Index: trunk/share/models/THDM_CKM.mdl =================================================================== --- trunk/share/models/THDM_CKM.mdl (revision 8752) +++ trunk/share/models/THDM_CKM.mdl (revision 8753) @@ -1,466 +1,466 @@ ######################################################################## # Two-Higgs doublet model (THDM) with full flavor structure model "THDM_CKM" # Independent parameters ### DO NOT CHANGE THE ORDER OF THESE PARAMETERS parameter GF = 1.16639E-5 # Fermi constant parameter mZ = 91.1882 # Z-boson mass parameter mW = 80.419 # W-boson mass parameter alphas = 0.1178 # Strong coupling constant (Z point) parameter me = 0.000510997 # electron mass parameter mmu = 0.105658389 # muon mass parameter mtau = 1.77705 # tau-lepton mass parameter ms = 0.095 # s-quark mass parameter mc = 1.2 # c-quark mass parameter mb = 4.2 # b-quark mass parameter mtop = 173.1 # t-quark mass parameter wtop = 1.523 # t-quark width parameter wZ = 2.443 # Z-boson width parameter wW = 2.049 # W-boson width parameter khgaz = 0.000 # anomaly Higgs couplings K factors parameter khgaga = 0.000 # anomaly Higgs couplings K factors parameter khgg = 0.000 # anomaly Higgs couplings K factors parameter xi0 = 1.000 # R_xi parameter for Z-boson parameter xipm = 1.000 # R_xi parameter for W-boson parameter mHh = 125 # Higgs h mass parameter wHh = 0.004143 # Higgs h width parameter mHH = 500 # Higgs H mass parameter wHH = 1.000 # Higgs H width parameter mHA = 500 # Higgs A mass parameter wHA = 1.000 # Higgs A width parameter mHp = 500 # Higgs charged mass parameter wHp = 1.000 # Higgs charged width parameter R_11 = 1.000 # Mix. matrix: Si = Rji hj; hj= (h,H,A) parameter R_12 = 0.000 # Mix. matrix: Si = Rji hj; hj= (h,H,A) parameter R_13 = 0.000 # Mix. matrix: Si = Rji hj; hj= (h,H,A) parameter R_21 = 0.000 # Mix. matrix: Si = Rji hj; hj= (h,H,A) parameter R_22 = 1.000 # Mix. matrix: Si = Rji hj; hj= (h,H,A) parameter R_23 = 0.000 # Mix. matrix: Si = Rji hj; hj= (h,H,A) parameter R_31 = 0.000 # Mix. matrix: Si = Rji hj; hj= (h,H,A) parameter R_32 = 0.000 # Mix. matrix: Si = Rji hj; hj= (h,H,A) parameter R_33 = 1.000 # Mix. matrix: Si = Rji hj; hj= (h,H,A) parameter lamb_1 = 1.0 # Higgs potential parameter parameter lamb_2 = 1.0 # Higgs potential parameter parameter lamb_3 = 1.0 # Higgs potential parameter parameter lamb_4 = 1.0 # Higgs potential parameter parameter lamb_5R = 0.0 # Higgs potential parameter parameter lamb_5I = 1.0 # Higgs potential parameter parameter lamb_6R = 0.0 # Higgs potential parameter parameter lamb_6I = 1.0 # Higgs potential parameter parameter lamb_7R = 1.0 # Higgs potential parameter parameter lamb_7I = 0.0 # Higgs potential parameter parameter Yu_11 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yu_12 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yu_13 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yu_21 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yu_22 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yu_23 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yu_31 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yu_32 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yu_33 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yd_11 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yd_12 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yd_13 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yd_21 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yd_22 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yd_23 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yd_31 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yd_32 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yd_33 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yl_11 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yl_12 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yl_13 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yl_21 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yl_22 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yl_23 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yl_31 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yl_32 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter Yl_33 = 0.000 # Yukawa matrix to the 0 vev Higgs doublet parameter V_11 = 1.000 # CKM Matrix parameter V_12 = 0.000 # CKM Matrix parameter V_13 = 0.000 # CKM Matrix parameter V_21 = 0.000 # CKM Matrix parameter V_22 = 1.000 # CKM Matrix parameter V_23 = 0.000 # CKM Matrix parameter V_31 = 0.000 # CKM Matrix parameter V_32 = 0.000 # CKM Matrix parameter V_33 = 1.000 # CKM Matrix # Dependent parameters derived v = 1 / sqrt (sqrt (2.) * GF) # v (Higgs vev) derived cw = mW / mZ # cos(theta-W) derived sw = sqrt (1-cw**2) # sin(theta-W) derived ee = 2 * sw * mW / v # em-coupling (GF scheme) derived alpha_em_i = 4 * pi / ee**2 # inverse fine structure const ######################################################################## # Particle content # The quarks particle D_QUARK 1 parton spin 1/2 charge -1/3 isospin -1/2 color 3 name d down anti dbar D "d~" tex_anti "\bar{d}" particle U_QUARK 2 parton spin 1/2 charge 2/3 isospin 1/2 color 3 name u up anti ubar U "u~" tex_anti "\bar{u}" particle S_QUARK 3 like D_QUARK name s strange anti sbar S "s~" tex_anti "\bar{s}" mass ms particle C_QUARK 4 like U_QUARK name c charm anti cbar C "c~" tex_anti "\bar{c}" mass mc particle B_QUARK 5 like D_QUARK name b bottom anti bbar B "b~" tex_anti "\bar{b}" mass mb particle T_QUARK 6 like U_QUARK name t top anti tbar T "t~" tex_anti "\bar{t}" mass mtop width wtop # The leptons particle E_LEPTON 11 spin 1/2 charge -1 isospin -1/2 name "e-" e1 electron e anti "e+" E1 positron tex_name "e^-" tex_anti "e^+" mass me particle E_NEUTRINO 12 left spin 1/2 isospin 1/2 name nue n1 "nu_e" ve "e-neutrino" anti nuebar N1 "ve~" tex_name "\nu_e" tex_anti "\bar\nu_e" particle MU_LEPTON 13 like E_LEPTON name "mu-" e2 mu muon anti "mu+" E2 tex_name "\mu^-" tex_anti "\mu^+" mass mmu particle MU_NEUTRINO 14 like E_NEUTRINO name numu "nu_mu" n2 vm "mu-neutrino" anti numubar N2 "vm~" tex_name "\nu_\mu" tex_anti "\bar\nu_\mu" particle TAU_LEPTON 15 like E_LEPTON name "tau-" e3 tau "ta-" tauon anti "tau+" E3 "ta+" tex_name "\tau^-" tex_anti "\tau^+" mass mtau particle TAU_NEUTRINO 16 like E_NEUTRINO name nutau "nu_tau" n3 vt "tau_neutrino" anti nutaubar N3 "vt~" tex_name "\nu_\tau" tex_anti "\bar\nu_\tau" # The vector bosons particle GLUON 21 parton gauge spin 1 color 8 name gl g G gluon particle PHOTON 22 gauge spin 1 name A gamma photon tex_name "\gamma" particle Z_BOSON 23 gauge spin 1 name Z mass mZ width wZ particle W_BOSON 24 gauge spin 1 charge 1 name "W+" Wp anti "W-" Wm tex_name "W^+" tex_anti "W^-" mass mW width wW # The Higgses particle HIGGSh 25 spin 0 name Hh h0 tex_name "h^0" mass mHh width wHh particle HIGGSH 35 spin 0 name HH H0 tex_name "H^0" mass mHH width wHH particle HIGGSA 36 spin 0 name HA A0 tex_name "A^0" mass mHA width wHA particle HIGGSp 37 spin 0 charge 1 name Hp "H+" anti Hm "H-" tex_name "H^+" tex_anti "H^-" mass mHp width wHp # Hadrons particle PROTON 2212 spin 1/2 charge 1 name p "p+" anti pbar "p-" # Beam remnants for proton colliders particle HADRON_REMNANT 90 name hr tex_name "had_r" particle HADRON_REMNANT_SINGLET 91 name hr1 tex_name "had_r^{(1)}" particle HADRON_REMNANT_TRIPLET 92 color 3 name hr3 tex_name "had_r^{(3)}" anti hr3bar tex_anti "had_r^{(\bar 3)}" particle HADRON_REMNANT_OCTET 93 color 8 name hr8 tex_name "had_r^{(8)}" ######################################################################## # Vertices of the Standard model # In graphs with identical structure the first vertex is kept for phase space # therefore, lighter particles come before heavier ones. # QED vertex D d A vertex U u A vertex S s A vertex C c A vertex B b A vertex T t A vertex E1 e1 A vertex E2 e2 A vertex E3 e3 A # QCD vertex G G G vertex G G G G vertex D d G vertex U u G vertex S s G vertex C c G vertex B b G vertex T t G # Neutral currents vertex D d Z vertex U u Z vertex S s Z vertex C c Z vertex B b Z vertex T t Z vertex E1 e1 Z vertex E2 e2 Z vertex E3 e3 Z vertex N1 n1 Z vertex N2 n2 Z vertex N3 n3 Z # Charged currents vertex U d Wp vertex C s Wp vertex T b Wp vertex D u Wm vertex S c Wm vertex B t Wm vertex N1 e1 Wp vertex N2 e2 Wp vertex N3 e3 Wp vertex E1 n1 Wm vertex E2 n2 Wm vertex E3 n3 Wm # Yukawa ### keeping only 3rd generation for the moment # vertex U u Hh # vertex U u HH # vertex U u HA -# vertex U c Hh -# vertex U c HH -# vertex U c HA -# vertex U t Hh -# vertex U t HH -# vertex U t HA -# vertex C u Hh -# vertex C u HH -# vertex C u HA -# vertex C c Hh -# vertex C c HH -# vertex C c HA -# vertex C t Hh -# vertex C t HH -# vertex C t HA -# vertex T u Hh -# vertex T u HH -# vertex T u HA -# vertex T c Hh -# vertex T c HH -# vertex T c HA +vertex U c Hh +vertex U c HH +vertex U c HA +vertex U t Hh +vertex U t HH +vertex U t HA +vertex C u Hh +vertex C u HH +vertex C u HA +vertex C c Hh +vertex C c HH +vertex C c HA +vertex C t Hh +vertex C t HH +vertex C t HA +vertex T u Hh +vertex T u HH +vertex T u HA +vertex T c Hh +vertex T c HH +vertex T c HA vertex T t Hh vertex T t HH vertex T t HA # vertex D d Hh # vertex D d HH # vertex D d HA -# vertex D s Hh -# vertex D s HH -# vertex D s HA +vertex D s Hh +vertex D s HH +vertex D s HA # vertex D b Hh # vertex D b HH # vertex D b HA # vertex S d Hh # vertex S d HH # vertex S d HA -# vertex S s Hh -# vertex S s HH -# vertex S s HA -# vertex S b Hh -# vertex S b HH -# vertex S b HA -# vertex B d Hh -# vertex B d HH -# vertex B d HA -# vertex B s Hh -# vertex B s HH -# vertex B s HA +vertex S s Hh +vertex S s HH +vertex S s HA +vertex S b Hh +vertex S b HH +vertex S b HA +vertex B d Hh +vertex B d HH +vertex B d HA +vertex B s Hh +vertex B s HH +vertex B s HA vertex B b Hh vertex B b HH vertex B b HA # vertex U d Hp -# vertex U s Hp +vertex U s Hp vertex U b Hp -# vertex C d Hp -# vertex C s Hp +vertex C d Hp +vertex C s Hp vertex C b Hp vertex T d Hp vertex T s Hp vertex T b Hp # vertex D u Hm # vertex D c Hm vertex D t Hm # vertex S u Hm # vertex S c Hm vertex S t Hm vertex B u Hm vertex B c Hm vertex B t Hm # vertex E1 n1 Hm # vertex E1 n2 Hm # vertex E1 n3 Hm -# vertex E2 n1 Hm -# vertex E2 n2 Hm -# vertex E2 n3 Hm -# vertex E3 n1 Hm -# vertex E3 n2 Hm -# vertex E3 n3 Hm +vertex E2 n1 Hm +vertex E2 n2 Hm +vertex E2 n3 Hm +vertex E3 n1 Hm +vertex E3 n2 Hm +vertex E3 n3 Hm # vertex N1 e1 Hp -# vertex N1 e2 Hp -# vertex N1 e3 Hp +vertex N1 e2 Hp +vertex N1 e3 Hp # vertex N2 e1 Hp -# vertex N2 e2 Hp -# vertex N2 e3 Hp +vertex N2 e2 Hp +vertex N2 e3 Hp # vertex N3 e1 Hp -# vertex N3 e2 Hp -# vertex N3 e3 Hp +vertex N3 e2 Hp +vertex N3 e3 Hp # vertex E1 e1 Hh # vertex E1 e1 HH # vertex E1 e1 HA -# vertex E1 e2 Hh -# vertex E1 e2 HH -# vertex E1 e2 HA -# vertex E1 e3 Hh -# vertex E1 e3 HH -# vertex E1 e3 HA -# vertex E2 e1 Hh -# vertex E2 e1 HH -# vertex E2 e1 HA -# vertex E2 e2 Hh -# vertex E2 e2 HH -# vertex E2 e2 HA -# vertex E2 e3 Hh -# vertex E2 e3 HH -# vertex E2 e3 HA -# vertex E3 e1 Hh -# vertex E3 e1 HH -# vertex E3 e1 HA -# vertex E3 e2 Hh -# vertex E3 e2 HH -# vertex E3 e2 HA +vertex E1 e2 Hh +vertex E1 e2 HH +vertex E1 e2 HA +vertex E1 e3 Hh +vertex E1 e3 HH +vertex E1 e3 HA +vertex E2 e1 Hh +vertex E2 e1 HH +vertex E2 e1 HA +vertex E2 e2 Hh +vertex E2 e2 HH +vertex E2 e2 HA +vertex E2 e3 Hh +vertex E2 e3 HH +vertex E2 e3 HA +vertex E3 e1 Hh +vertex E3 e1 HH +vertex E3 e1 HA +vertex E3 e2 Hh +vertex E3 e2 HH +vertex E3 e2 HA vertex E3 e3 Hh vertex E3 e3 HH vertex E3 e3 HA # Vector-boson self-interactions vertex Wp Wm A vertex Wp Wm Z vertex Wp Wm Z Z vertex Wp Wp Wm Wm vertex Wp Wm Z A vertex Wp Wm A A # Higgs - vector boson #vertex H Z A #vertex H A A #vertex H g g vertex Hh Z Z vertex HH Z Z vertex HA Z Z vertex Hh Wp Wm vertex HH Wp Wm vertex HA Wp Wm vertex A Hp Hm vertex Z Hp Hm vertex Z Hh HH vertex Z Hh HA vertex Z HA HH vertex Wp Hm Hh vertex Wp Hm HH vertex Wp Hm HA vertex Wm Hp Hh vertex Wm Hp HH vertex Wm Hp HA # Higgs self-interactions vertex Hp Hm Hh vertex Hp Hm HH vertex Hp Hm HA vertex Hh Hh Hh vertex Hh Hh HH vertex Hh Hh HA vertex HH HH Hh vertex HH HH HH vertex HH HH HA vertex HA HA Hh vertex HA HA HH vertex HA HA HA vertex Hh HH HA \ No newline at end of file Index: trunk/share/models/THDM.mdl =================================================================== --- trunk/share/models/THDM.mdl (revision 8752) +++ trunk/share/models/THDM.mdl (revision 8753) @@ -1,354 +1,354 @@ ######################################################################## # Two-Higgs doublet model (THDM) with trivial flavor structure model "THDM" # Independent parameters ### DO NOT CHANGE THE ORDER OF THESE PARAMETERS parameter GF = 1.16639E-5 # Fermi constant parameter mZ = 91.1882 # Z-boson mass parameter mW = 80.419 # W-boson mass parameter alphas = 0.1178 # Strong coupling constant (Z point) parameter me = 0.000510997 # electron mass parameter mmu = 0.105658389 # muon mass parameter mtau = 1.77705 # tau-lepton mass parameter ms = 0.095 # s-quark mass parameter mc = 1.2 # c-quark mass parameter mb = 4.2 # b-quark mass parameter mtop = 173.1 # t-quark mass parameter wtop = 1.523 # t-quark width parameter wZ = 2.443 # Z-boson width parameter wW = 2.049 # W-boson width parameter khgaz = 0.000 # anomaly Higgs couplings K factors parameter khgaga = 0.000 # anomaly Higgs couplings K factors parameter khgg = 0.000 # anomaly Higgs couplings K factors parameter xi0 = 1.000 # R_xi parameter for Z-boson parameter xipm = 1.000 # R_xi parameter for W-boson parameter mHh = 125 # Higgs h mass parameter wHh = 0.004143 # Higgs h width parameter mHH = 500 # Higgs H mass parameter wHH = 1.000 # Higgs H width parameter mHA = 500 # Higgs A mass parameter wHA = 1.000 # Higgs A width parameter mHp = 500 # Higgs charged mass parameter wHp = 1.000 # Higgs charged width parameter R_11 = 1.000 # Mix. matrix: Si = Rji hj; hj= (h,H,A) parameter R_12 = 0.000 # Mix. matrix: Si = Rji hj; hj= (h,H,A) parameter R_13 = 0.000 # Mix. matrix: Si = Rji hj; hj= (h,H,A) parameter R_21 = 0.000 # Mix. matrix: Si = Rji hj; hj= (h,H,A) parameter R_22 = 1.000 # Mix. matrix: Si = Rji hj; hj= (h,H,A) parameter R_23 = 0.000 # Mix. matrix: Si = Rji hj; hj= (h,H,A) parameter R_31 = 0.000 # Mix. matrix: Si = Rji hj; hj= (h,H,A) parameter R_32 = 0.000 # Mix. matrix: Si = Rji hj; hj= (h,H,A) parameter R_33 = 1.000 # Mix. matrix: Si = Rji hj; hj= (h,H,A) parameter lamb_1 = 1.0 # Higgs potential parameter parameter lamb_2 = 1.0 # Higgs potential parameter parameter lamb_3 = 1.0 # Higgs potential parameter parameter lamb_4 = 1.0 # Higgs potential parameter parameter lamb_5R = 0.0 # Higgs potential parameter parameter lamb_5I = 1.0 # Higgs potential parameter parameter lamb_6R = 0.0 # Higgs potential parameter parameter lamb_6I = 1.0 # Higgs potential parameter parameter lamb_7R = 1.0 # Higgs potential parameter parameter lamb_7I = 0.0 # Higgs potential parameter parameter zetauR = 1.0 # Aligned Yukawa parameter parameter zetauI = 1.0 # Aligned Yukawa parameter parameter zetadR = 1.0 # Aligned Yukawa parameter parameter zetadI = 1.0 # Aligned Yukawa parameter parameter zetalR = 1.0 # Aligned Yukawa parameter parameter zetalI = 1.0 # Aligned Yukawa parameter # Dependent parameters derived v = 1 / sqrt (sqrt (2.) * GF) # v (Higgs vev) derived cw = mW / mZ # cos(theta-W) derived sw = sqrt (1-cw**2) # sin(theta-W) derived ee = 2 * sw * mW / v # em-coupling (GF scheme) derived alpha_em_i = 4 * pi / ee**2 # inverse fine structure const ######################################################################## # Particle content # The quarks particle D_QUARK 1 parton spin 1/2 charge -1/3 isospin -1/2 color 3 name d down anti dbar D "d~" tex_anti "\bar{d}" particle U_QUARK 2 parton spin 1/2 charge 2/3 isospin 1/2 color 3 name u up anti ubar U "u~" tex_anti "\bar{u}" particle S_QUARK 3 like D_QUARK name s strange anti sbar S "s~" tex_anti "\bar{s}" mass ms particle C_QUARK 4 like U_QUARK name c charm anti cbar C "c~" tex_anti "\bar{c}" mass mc particle B_QUARK 5 like D_QUARK name b bottom anti bbar B "b~" tex_anti "\bar{b}" mass mb particle T_QUARK 6 like U_QUARK name t top anti tbar T "t~" tex_anti "\bar{t}" mass mtop width wtop # The leptons particle E_LEPTON 11 spin 1/2 charge -1 isospin -1/2 name "e-" e1 electron e anti "e+" E1 positron tex_name "e^-" tex_anti "e^+" mass me particle E_NEUTRINO 12 left spin 1/2 isospin 1/2 name nue n1 "nu_e" ve "e-neutrino" anti nuebar N1 "ve~" tex_name "\nu_e" tex_anti "\bar\nu_e" particle MU_LEPTON 13 like E_LEPTON name "mu-" e2 mu muon anti "mu+" E2 tex_name "\mu^-" tex_anti "\mu^+" mass mmu particle MU_NEUTRINO 14 like E_NEUTRINO name numu "nu_mu" n2 vm "mu-neutrino" anti numubar N2 "vm~" tex_name "\nu_\mu" tex_anti "\bar\nu_\mu" particle TAU_LEPTON 15 like E_LEPTON name "tau-" e3 tau "ta-" tauon anti "tau+" E3 "ta+" tex_name "\tau^-" tex_anti "\tau^+" mass mtau particle TAU_NEUTRINO 16 like E_NEUTRINO name nutau "nu_tau" n3 vt "tau_neutrino" anti nutaubar N3 "vt~" tex_name "\nu_\tau" tex_anti "\bar\nu_\tau" # The vector bosons particle GLUON 21 parton gauge spin 1 color 8 name gl g G gluon particle PHOTON 22 gauge spin 1 name A gamma photon tex_name "\gamma" particle Z_BOSON 23 gauge spin 1 name Z mass mZ width wZ particle W_BOSON 24 gauge spin 1 charge 1 name "W+" Wp anti "W-" Wm tex_name "W^+" tex_anti "W^-" mass mW width wW # The Higgses particle HIGGSh 25 spin 0 name Hh h0 tex_name "h^0" mass mHh width wHh particle HIGGSH 35 spin 0 name HH H0 tex_name "H^0" mass mHH width wHH particle HIGGSA 36 spin 0 name HA A0 tex_name "A^0" mass mHA width wHA particle HIGGSp 37 spin 0 charge 1 name Hp "H+" anti Hm "H-" tex_name "H^+" tex_anti "H^-" mass mHp width wHp # Hadrons particle PROTON 2212 spin 1/2 charge 1 name p "p+" anti pbar "p-" # Beam remnants for proton colliders particle HADRON_REMNANT 90 name hr tex_name "had_r" particle HADRON_REMNANT_SINGLET 91 name hr1 tex_name "had_r^{(1)}" particle HADRON_REMNANT_TRIPLET 92 color 3 name hr3 tex_name "had_r^{(3)}" anti hr3bar tex_anti "had_r^{(\bar 3)}" particle HADRON_REMNANT_OCTET 93 color 8 name hr8 tex_name "had_r^{(8)}" ######################################################################## # Vertices of the Standard model # In graphs with identical structure the first vertex is kept for phase space # therefore, lighter particles come before heavier ones. # QED vertex D d A vertex U u A vertex S s A vertex C c A vertex B b A vertex T t A vertex E1 e1 A vertex E2 e2 A vertex E3 e3 A # QCD vertex G G G vertex G G G G vertex D d G vertex U u G vertex S s G vertex C c G vertex B b G vertex T t G # Neutral currents vertex D d Z vertex U u Z vertex S s Z vertex C c Z vertex B b Z vertex T t Z vertex E1 e1 Z vertex E2 e2 Z vertex E3 e3 Z vertex N1 n1 Z vertex N2 n2 Z vertex N3 n3 Z # Charged currents vertex U d Wp vertex C s Wp vertex T b Wp vertex D u Wm vertex S c Wm vertex B t Wm vertex N1 e1 Wp vertex N2 e2 Wp vertex N3 e3 Wp vertex E1 n1 Wm vertex E2 n2 Wm vertex E3 n3 Wm # Yukawa ### keeping only 3rd generation for the moment #vertex U u Hh #vertex U u HH #vertex U u HA -#vertex C c Hh -#vertex C c HH -#vertex C c HA +vertex C c Hh +vertex C c HH +vertex C c HA vertex T t Hh vertex T t HH vertex T t HA #vertex D d Hh #vertex D d HH #vertex D d HA -#vertex S s Hh -#vertex S s HH -#vertex S s HA +vertex S s Hh +vertex S s HH +vertex S s HA vertex B b Hh vertex B b HH vertex B b HA #vertex U d Hp -#vertex C s Hp +vertex C s Hp vertex T b Hp #vertex D u Hm -#vertex S c Hm +vertex S c Hm vertex B t Hm #vertex E1 n1 Hm -#vertex E2 n2 Hm +vertex E2 n2 Hm vertex E3 n3 Hm #vertex N1 e1 Hp -#vertex N2 e2 Hp +vertex N2 e2 Hp vertex N3 e3 Hp #vertex E1 e1 Hh #vertex E1 e1 HH #vertex E1 e1 HA -#vertex E2 e2 Hh -#vertex E2 e2 HH -#vertex E2 e2 HA +vertex E2 e2 Hh +vertex E2 e2 HH +vertex E2 e2 HA vertex E3 e3 Hh vertex E3 e3 HH vertex E3 e3 HA # Vector-boson self-interactions vertex Wp Wm A vertex Wp Wm Z vertex Wp Wm Z Z vertex Wp Wp Wm Wm vertex Wp Wm Z A vertex Wp Wm A A # Higgs - vector boson #vertex H Z A #vertex H A A #vertex H g g vertex Hh Z Z vertex HH Z Z vertex HA Z Z vertex Hh Wp Wm vertex HH Wp Wm vertex HA Wp Wm vertex A Hp Hm vertex Z Hp Hm vertex Z Hh HH vertex Z Hh HA vertex Z HA HH vertex Wp Hm Hh vertex Wp Hm HH vertex Wp Hm HA vertex Wm Hp Hh vertex Wm Hp HH vertex Wm Hp HA # Higgs self-interactions vertex Hp Hm Hh vertex Hp Hm HH vertex Hp Hm HA vertex Hh Hh Hh vertex Hh Hh HH vertex Hh Hh HA vertex HH HH Hh vertex HH HH HH vertex HH HH HA vertex HA HA Hh vertex HA HA HH vertex HA HA HA vertex Hh HH HA \ No newline at end of file