 -5.83085260E-08 # Re[R_Su(2,4)]
2 5 -9.99574435E-01 # Re[R_Su(2,5)]
2 6 3.02515773E-05 # Re[R_Su(2,6)]
3 1 6.89836785E-05 # Re[R_Su(3,1)]
3 2 2.66219204E-10 # Re[R_Su(3,2)]
3 3 6.29061098E-09 # Re[R_Su(3,3)]
3 4 9.99999998E-01 # Re[R_Su(3,4)]
3 5 -5.83989812E-08 # Re[R_Su(3,5)]
3 6 -6.04381132E-09 # Re[R_Su(3,6)]
4 1 -9.98592769E-01 # Re[R_Su(4,1)]
4 2 -5.30092685E-02 # Re[R_Su(4,2)]
4 3 -2.40457568E-04 # Re[R_Su(4,3)]
4 4 6.88867099E-05 # Re[R_Su(4,4)]
4 5 1.54783779E-03 # Re[R_Su(4,5)]
4 6 2.04179216E-04 # Re[R_Su(4,6)]
5 1 5.30324451E-02 # Re[R_Su(5,1)]
5 2 -9.98165214E-01 # Re[R_Su(5,2)]
5 3 -1.74024605E-03 # Re[R_Su(5,3)]
5 4 -3.65638638E-06 # Re[R_Su(5,4)]
5 5 2.91299342E-02 # Re[R_Su(5,5)]
5 6 1.47759387E-03 # Re[R_Su(5,6)]
6 1 -1.92965910E-04 # Re[R_Su(6,1)]
6 2 -2.28522521E-03 # Re[R_Su(6,2)]
6 3 8.23160434E-01 # Re[R_Su(6,3)]
6 4 4.70360005E-09 # Re[R_Su(6,4)]
6 5 2.35799800E-05 # Re[R_Su(6,5)]
6 6 -5.67804227E-01 # Re[R_Su(6,6)]
Block DSQmix # d-sqark mixing matrix
1 1 4.78652911E-03 # Re[R_Sd(1,1)]
1 2 -3.31492077E-02 # Re[R_Sd(1,2)]
1 3 9.34075097E-01 # Re[R_Sd(1,3)]
1 4 1.54247525E-06 # Re[R_Sd(1,4)]
1 5 -2.24352822E-04 # Re[R_Sd(1,5)]
1 6 3.55502294E-01 # Re[R_#
0.00000000E+00 3 25 21 21 23 # h0-g-g-Z eff. coupling^2, normalised to SM
0.00000000E+00 3 35 21 21 23 # H0-g-g-Z eff. coupling^2, normalised to SM
0.00000000E+00 3 36 21 21 23 # A0-g-g-Z eff. coupling^2, normalised to SMSd(1,6)]
2 1 3.94438302E-04 # Re[R_Sd(2,1)]
2 2 -1.22925743E-02 # Re[R_Sd(2,2)]
2 3 3.15565812E-02 # Re[R_Sd(2,3)]
2 4 9.38492336E-04 # Re[R_Sd(2,4)]
2 5 -9.95830767E-01 # Re[R_Sd(2,5)]
2 6 -8.46942852E-02 # Re[R_Sd(2,6)]
3 1 4.59876029E-04 # Re[R_Sd(3,1)]
3 2 -7.60296834E-06 # Re[R_Sd(3,2)]
3 3 1.98486258E-04 # Re[R_Sd(3,3)]
3 4 9.99999239E-01 # Re[R_Sd(3,4)]
3 5 9.94243695E-04 # Re[R_Sd(3,5)]
3 6 -5.32130817E-04 # Re[R_Sd(3,6)]
4 1 4.36956220E-03 # Re[R_Sd(4,1)]
4 2 -2.93888739E-02 # Re[R_Sd(4,2)]
4 3 3.53166005E-01 # Re[R_Sd(4,3)]
4 4 -6.57761000E-04 # Re[R_Sd(4,4)]
4 5 9.07084201E-02 # Re[R_Sd(4,5)]
4 6 -9.30678529E-01 # Re[R_Sd(4,6)]
5 1 -9.97280822E-01 # Re[R_Sd(5,1)]
5 2 -7.36221149E-02 # Re[R_Sd(5,2)]
5 3 2.94378451E-03 # Re[R_Sd(5,3)]
5 4 4.56155240E-04 # Re[R_Sd(5,4)]
5 5 7.07152039E-04 # Re[R_Sd(5,5)]
5 6 -1.17174758E-03 # Re[R_Sd(5,6)]
6 1 -7.34070283E-02 # Re[R_Sd(6,1)]
6 2 9.96225929E-01 # Re[R_Sd(6,2)]
6 3 4.21065546E-02 # Re[R_Sd(6,3)]
6 4 3.35695333E-05 # Re[R_Sd(6,4)]
6 5 -9.56697932E-03 # Re[R_Sd(6,5)]
6 6 -1.67576003E-02 # Re[R_Sd(6,6)]
Block SELmix # slepton mixing matrix
1 1 1.45006995E-03 # Re[R_Sl(1,1)]
1 2 -1.14084990E-02 # Re[R_Sl(1,2)]
1 3 -3.28345899E-01 # Re[R_Sl(1,3)]
1 4 6.68028743E-07 # Re[R_Sl(1,4)]
1 5 -1.09351200E-03 # Re[R_Sl(1,5)]
1 6 -9.44486908E-01 # Re[R_Sl(1,6)]
2 1 -1.31119333E-04 # Re[R_Sl(2,1)]
2 2 -2.43104881E-02 # Re[R_Sl(2,2)]
2 3 -3.86392502E-04 # Re[R_Sl(2,3)]
2 4 -1.61709365E-05 # Re[R_Sl(2,4)]
2 5 -9.99703116E-01 # Re[R_Sl(2,5)]
2 6 1.58521391E-03 # Re[R_Sl(2,6)]
3 1 1.12669933E-04 # Re[R_Sl(3,1)]
3 2 2.43736415E-07 # Re[R_Sl(3,2)]
3 3 -2.46382156E-07 # Re[R_Sl(3,3)]
3 4 9.99999994E-01 # Re[R_Sl(3,4)]
3 5 -1.61947915E-05 # Re[R_Sl(3,5)]
3 6 9.81734228E-07 # Re[R_Sl(3,6)]
4 1 -6.19214989E-02 # Re[R_Sl(4,1)]
4 2 -9.48366734E-01 # Re[R_Sl(4,2)]
4 3 -2.89304511E-01 # Re[R_Sl(4,3)]
4 4 7.40500106E-06 # Re[R_Sl(4,4)]
4 5 2.33594961E-02 # Re[R_Sl(4,5)]
4 6 1.11908440E-01 # Re[R_Sl(4,6)]
5 1 -9.93548130E-01 # Re[R_Sl(5,1)]
5 2 2.90000200E-02 # Re[R_Sl(5,2)]
5 3 1.02964194E-01 # Re[R_Sl(5,3)]
5 4 1.11987362E-04 # Re[R_Sl(5,4)]
5 5 -6.74432696E-04 # Re[R_Sl(5,5)]
5 6 -3.76698650E-02 # Re[R_Sl(5,6)]
6 1 9.50037260E-02 # Re[R_Sl(6,1)]
6 2 -3.14703642E-01 # Re[R_Sl(6,2)]
6 3 8.93246940E-01 # Re[R_Sl(6,3)]
6 4 -9.99601515E-06 # Re[R_Sl(6,4)]
6 5 6.80900407E-03 # Re[R_Sl(6,5)]
6 6 -3.06593299E-01 # Re[R_Sl(6,6)]
Block SNUmix # sneutrino mixing matrix
1 1 0.00000000E+00 # Re[R_Sn(1,1)]
1 2 0.00000000E+00 # Re[R_Sn(1,2)]
1 3 0.00000000E+00 # Re[R_Sn(1,3)]
2 1 0.00000000E+00 # Re[R_Sn(2,1)]
2 2 0.00000000E+00 # Re[R_Sn(2,2)]
2 3 0.00000000E+00 # Re[R_Sn(2,3)]
3 1 0.00000000E+00 # Re[R_Sn(3,1)]
3 2 0.00000000E+00 # Re[R_Sn(3,2)]
3 3 0.00000000E+00 # Re[R_Sn(3,3)]
Block IMSNUmix # imaginary parts of sneutrino mixing matrix
1 1 9.71912690E-02 # Im[R_Sn(1,1)]
1 2 -1.61103117E-01 # Im[R_Sn(1,2)]
1 3 -9.82140338E-01 # Im[R_Sn(1,3)]
2 1 2.59708648E-01 # Im[R_Sn(2,1)]
2 2 -9.48517770E-01 # Im[R_Sn(2,2)]
2 3 1.81288331E-01 # Im[R_Sn(2,3)]
3 1 9.60783678E-01 # Im[R_Sn(3,1)]
3 2 2.72689982E-01 # Im[R_Sn(3,2)]
3 3 5.03477730E-02 # Im[R_Sn(3,3)]
Block Nmix # neutralino mixing matrix
1 1 -9.86046618E-01 # Re[N(1,1)]
1 2 5.83359626E-02 # Re[N(1,2)]
1 3 -1.46383745E-01 # Re[N(1,3)]
1 4 5.36729181E-02 # Re[N(1,4)]
2 1 -1.02984872E-01 # Re[N(2,1)]
2 2 -9.48259588E-01 # Re[N(2,2)]
2 3 2.61957729E-01 # Re[N(2,3)]
2 4 -1.46887773E-01 # Re[N(2,4)]
3 1 -5.94078741E-02 # Re[N(3,1)]
3 2 8.86910455E-02 # Re[N(3,2)]
3 3 6.95903738E-01 # Re[N(3,3)]
3 4 7.10156736E-01 # Re[N(3,4)]
4 1 -1.16519904E-01 # Re[N(4,1)]
4 2 2.99223274E-01 # Re[N(4,2)]
4 3 6.52432322E-01 # Re[N(4,3)]
4 4 -6.86455104E-01 # Re[N(4,4)]
Block Umix # chargino mixing matrix
1 1 -9.32522926E-01 # Re[U(1,1)]
1 2 3.61110777E-01 # Re[U(1,2)]
2 1 3.61110777E-01 # Re[U(2,1)]
2 2 9.32522926E-01 # Re[U(2,2)]
Block Vmix # chargino mixing matrix
1 1 -9.80129590E-01 # Re[V(1,1)]
1 2 1.98358226E-01 # Re[V(1,2)]
2 1 1.98358226E-01 # Re[V(2,1)]
2 2 9.80129590E-01 # Re[V(2,2)]
DECAY 1000011 1.08976857E-02 # ~l^-_1
# BR NDA ID1 ID2
9.99970584E-01 2 1000022 15 # BR(~l^-_1 -> chi^0_1 tau^-)
DECAY 1000013 8.63244720E-02 # ~l^-_2
# BR NDA ID1 ID2
9.99997520E-01 2 1000022 13 # BR(~l^-_2 -> chi^0_1 mu^-)
DECAY 1000015 8.67107783E-02 # ~l^-_3
# BR NDA ID1 ID2
1.00000000E+00 2 1000022 11 # BR(~l^-_3 -> chi^0_1 e^-)
DECAY 2000011 1.00316368E-01 # ~l^-_4
# BR NDA ID1 ID2
3.66807591E-03 2 1000022 11 # BR(~l^-_4 -> chi^0_1 e^-)
8.62750496E-01 2 1000022 13 # BR(~l^-_4 -> chi^0_1 mu^-)
1.33247223E-01 2 1000022 15 # BR(~l^-_4 -> chi^0_1 tau^-)
3.08651509E-04 2 -1000024 14 # BR(~l^-_4 -> chi^-_1 nu_2)
DECAY 2000013 1.03028533E-01 # ~l^-_5
# BR NDA ID1 ID2
9.57838726E-01 2 1000022 11 # BR(~l^-_5 -> chi^0_1 e^-)
8.18004491E-04 2 1000022 13 # BR(~l^-_5 -> chi^0_1 mu^-)
1.63686863E-02 2 1000022 15 # BR(~l^-_5 -> chi^0_1 tau^-)
8.21998518E-03 2 1000023 11 # BR(~l^-_5 -> chi^0_2 e^-)
1.66855692E-02 2 -1000024 16 # BR(~l^-_5 -> chi^-_1 nu_3)
DECAY 2000015 1.48453211E-01 # ~l^-_6
# BR NDA ID1 ID2
6.39169945E-03 2 1000022 11 # BR(~l^-_6 -> chi^0_1 e^-)
7.02808516E-02 2 1000022 13 # BR(~l^-_6 -> chi^0_1 mu^-)
8.57383865E-01 2 1000022 15 # BR(~l^-_6 -> chi^0_1 tau^-)
2.45280788E-04 2 1000023 11 # BR(~l^-_6 -> chi^0_2 e^-)
2.69032849E-03 2 1000023 13 # BR(~l^-_6 -> chi^0_2 mu^-)
1.92800772E-02 2 1000023 15 # BR(~l^-_6 -> chi^0_2 tau^-)
4.37278974E-02 2 -1000024 16 # BR(~l^-_6 -> chi^-_1 nu_3)
DECAY 1000012 1.03085950E-01 # ~nu_1
# BR NDA ID1 ID2
1.00000000E+00 2 1000022 12 # BR(~nu_1 -> chi^0_1 nu_1)
DECAY 1000014 1.13256296E-01 # ~nu_2
# BR NDA ID1 ID2
1.00000000E+00 2 1000022 14 # BR(~nu_2 -> chi^0_1 nu_2)
DECAY 1000016 1.16169342E-01 # ~nu_3
# BR NDA ID1 ID2
1.00000000E+00 2 1000022 16 # BR(~nu_3 -> chi^0_1 nu_3)
DECAY 1000001 4.31537619E+00 # ~d_1
# BR NDA ID1 ID2
3.93413789E-02 2 1000022 5 # BR(~d_1 -> chi^0_1 b)
3.40029086E-04 2 1000023 3 # BR(~d_1 -> chi^0_2 s)
2.88425415E-01 2 1000023 5 # BR(~d_1 -> chi^0_2 b)
2.37109969E-03 2 1000025 5 # BR(~d_1 -> chi^0_3 b)
4.47007960E-03 2 1000035 5 # BR(~d_1 -> chi^0_4 b)
3.59913564E-01 2 -1000024 6 # BR(~d_1 -> chi^-_1 t)
3.05076965E-01 2 1000002 -24 # BR(~d_1 -> ~u_1 W^-)
DECAY 1000003 2.98021107E-01 # ~d_2
# BR NDA ID1 ID2
9.56193465E-01 2 1000022 3 # BR(~d_2 -> chi^0_1 s)
6.44037344E-03 2 1000022 5 # BR(~d_2 -> chi^0_1 b)
9.69165994E-03 2 1000023 3 # BR(~d_2 -> chi^0_2 s)
3.19458300E-03 2 1000023 5 # BR(~d_2 -> chi^0_2 b)
8.11820670E-04 2 1000025 3 # BR(~d_2 -> chi^0_3 s)
7.91738130E-04 2 1000025 5 # BR(~d_2 -> chi^0_3 b)
2.58180977E-03 2 1000035 3 # BR(~d_2 -> chi^0_4 s)
1.10796355E-03 2 1000035 5 # BR(~d_2 -> chi^0_4 b)
1.63682056E-03 2 -1000024 4 # BR(~d_2 -> chi^-_1 c)
4.49011392E-03 2 -1000024 6 # BR(~d_2 -> chi^-_1 t)
1.29834360E-02 2 1000002 -24 # BR(~d_2 -> ~u_1 W^-)
DECAY 1000005 2.91650178E-01 # ~d_3
# BR NDA ID1 ID2
9.87452314E-01 2 1000022 1 # BR(~d_3 -> chi^0_1 d)
9.00543275E-03 2 1000023 1 # BR(~d_3 -> chi^0_2 d)
8.35114866E-04 2 1000025 1 # BR(~d_3 -> chi^0_3 d)
2.70193685E-03 2 1000035 1 # BR(~d_3 -> chi^0_4 d)
DECAY 2000001 1.07558473E+00 # ~d_4
# BR NDA ID1 ID2
2.29732590E-03 2 1000022 3 # BR(~d_4 -> chi^0_1 s)
2.15912071E-01 2 1000022 5 # BR(~d_4 -> chi^0_1 b)
1.21745675E-03 2 1000023 3 # BR(~d_4 -> chi^0_2 s)
1.12192611E-01 2 1000023 5 # BR(~d_4 -> chi^0_2 b)
2.70410813E-02 2 1000025 5 # BR(~d_4 -> chi^0_3 b)
3.81342071E-02 2 1000035 5 # BR(~d_4 -> chi^0_4 b)
9.47846004E-04 2 -1000024 4 # BR(~d_4 -> chi^-_1 c)
1.52732227E-01 2 -1000024 6 # BR(~d_4 -> chi^-_1 t)
4.49438180E-01 2 1000002 -24 # BR(~d_4 -> ~u_1 W^-)
DECAY 2000003 5.16418251E+00 # ~d_5
# BR NDA ID1 ID2
2.51091871E-02 2 1000022 1 # BR(~d_5 -> chi^0_1 d)
1.36847302E-04 2 1000022 3 # BR(~d_5 -> chi^0_1 s)
3.08920575E-01 2 1000023 1 # BR(~d_5 -> chi^0_2 d)
1.68351030E-03 2 1000023 3 # BR(~d_5 -> chi^0_2 s)
1.16147998E-03 2 1000025 1 # BR(~d_5 -> chi^0_3 d)
1.03901882E-02 2 1000035 1 # BR(~d_5 -> chi^0_4 d)
6.11768478E-01 2 -1000024 2 # BR(~d_5 -> chi^-_1 u)
1.47594926E-02 2 -1000024 4 # BR(~d_5 -> chi^-_1 c)
2.53911882E-02 2 -1000037 2 # BR(~d_5 -> chi^-_2 u)
6.12996090E-04 2 -1000037 4 # BR(~d_5 -> chi^-_2 c)
DECAY 2000005 5.16203838E+00 # ~d_6
# BR NDA ID1 ID2
1.36099532E-04 2 1000022 1 # BR(~d_6 -> chi^0_1 d)
2.50679574E-02 2 1000022 3 # BR(~d_6 -> chi^0_1 s)
1.67444865E-03 2 1000023 1 # BR(~d_6 -> chi^0_2 d)
3.08389465E-01 2 1000023 3 # BR(~d_6 -> chi^0_2 s)
5.19646811E-04 2 1000023 5 # BR(~d_6 -> chi^0_2 b)
1.16276015E-03 2 1000025 3 # BR(~d_6 -> chi^0_3 s)
1.03774904E-02 2 1000035 3 # BR(~d_6 -> chi^0_4 s)
1.47619003E-02 2 -1000024 2 # BR(~d_6 -> chi^-_1 u)
6.11700689E-01 2 -1000024 4 # BR(~d_6 -> chi^-_1 c)
6.13208278E-04 2 -1000037 2 # BR(~d_6 -> chi^-_2 u)
2.54269889E-02 2 -1000037 4 # BR(~d_6 -> chi^-_2 c)
DECAY 1000002 1.35168201E+00 # ~u_1
# BR NDA ID1 ID2
2.21279047E-01 2 1000022 6 # BR(~u_1 -> chi^0_1 t)
4.51103384E-02 2 1000023 6 # BR(~u_1 -> chi^0_2 t)
1.14780457E-03 2 1000024 3 # BR(~u_1 -> chi^+_1 s)
7.32438846E-01 2 1000024 5 # BR(~u_1 -> chi^+_1 b)
DECAY 1000004 1.17087377E+00 # ~u_2
# BR NDA ID1 ID2
9.83552226E-01 2 1000022 4 # BR(~u_2 -> chi^0_1 c)
1.02609781E-02 2 1000023 4 # BR(~u_2 -> chi^0_2 c)
8.66666331E-04 2 1000025 4 # BR(~u_2 -> chi^0_3 c)
2.68883299E-03 2 1000035 4 # BR(~u_2 -> chi^0_4 c)
1.33928999E-04 2 1000024 1 # BR(~u_2 -> chi^+_1 d)
2.49278101E-03 2 1000024 3 # BR(~u_2 -> chi^+_1 s)
DECAY 1000006 1.16723343E+00 # ~u_3
# BR NDA ID1 ID2
9.87449025E-01 2 1000022 2 # BR(~u_3 -> chi^0_1 u)
9.00555635E-03 2 1000023 2 # BR(~u_3 -> chi^0_2 u)
8.36825954E-04 2 1000025 2 # BR(~u_3 -> chi^0_3 u)
2.70857829E-03 2 1000035 2 # BR(~u_3 -> chi^0_4 u)
DECAY 2000002 5.35358209E+00 # ~u_4
# BR NDA ID1 ID2
6.54020479E-03 2 1000022 2 # BR(~u_4 -> chi^0_1 u)
3.19574382E-01 2 1000023 2 # BR(~u_4 -> chi^0_2 u)
9.00457841E-04 2 1000023 4 # BR(~u_4 -> chi^0_2 c)
6.44655727E-04 2 1000025 2 # BR(~u_4 -> chi^0_3 u)
7.09623394E-03 2 1000035 2 # BR(~u_4 -> chi^0_4 u)
6.07537660E-01 2 1000024 1 # BR(~u_4 -> chi^+_1 d)
5.04783458E-02 2 1000024 3 # BR(~u_4 -> chi^+_1 s)
6.61528361E-03 2 1000037 1 # BR(~u_4 -> chi^+_2 d)
5.49830253E-04 2 1000037 3 # BR(~u_4 -> chi^+_2 s)
DECAY 2000004 5.35006194E+00 # ~u_5
# BR NDA ID1 ID2
6.72062209E-03 2 1000022 4 # BR(~u_5 -> chi^0_1 c)
9.01935249E-04 2 1000023 2 # BR(~u_5 -> chi^0_2 u)
3.19493165E-01 2 1000023 4 # BR(~u_5 -> chi^0_2 c)
6.44236222E-04 2 1000025 4 # BR(~u_5 -> chi^0_3 c)
7.11180931E-03 2 1000035 4 # BR(~u_5 -> chi^0_4 c)
5.04818486E-02 2 1000024 1 # BR(~u_5 -> chi^+_1 d)
6.06286347E-01 2 1000024 3 # BR(~u_5 -> chi^+_1 s)
1.12420728E-03 2 1000024 5 # BR(~u_5 -> chi^+_1 b)
5.50228222E-04 2 1000037 1 # BR(~u_5 -> chi^+_2 d)
6.61048536E-03 2 1000037 3 # BR(~u_5 -> chi^+_2 s)
DECAY 2000006 6.32940005E+00 # ~u_6
# BR NDA ID1 ID2
3.75558072E-02 2 1000022 6 # BR(~u_6 -> chi^0_1 t)
9.72080672E-02 2 1000023 6 # BR(~u_6 -> chi^0_2 t)
9.81778380E-03 2 1000025 6 # BR(~u_6 -> chi^0_3 t)
4.94100719E-04 2 1000024 3 # BR(~u_6 -> chi^+_1 s)
2.65766151E-01 2 1000024 5 # BR(~u_6 -> chi^+_1 b)
2.56025979E-04 2 1000037 3 # BR(~u_6 -> chi^+_2 s)
1.62979058E-01 2 1000037 5 # BR(~u_6 -> chi^+_2 b)
3.74127709E-01 2 1000002 23 # BR(~u_6 -> ~u_1 Z)
5.17780713E-02 2 1000002 25 # BR(~u_6 -> ~u_1 h^0)
DECAY 1000024 1.10240172E-01 # chi^+_1
# BR NDA ID1 ID2
3.92116692E-01 2 -1000011 12 # BR(chi^+_1 -> ~l^+_1 nu_1)
1.37573970E-03 2 -1000013 12 # BR(chi^+_1 -> ~l^+_2 nu_1)
9.10673173E-02 2 1000012 -13 # BR(chi^+_1 -> ~nu_1 mu^+)
1.95528048E-01 2 1000012 -15 # BR(chi^+_1 -> ~nu_1 tau^+)
1.90617973E-02 2 1000014 -11 # BR(chi^+_1 -> ~nu_2 e^+)
1.02140674E-01 2 1000014 -13 # BR(chi^+_1 -> ~nu_2 mu^+)
4.76199733E-02 2 1000014 -15 # BR(chi^+_1 -> ~nu_2 tau^+)
1.24211712E-01 2 1000016 -11 # BR(chi^+_1 -> ~nu_3 e^+)
1.02322336E-02 2 1000016 -13 # BR(chi^+_1 -> ~nu_3 mu^+)
5.72904588E-03 2 1000016 -15 # BR(chi^+_1 -> ~nu_3 tau^+)
1.02724846E-02 2 1000022 24 # BR(chi^+_1 -> chi^0_1 W^+)
# BR NDA ID1 ID2 ID3
1.77865423E-04 3 1000022 -11 12 # BR(chi^+_1 -> chi^0_1 e^+ nu_1)
2.45633810E-04 3 1000022 -13 14 # BR(chi^+_1 -> chi^0_1 mu^+ nu_2)
1.59010983E-04 3 1000022 -15 16 # BR(chi^+_1 -> chi^0_1 tau^+ nu_3)
DECAY 1000037 3.05497071E+00 # chi^+_2
# BR NDA ID1 ID2
2.38832449E-04 2 -1000011 12 # BR(chi^+_2 -> ~l^+_1 nu_1)
4.68499377E-02 2 -2000011 14 # BR(chi^+_2 -> ~l^+_4 nu_2)
4.54204072E-02 2 -2000013 16 # BR(chi^+_2 -> ~l^+_5 nu_3)
5.08993730E-02 2 -2000015 16 # BR(chi^+_2 -> ~l^+_6 nu_3)
4.94891181E-03 2 1000012 -13 # BR(chi^+_2 -> ~nu_1 mu^+)
1.62241202E-02 2 1000012 -15 # BR(chi^+_2 -> ~nu_1 tau^+)
1.70828025E-03 2 1000014 -11 # BR(chi^+_2 -> ~nu_2 e^+)
9.17094326E-03 2 1000014 -13 # BR(chi^+_2 -> ~nu_2 mu^+)
6.52459647E-03 2 1000014 -15 # BR(chi^+_2 -> ~nu_2 tau^+)
1.32796741E-02 2 1000016 -11 # BR(chi^+_2 -> ~nu_3 e^+)
1.09601184E-03 2 1000016 -13 # BR(chi^+_2 -> ~nu_3 mu^+)
9.36441761E-04 2 1000016 -15 # BR(chi^+_2 -> ~nu_3 tau^+)
1.20686682E-04 2 1000002 -3 # BR(chi^+_2 -> ~u_1 s_bar)
7.80140338E-02 2 1000002 -5 # BR(chi^+_2 -> ~u_1 b_bar)
7.40045274E-02 2 1000022 24 # BR(chi^+_2 -> chi^0_1 W^+)
2.32693176E-01 2 1000023 24 # BR(chi^+_2 -> chi^0_2 W^+)
2.34080232E-01 2 1000024 23 # BR(chi^+_2 -> chi^+_1 Z)
1.83558540E-01 2 1000024 25 # BR(chi^+_2 -> chi^+_1 h^0)
# BR NDA ID1 ID2 ID3
DECAY 1000022 0.00000000E+00 # chi^0_1
DECAY 1000023 1.13609895E-01 # chi^0_2
# BR NDA ID1 ID2
1.93694731E-04 2 1000011 -13 # BR(chi^0_2 -> ~l^-_1 mu^+)
1.93694731E-04 2 -1000011 13 # BR(chi^0_2 -> ~l^+_1 mu^-)
2.28041225E-01 2 1000011 -15 # BR(chi^0_2 -> ~l^-_1 tau^+)
2.28041225E-01 2 -1000011 15 # BR(chi^0_2 -> ~l^+_1 tau^-)
1.40812387E-02 2 1000013 -13 # BR(chi^0_2 -> ~l^-_2 mu^+)
1.40812387E-02 2 -1000013 13 # BR(chi^0_2 -> ~l^+_2 mu^-)
1.33268316E-02 2 1000015 -11 # BR(chi^0_2 -> ~l^-_3 e^+)
1.33268316E-02 2 -1000015 11 # BR(chi^0_2 -> ~l^+_3 e^-)
1.16448515E-01 2 1000012 -12 # BR(chi^0_2 -> ~nu_1 nu_bar_1)
1.16448515E-01 2 -1000012 12 # BR(chi^0_2 -> ~nu^*_1 nu_1)
6.94205962E-02 2 1000014 -14 # BR(chi^0_2 -> ~nu_2 nu_bar_2)
6.94205962E-02 2 -1000014 14 # BR(chi^0_2 -> ~nu^*_2 nu_2)
5.79887890E-02 2 1000016 -16 # BR(chi^0_2 -> ~nu_3 nu_bar_3)
5.79887890E-02 2 -1000016 16 # BR(chi^0_2 -> ~nu^*_3 nu_3)
# BR NDA ID1 ID2 ID3
2.18119392E-04 3 1000022 11 -11 # BR(chi^0_2 -> chi^0_1 e^- e^+)
3.08819750E-04 3 1000022 13 -13 # BR(chi^0_2 -> chi^0_1 mu^- mu^+)
1.75362856E-04 3 1000022 15 -15 # BR(chi^0_2 -> chi^0_1 tau^- tau^+)
DECAY 1000025 2.52334840E+00 # chi^0_3
# BR NDA ID1 ID2
4.74716387E-03 2 1000011 -15 # BR(chi^0_3 -> ~l^-_1 tau^+)
4.74716387E-03 2 -1000011 15 # BR(chi^0_3 -> ~l^+_1 tau^-)
1.18939464E-03 2 1000013 -13 # BR(chi^0_3 -> ~l^-_2 mu^+)
1.18939464E-03 2 -1000013 13 # BR(chi^0_3 -> ~l^+_2 mu^-)
1.18089887E-03 2 1000015 -11 # BR(chi^0_3 -> ~l^-_3 e^+)
1.18089887E-03 2 -1000015 11 # BR(chi^0_3 -> ~l^+_3 e^-)
5.66112708E-04 2 2000011 -13 # BR(chi^0_3 -> ~l^-_4 mu^+)
5.66112708E-04 2 -2000011 13 # BR(chi^0_3 -> ~l^+_4 mu^-)
7.82798943E-04 2 2000011 -15 # BR(chi^0_3 -> ~l^-_4 tau^+)
7.82798943E-04 2 -2000011 15 # BR(chi^0_3 -> ~l^+_4 tau^-)
5.82121815E-04 2 2000013 -11 # BR(chi^0_3 -> ~l^-_5 e^+)
5.82121815E-04 2 -2000013 11 # BR(chi^0_3 -> ~l^+_5 e^-)
6.75889924E-03 2 2000015 -15 # BR(chi^0_3 -> ~l^-_6 tau^+)
6.75889924E-03 2 -2000015 15 # BR(chi^0_3 -> ~l^+_6 tau^-)
3.31129089E-03 2 1000012 -12 # BR(chi^0_3 -> ~nu_1 nu_bar_1)
3.31129089E-03 2 -1000012 12 # BR(chi^0_3 -> ~nu^*_1 nu_1)
3.22840683E-03 2 1000014 -14 # BR(chi^0_3 -> ~nu_2 nu_bar_2)
3.22840683E-03 2 -1000014 14 # BR(chi^0_3 -> ~nu^*_2 nu_2)
3.20444387E-03 2 1000016 -16 # BR(chi^0_3 -> ~nu_3 nu_bar_3)
3.20444387E-03 2 -1000016 16 # BR(chi^0_3 -> ~nu^*_3 nu_3)
2.78905290E-01 2 1000024 -24 # BR(chi^0_3 -> chi^+_1 W^-)
2.78905290E-01 2 -1000024 24 # BR(chi^0_3 -> chi^-_1 W^+)
1.16780256E-01 2 1000022 23 # BR(chi^0_3 -> chi^0_1 Z)
2.38730604E-01 2 1000023 23 # BR(chi^0_3 -> chi^0_2 Z)
2.05856347E-02 2 1000022 25 # BR(chi^0_3 -> chi^0_1 h^0)
1.45915562E-02 2 1000023 25 # BR(chi^0_3 -> chi^0_2 h^0)
# BR NDA ID1 ID2 ID3
DECAY 1000035 3.49673342E+00 # chi^0_4
# BR NDA ID1 ID2
2.00796937E-03 2 1000011 -15 # BR(chi^0_4 -> ~l^-_1 tau^+)
2.00796937E-03 2 -1000011 15 # BR(chi^0_4 -> ~l^+_1 tau^-)
3.43560179E-03 2 1000013 -13 # BR(chi^0_4 -> ~l^-_2 mu^+)
3.43560179E-03 2 -1000013 13 # BR(chi^0_4 -> ~l^+_2 mu^-)
3.44625027E-03 2 1000015 -11 # BR(chi^0_4 -> ~l^-_3 e^+)
3.44625027E-03 2 -1000015 11 # BR(chi^0_4 -> ~l^+_3 e^-)
7.54265713E-03 2 2000011 -13 # BR(chi^0_4 -> ~l^-_4 mu^+)
7.54265713E-03 2 -2000011 13 # BR(chi^0_4 -> ~l^+_4 mu^-)
1.56809082E-03 2 2000011 -15 # BR(chi^0_4 -> ~l^-_4 tau^+)
1.56809082E-03 2 -2000011 15 # BR(chi^0_4 -> ~l^+_4 tau^-)
8.10727533E-03 2 2000013 -11 # BR(chi^0_4 -> ~l^-_5 e^+)
8.10727533E-03 2 -2000013 11 # BR(chi^0_4 -> ~l^+_5 e^-)
1.90827859E-04 2 2000013 -15 # BR(chi^0_4 -> ~l^-_5 tau^+)
1.90827859E-04 2 -2000013 15 # BR(chi^0_4 -> ~l^+_5 tau^-)
7.98979773E-04 2 2000015 -13 # BR(chi^0_4 -> ~l^-_6 mu^+)
7.98979773E-04 2 -2000015 13 # BR(chi^0_4 -> ~l^+_6 mu^-)
1.36937247E-02 2 2000015 -15 # BR(chi^0_4 -> ~l^-_6 tau^+)
1.36937247E-02 2 -2000015 15 # BR(chi^0_4 -> ~l^+_6 tau^-)
2.26923729E-02 2 1000012 -12 # BR(chi^0_4 -> ~nu_1 nu_bar_1)
2.26923729E-02 2 -1000012 12 # BR(chi^0_4 -> ~nu^*_1 nu_1)
2.21698416E-02 2 1000014 -14 # BR(chi^0_4 -> ~nu_2 nu_bar_2)
2.21698416E-02 2 -1000014 14 # BR(chi^0_4 -> ~nu^*_2 nu_2)
2.20186693E-02 2 1000016 -16 # BR(chi^0_4 -> ~nu_3 nu_bar_3)
2.20186693E-02 2 -1000016 16 # BR(chi^0_4 -> ~nu^*_3 nu_3)
2.81544556E-01 2 1000024 -24 # BR(chi^0_4 -> chi^+_1 W^-)
2.81544556E-01 2 -1000024 24 # BR(chi^0_4 -> chi^-_1 W^+)
1.96922249E-02 2 1000022 23 # BR(chi^0_4 -> chi^0_1 Z)
1.87002472E-02 2 1000023 23 # BR(chi^0_4 -> chi^0_2 Z)
5.89091847E-02 2 1000022 25 # BR(chi^0_4 -> chi^0_1 h^0)
1.23746917E-01 2 1000023 25 # BR(chi^0_4 -> chi^0_2 h^0)
# BR NDA ID1 ID2 ID3
DECAY 1000021 7.31067517E+00 # ~g
# BR NDA ID1 ID2
8.69413369E-02 2 1000002 -6 # BR(~g -> ~u_1 t_bar)
8.69413369E-02 2 -1000002 6 # BR(~g -> ~u^*_1 t)
4.36822162E-02 2 1000004 -4 # BR(~g -> ~u_2 c_bar)
4.36822162E-02 2 -1000004 4 # BR(~g -> ~u^*_2 c)
4.37176338E-02 2 1000006 -2 # BR(~g -> ~u_3 u_bar)
4.37176338E-02 2 -1000006 2 # BR(~g -> ~u^*_3 u)
2.50372619E-02 2 2000002 -2 # BR(~g -> ~u_4 u_bar)
2.50372619E-02 2 -2000002 2 # BR(~g -> ~u^*_4 u)
2.50588239E-02 2 2000004 -4 # BR(~g -> ~u_5 c_bar)
2.50588239E-02 2 -2000004 4 # BR(~g -> ~u^*_5 c)
1.12688370E-04 2 1000001 -3 # BR(~g -> ~d_1 s_bar)
1.12688370E-04 2 -1000001 3 # BR(~g -> ~d^*_1 s)
9.94748764E-02 2 1000001 -5 # BR(~g -> ~d_1 b_bar)
9.94748764E-02 2 -1000001 5 # BR(~g -> ~d^*_1 b)
4.50194446E-02 2 1000003 -3 # BR(~g -> ~d_2 s_bar)
4.50194446E-02 2 -1000003 3 # BR(~g -> ~d^*_2 s)
3.85689029E-04 2 1000003 -5 # BR(~g -> ~d_2 b_bar)
3.85689029E-04 2 -1000003 5 # BR(~g -> ~d^*_2 b)
4.40252563E-02 2 1000005 -1 # BR(~g -> ~d_3 d_bar)
4.40252563E-02 2 -1000005 1 # BR(~g -> ~d^*_3 d)
4.00598242E-04 2 2000001 -3 # BR(~g -> ~d_4 s_bar)
4.00598242E-04 2 -2000001 3 # BR(~g -> ~d^*_4 s)
4.54209167E-02 2 2000001 -5 # BR(~g -> ~d_4 b_bar)
4.54209167E-02 2 -2000001 5 # BR(~g -> ~d^*_4 b)
2.00807793E-02 2 2000003 -1 # BR(~g -> ~d_5 d_bar)
2.00807793E-02 2 -2000003 1 # BR(~g -> ~d^*_5 d)
1.09451333E-04 2 2000003 -3 # BR(~g -> ~d_5 s_bar)
1.09451333E-04 2 -2000003 3 # BR(~g -> ~d^*_5 s)
1.08780694E-04 2 2000005 -1 # BR(~g -> ~d_6 d_bar)
1.08780694E-04 2 -2000005 1 # BR(~g -> ~d^*_6 d)
2.00378467E-02 2 2000005 -3 # BR(~g -> ~d_6 s_bar)
2.00378467E-02 2 -2000005 3 # BR(~g -> ~d^*_6 s)
# BR NDA ID1 ID2 ID3
1.13401640E-04 3 1000024 5 -6 # BR(~g -> chi^+_1 b t_bar)
1.13401640E-04 3 -1000024 -5 6 # BR(~g -> chi^-_1 b_bar t)
DECAY 25 2.28376457E-03 # h^0
# BR NDA ID1 ID2
4.45625238E-04 2 13 -13 # BR(h^0 -> mu^- mu^+)
1.25882522E-01 2 15 -15 # BR(h^0 -> tau^- tau^+)
3.14129098E-04 2 3 -3 # BR(h^0 -> s s_bar)
7.39948536E-01 2 5 -5 # BR(h^0 -> b b_bar)
4.04568316E-02 2 4 -4 # BR(h^0 -> c c_bar)
3.50686281E-02 2 21 21 # BR(h^0 -> g g)
2.87611893E-03 2 22 22 # BR(h^0 -> photon photon)
# writing decays into V V* as 3-body decays
# BR NDA ID1 ID2 ID3
2.61081481E-03 3 24 11 12 # BR(h^0 -> W^+ e^- nu_1)
2.61081481E-03 3 24 13 14 # BR(h^0 -> W^+ mu^- nu_2)
2.61081481E-03 3 24 15 16 # BR(h^0 -> W^+ tau^- nu_3)
9.13785183E-03 3 24 1 -2 # BR(h^0 -> W^+ d u_bar)
9.13785183E-03 3 24 3 -4 # BR(h^0 -> W^+ s c_bar)
2.61081481E-03 3 -24 -11 -12 # BR(h^0 -> W^- e^+ nu_bar_1)
2.61081481E-03 3 -24 -13 -14 # BR(h^0 -> W^- mu^+ nu_bar_2)
2.61081481E-03 3 -24 -15 -16 # BR(h^0 -> W^- tau^+ nu_bar_3)
9.13785183E-03 3 -24 -1 2 # BR(h^0 -> W^- d_bar u)
9.13785183E-03 3 -24 -3 4 # BR(h^0 -> W^- s_bar c)
9.76627575E-05 3 23 11 -11 # BR(h^0 -> Z e^- e^+)
9.76627575E-05 3 23 13 -13 # BR(h^0 -> Z mu^- mu^+)
8.37109350E-05 3 23 15 -15 # BR(h^0 -> Z tau^- tau^+)
5.58072900E-04 3 23 12 -12 # BR(h^0 -> Z nu_1 nu_bar_1)
3.90651030E-04 3 23 1 -1 # BR(h^0 -> Z u u_bar)
3.90651030E-04 3 23 3 -3 # BR(h^0 -> Z c c_bar)
3.90651030E-04 3 23 5 -5 # BR(h^0 -> Z t t_bar)
3.90651030E-04 3 23 2 -2 # BR(h^0 -> Z u u_bar)
3.90651030E-04 3 23 4 -4 # BR(h^0 -> Z c c_bar)
DECAY 35 8.77412489E-01 # H^0
# BR NDA ID1 ID2
3.50496707E-04 2 13 -13 # BR(H^0 -> mu^- mu^+)
9.91518749E-02 2 15 -15 # BR(H^0 -> tau^- tau^+)
2.50330633E-04 2 3 -3 # BR(H^0 -> s s_bar)
5.91773504E-01 2 5 -5 # BR(H^0 -> b b_bar)
7.85926571E-02 2 6 -6 # BR(H^0 -> t t_bar)
2.03111393E-02 2 1000011 -1000011 # BR(H^0 -> ~l^-_1 ~l^+_1)
1.69582815E-03 2 1000011 -2000011 # BR(H^0 -> ~l^-_1 ~l^+_4)
1.69582815E-03 2 -1000011 2000011 # BR(H^0 -> ~l^+_1 ~l^-_4)
2.20734141E-04 2 1000011 -2000013 # BR(H^0 -> ~l^-_1 ~l^+_5)
2.20734141E-04 2 -1000011 2000013 # BR(H^0 -> ~l^+_1 ~l^-_5)
1.70692308E-02 2 1000011 -2000015 # BR(H^0 -> ~l^-_1 ~l^+_6)
1.70692308E-02 2 -1000011 2000015 # BR(H^0 -> ~l^+_1 ~l^-_6)
5.04371500E-04 2 1000013 -1000013 # BR(H^0 -> ~l^-_2 ~l^+_2)
4.79987466E-04 2 1000015 -1000015 # BR(H^0 -> ~l^-_3 ~l^+_3)
6.98001264E-04 2 2000011 -2000015 # BR(H^0 -> ~l^-_4 ~l^+_6)
6.98001264E-04 2 -2000011 2000015 # BR(H^0 -> ~l^+_4 ~l^-_6)
2.63984299E-04 2 2000013 -2000013 # BR(H^0 -> ~l^-_5 ~l^+_5)
3.38169235E-03 2 2000015 -2000015 # BR(H^0 -> ~l^-_6 ~l^+_6)
1.58546232E-03 2 1000012 -1000012 # BR(H^0 -> ~nu_1 ~nu^*_1)
1.50692264E-03 2 1000014 -1000014 # BR(H^0 -> ~nu_2 ~nu^*_2)
1.48324569E-03 2 1000016 -1000016 # BR(H^0 -> ~nu_3 ~nu^*_3)
1.98086462E-02 2 1000022 1000022 # BR(H^0 -> chi^0_1 chi^0_1)
5.75487385E-02 2 1000022 1000023 # BR(H^0 -> chi^0_1 chi^0_2)
1.93757153E-02 2 1000023 1000023 # BR(H^0 -> chi^0_2 chi^0_2)
4.57145077E-02 2 1000024 -1000024 # BR(H^0 -> chi^+_1 chi^-_1)
2.36011302E-03 2 23 23 # BR(H^0 -> Z Z)
4.82617471E-03 2 24 -24 # BR(H^0 -> W^+ W^-)
1.02596186E-02 2 25 25 # BR(H^0 -> h^0 h^0)
6.32055610E-04 2 21 21 # BR(H^0 -> g g)
DECAY 36 1.27988138E+00 # A^0
# BR NDA ID1 ID2
2.40816486E-04 2 13 -13 # BR(A^0 -> mu^- mu^+)
6.81293646E-02 2 15 -15 # BR(A^0 -> tau^- tau^+)
1.71994639E-04 2 3 -3 # BR(A^0 -> s s_bar)
4.06628800E-01 2 5 -5 # BR(A^0 -> b b_bar)
1.21324015E-01 2 6 -6 # BR(A^0 -> t t_bar)
2.05236428E-03 2 1000011 -2000011 # BR(A^0 -> ~l^-_1 ~l^+_4)
2.05236428E-03 2 -1000011 2000011 # BR(A^0 -> ~l^+_1 ~l^-_4)
2.58031182E-04 2 1000011 -2000013 # BR(A^0 -> ~l^-_1 ~l^+_5)
2.58031182E-04 2 -1000011 2000013 # BR(A^0 -> ~l^+_1 ~l^-_5)
1.92323393E-02 2 1000011 -2000015 # BR(A^0 -> ~l^-_1 ~l^+_6)
1.92323393E-02 2 -1000011 2000015 # BR(A^0 -> ~l^+_1 ~l^-_6)
2.05520836E-02 2 1000022 1000022 # BR(A^0 -> chi^0_1 chi^0_1)
8.60258091E-02 2 1000022 1000023 # BR(A^0 -> chi^0_1 chi^0_2)
7.63497124E-02 2 1000023 1000023 # BR(A^0 -> chi^0_2 chi^0_2)
1.75510644E-01 2 1000024 -1000024 # BR(A^0 -> chi^+_1 chi^-_1)
1.73402263E-03 2 25 23 # BR(A^0 -> h^0 Z)
DECAY 37 7.46192231E-01 # H^+
# BR NDA ID1 ID2
1.19075805E-01 2 -15 12 # BR(H^+ -> tau^+ nu_1)
2.53490746E-04 2 -3 4 # BR(H^+ -> s_bar c)
2.80405701E-04 2 -3 6 # BR(H^+ -> s_bar t)
1.00227707E-03 2 -5 4 # BR(H^+ -> b_bar c)
6.04825738E-01 2 -5 6 # BR(H^+ -> b_bar t)
5.44342089E-02 2 -1000011 1000012 # BR(H^+ -> ~l^+_1 ~nu_1)
2.23964938E-02 2 -1000011 1000014 # BR(H^+ -> ~l^+_1 ~nu_2)
3.23573945E-03 2 -1000011 1000016 # BR(H^+ -> ~l^+_1 ~nu_3)
1.96899409E-04 2 -1000013 1000014 # BR(H^+ -> ~l^+_2 ~nu_2)
1.54203702E-03 2 -2000011 1000014 # BR(H^+ -> ~l^+_4 ~nu_2)
1.24916555E-04 2 -2000011 1000016 # BR(H^+ -> ~l^+_4 ~nu_3)
1.00471174E-04 2 -2000013 1000014 # BR(H^+ -> ~l^+_5 ~nu_2)
1.53687656E-03 2 -2000013 1000016 # BR(H^+ -> ~l^+_5 ~nu_3)
1.49361513E-03 2 -2000015 1000012 # BR(H^+ -> ~l^+_6 ~nu_1)
1.38881650E-04 2 -2000015 1000014 # BR(H^+ -> ~l^+_6 ~nu_2)
1.85629191E-01 2 1000024 1000022 # BR(H^+ -> chi^+_1 chi^0_1)
2.30505034E-04 2 1000024 1000023 # BR(H^+ -> chi^+_1 chi^0_2)
3.26495262E-03 2 25 24 # BR(H^+ -> h^0 W^+)
DECAY 6 2.43000000E+00 # top
# BR NDA ID1 ID2
1.00000000E+00 2 5 24 # BR(t -> b W)
Block HiggsBoundsInputHiggsCouplingsFermions
# ScalarNormEffCoupSq PseudoSNormEffCoupSq NP IP1 IP2 IP2
1.00000000E+00 0.00000000E+00 3 25 5 5 # h0-b-b eff. coupling^2, normalised to SM
1.00000000E+00 0.00000000E+00 3 35 5 5 # H0-b-b eff. coupling^2, normalised to SM
0.00000000E+00 1.00000000E+00 3 36 5 5 # A0-b-b eff. coupling^2, normalised to SM
#
1.00000000E+00 0.00000000E+00 3 25 6 6 # h0-t-t eff. coupling^2, normalised to SM
1.00000000E+00 0.00000000E+00 3 35 6 6 # H0-t-t eff. coupling^2, normalised to SM
0.00000000E+00 1.00000000E+00 3 36 6 6 # A0-t-t eff. coupling^2, normalised to SM
#
1.00000000E+00 0.00000000E+00 3 25 15 15 # h0-tau-tau eff. coupling^2, normalised to SM
1.00000000E+00 0.00000000E+00 3 35 15 15 # H0-tau-tau eff. coupling^2, normalised to SM
0.00000000E+00 1.00000000E+00 3 36 15 15 # A0-tau-tau eff. coupling^2, normalised to SM
#
Block HiggsBoundsInputHiggsCouplingsBosons
1.00000000E+00 3 25 24 24 # h0-W-W eff. coupling^2, normalised to SM
1.00000000E+00 3 35 24 24 # H0-W-W eff. coupling^2, normalised to SM
1.00000000E+00 3 36 24 24 # A0-W-W eff. coupling^2, normalised to SM
#
1.00000000E+00 3 25 23 23 # h0-Z-Z eff. coupling^2, normalised to SM
1.00000000E+00 3 35 23 23 # H0-Z-Z eff. coupling^2, normalised to SM
1.00000000E+00 3 36 23 23 # A0-Z-Z eff. coupling^2, normalised to SM
#
1.00000000E+00 3 25 21 21 # h0-g-g eff. coupling^2, normalised to SM
1.00000000E+00 3 35 21 21 # H0-g-g eff. coupling^2, normalised to SM
1.00000000E+00 3 36 21 21 # A0-g-g eff. coupling^2, normalised to SM
#
1.00000000E+00 3 25 25 23 # h0-h0-Z eff. coupling^2, normalised to SM
1.00000000E+00 3 35 25 23 # H0-h0-Z eff. coupling^2, normalised to SM
1.00000000E+00 3 36 25 23 # A0-h0-Z eff. coupling^2, normalised to SM
1.00000000E+00 3 35 35 23 # H0-H0-Z eff. coupling^2, normalised to SM
1.00000000E+00 3 36 35 23 # A0-H0-Z eff. coupling^2, normalised to SM
1.00000000E+00 3 36 36 23 # A0-A0-Z eff. coupling^2, normalised to SM
#
0.00000000E+00 4 25 21 21 23 # h0-g-g-Z eff. coupling^2, normalised to SM
0.00000000E+00 4 35 21 21 23 # H0-g-g-Z eff. coupling^2, normalised to SM
0.00000000E+00 4 36 21 21 23 # A0-g-g-Z eff. coupling^2, normalised to SM
Block SPhenoLowEnergy # low energy observables
1 2.48931741E-04 # BR(b -> s gamma)
2 1.59365633E-06 # BR(b -> s mu+ mu-)
3 3.88519464E-05 # BR(b -> s nu nu)
4 5.81389085E-11 # BR(Bd -> mu+ mu-)
5 3.93887935E-09 # BR(Bs -> mu+ mu-)
6 1.14869014E-04 # BR(B_u -> tau nu)
7 9.77190007E-01 # BR(B_u -> tau nu)/BR(B_u -> tau nu)_SM
8 2.91612678E-01 # |Delta(M_Bd)| [ps^-1]
9 2.20137720E+01 # |Delta(M_Bs)| [ps^-1]
20 8.65388573E-14 # Delta(g-2)_electron/2
21 3.74176691E-09 # Delta(g-2)_muon/2
22 1.10939437E-06 # Delta(g-2)_tau/2
23 0.00000000E+00 # electric dipole moment of the electron
24 0.00000000E+00 # electric dipole moment of the muon
25 0.00000000E+00 # electric dipole moment of the tau
26 7.13730834E-09 # Br(mu -> e gamma)
27 1.53776662E-09 # Br(tau -> e gamma)
28 8.73990345E-08 # Br(tau -> mu gamma)
29 4.36712450E-11 # Br(mu -> 3 e)
30 1.61333683E-11 # Br(tau -> 3 e)
31 1.95376358E-10 # Br(tau -> 3 mu)
39 3.34859565E-04 # Delta(rho_parameter)
40 8.43983733E-13 # BR(Z -> e mu)
41 8.63321878E-13 # BR(Z -> e tau)
42 4.75048468E-11 # BR(Z -> mu tau)
Block HiggsBoundsResults # results from HiggsBounds http://projects.hepforge.org/higgsbounds
# HBresult : scenario allowed flag (1: allowed, 0: excluded, -1: unphysical)
# chan id number: most sensitive channel (see below). chan=0 if no channel applies
# obsratio : ratio [sig x BR]_model/[sig x BR]_limit (<1: allowed, >1: excluded)
# ncomb : number of Higgs bosons combined in most sensitive channel
# Note that the HB channel id number varies depending on the HB version and setting "whichanalyses"
#
0 3.0.0beta ||LandH|| # version of HB used to produce these results,the HB setting "whichanalyses"
#
#CHANNELTYPE 1: channel with the highest statistical sensitivity
1 1 1 # channel id number
1 2 0 # HBresult
1 3 2.5389443541558196 # obsratio
1 4 1 # ncombined
1 5 ||(e e)->(h1)Z->(b b-bar)Z (hep-ex/0602042, table 14b (LEP))|| # text description of channel
#

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