# NMSSMTools OUTPUT IN SLHA FORMAT # Info about spectrum calculator BLOCK SPINFO # Program information 1 NMSSMTools # Spectrum calculator 2 4.6.0 # Version number # Input parameters BLOCK MODSEL 3 1 # NMSSM particle content 1 0 # IMOD 10 0 # ISCAN 9 1 # Call micrOmegas 8 2 # Precision for Higgs masses 13 0 # Sparticle decays via NMSDECAY 14 0 # H-> VV,VV*,(V*V*) 15 0 # Precision for micromegas 16 0 # Extra BLOCK's yes/no BLOCK SMINPUTS 1 1.27920000E+02 # ALPHA_EM^-1(MZ) 2 1.16637000E-05 # GF 3 1.19000000E-01 # ALPHA_S(MZ) 4 9.11876000E+01 # MZ 5 4.16000000E+00 # MB(MB) 6 1.72500000E+02 # MTOP (POLE MASS) 7 1.77700000E+00 # MTAU # SMINPUTS Beyond SLHA: # MW: 0.80420000E+02 # MS: 0.19000000E+00 # MC: 0.14000000E+01 # VUS: 0.22000000E+00 # VCB: 0.40000000E-01 # VUB: 0.40000000E-02 BLOCK MINPAR 3 2.80000000E+01 # TANBETA(MZ) BLOCK EXTPAR 1 1.50000000E+02 # M1 2 3.00000000E+02 # M2 3 1.00000000E+03 # M3 11 2.50000000E+03 # ATOP 12 2.50000000E+03 # ABOTTOM 13 2.50000000E+03 # ATAU 16 2.50000000E+03 # AMUON 31 1.00000000E+03 # LEFT SELECTRON 32 1.00000000E+03 # LEFT SMUON 33 1.00000000E+03 # LEFT STAU 34 1.00000000E+03 # RIGHT SELECTRON 35 1.00000000E+03 # RIGHT SMUON 36 1.00000000E+03 # RIGHT STAU 41 1.00000000E+03 # LEFT 1ST GEN. SQUARKS 42 1.00000000E+03 # LEFT 2ND GEN. SQUARKS 43 1.00000000E+03 # LEFT 3RD GEN. SQUARKS 44 1.00000000E+03 # RIGHT U-SQUARKS 45 1.00000000E+03 # RIGHT C-SQUARKS 46 1.00000000E+03 # RIGHT T-SQUARKS 47 1.00000000E+03 # RIGHT D-SQUARKS 48 1.00000000E+03 # RIGHT S-SQUARKS 49 1.00000000E+03 # RIGHT B-SQUARKS 61 2.00000000E-01 # LAMBDA 62 2.40000000E-01 # KAPPA 63 6.79000000E+02 # ALAMBDA 64 -3.10512800E-01 # AKAPPA 65 2.00000000E+02 # MUEFF # 124 2.26652817E+03 # MA AT QSTSB # 125 2.38149525E+01 # MP AT QSTSB # BLOCK MASS # Mass spectrum # PDG Code mass particle 5 4.16000000E+00 # MB(MB) 6 1.72500000E+02 # MTOP (POLE MASS) 15 1.77700000E+00 # MTAU 23 9.11876000E+01 # MZ 24 8.04200000E+01 # MW 25 1.23260195E+02 # lightest neutral scalar 35 4.79633237E+02 # second neutral scalar 45 2.25374089E+03 # third neutral scalar 36 8.59888349E+00 # lightest pseudoscalar 46 2.25353401E+03 # second pseudoscalar 37 2.25482956E+03 # charged Higgs 1000001 1.03901055E+03 # ~d_L 2000001 1.03769567E+03 # ~d_R 1000002 1.03608395E+03 # ~u_L 2000002 1.03681405E+03 # ~u_R 1000003 1.03901055E+03 # ~s_L 2000003 1.03769567E+03 # ~s_R 1000004 1.03608395E+03 # ~c_L 2000004 1.03681405E+03 # ~c_R 1000005 1.03468404E+03 # ~b_1 2000005 1.04201452E+03 # ~b_2 1000006 8.56151067E+02 # ~t_1 2000006 1.20288488E+03 # ~t_2 1000011 1.00106059E+03 # ~e_L 2000011 1.00091397E+03 # ~e_R 1000012 9.98022506E+02 # ~nue_L 1000013 1.00106059E+03 # ~mu_L 2000013 1.00091397E+03 # ~mu_R 1000014 9.98022506E+02 # ~numu_L 1000015 9.98247789E+02 # ~tau_1 2000015 1.00372244E+03 # ~tau_2 1000016 9.98022506E+02 # ~nutau_L 1000021 1.07662834E+03 # ~g 1000022 1.33627931E+02 # neutralino(1) 1000023 1.94679143E+02 # neutralino(2) 1000025 -2.13158325E+02 # neutralino(3) 1000035 3.44172704E+02 # neutralino(4) 1000045 4.92563275E+02 # neutralino(5) 1000024 1.84033145E+02 # chargino(1) 1000037 3.44444667E+02 # chargino(2) # # Low energy observables BLOCK LOWEN # Exp. 2 Sigma: 2.99E-4 < BR(b -> s gamma) < 3.87E-4: 1 4.83521800E-04 # BR(b -> s gamma) 11 6.03297469E-04 # (BR(b -> s gamma)+Theor.Err.) 12 3.52852741E-04 # (BR(b -> s gamma)-Theor.Err.) # Exp. 2 Sigma: 5.04E-1 < Delta M_d < 5.16E-1: 2 5.25784456E-01 # Delta M_d in ps^-1 21 8.99715870E-01 # Delta M_d +Theor.Err. 22 1.53270322E-01 # Delta M_d -Theor.Err. # Exp. 2 Sigma: 1.7717E+1 < Delta Ms < 1.7805E+1: 3 1.86707374E+01 # Delta M_s in ps^-1 31 2.39264376E+01 # Delta M_s +Theor.Err. 32 1.34350441E+01 # Delta M_s -Theor.Err. # Exp. 2 Sigma: 1.2E-9 < BR(Bs->mu+mu-) < 5.2E-9: 4 3.15995421E-09 # BR(Bs -> mu+mu-) 41 4.62550336E-09 # BR(Bs -> mu+mu-)+Theor.Err. 42 1.93328024E-09 # BR(Bs -> mu+mu-)-Theor.Err. # Exp. 2 Sigma: 0.70E-4 < BR(B+ > tau+ + nu_tau) < 1.58E-4: 5 1.06134389E-04 # BR(B+ -> tau+ + nu_tau) 51 1.81084494E-04 # BR(B+ -> tau+ + nu_tau) + Theor.Err. 52 5.50547029E-05 # BR(B+ -> tau+ + nu_tau) - Theor.Err. # # BSM contr. to the muon anomalous magn. moment: 6 9.67439336E-10 # Del_a_mu 61 1.26730051E-09 # Del_a_mu + Theor.Err. 62 6.67578166E-10 # Del_a_mu - Theor.Err. # Minimal Exp.-SM (2 sigma): 8.77301839E-10 # Maximal Exp.-SM (2 sigma): 4.61143976E-09 # # Omega h^2 (allowed: 0.107 < Omega h^2 < 0.131): 10 1.19349367E-01 # Omega h^2 # Channels which contribute to 1/(omega) more than 0.1%. # Relative contributions in % are displayed 61.3% ~o1 ~o1 ->W+ W- 18.2% ~o1 ~o1 ->Z Z 7.0% ~o1 ~o1 ->Z h1 6.4% ~o1 ~o1 ->h1 h1 3.6% ~o1 ~o1 ->h1 ha 1.3% ~o1 ~o1 ->b B 0.3% ~o1 ~o1 ->c C 0.3% ~o1 ~o1 ->u U 0.3% ~o1 ~o1 ->d D 0.3% ~o1 ~o1 ->s S 0.2% ~o1 ~o1 ->l L 0.2% ~o1 ~o1 ->ne Ne 0.2% ~o1 ~o1 ->nm Nm 0.2% ~o1 ~o1 ->nl Nl # BLOCK HMIX Q= 1.00000000E+03 # (STOP/SBOTTOM MASSES) 1 2.00000000E+02 # MUEFF 2 2.79138487E+01 # TAN(BETA) 3 2.42055283E+02 # V(Q) 4 5.13714994E+06 # MA^2 5 5.67151965E+02 # MP^2 # # 3*3 Higgs mixing BLOCK NMHMIX 1 1 3.55176661E-02 # S_(1,1) 1 2 9.98038193E-01 # S_(1,2) 1 3 -5.15583277E-02 # S_(1,3) 2 1 9.93972493E-03 # S_(2,1) 2 2 5.12355390E-02 # S_(2,2) 2 3 9.98637132E-01 # S_(2,3) 3 1 9.99319617E-01 # S_(3,1) 3 2 -3.59817358E-02 # S_(3,2) 3 3 -8.10045833E-03 # S_(3,3) # # 3*3 Pseudoscalar Higgs mixing BLOCK NMAMIX 1 1 -1.29389635E-03 # P_(1,1) 1 2 -4.62105840E-05 # P_(1,2) 1 3 9.99999162E-01 # P_(1,3) 2 1 9.99362005E-01 # P_(2,1) 2 2 3.56915002E-02 # P_(2,2) 2 3 1.29472152E-03 # P_(2,3) # # 3rd generation sfermion mixing BLOCK STOPMIX # Stop mixing matrix 1 1 -7.07836087E-01 # Rst_(1,1) 1 2 7.06376722E-01 # Rst_(1,2) 2 1 -7.06376722E-01 # Rst_(2,1) 2 2 -7.07836087E-01 # Rst_(2,2) BLOCK SBOTMIX # Sbottom mixing matrix 1 1 6.38872149E-01 # Rsb_(1,1) 1 2 7.69312926E-01 # Rsb_(1,2) 2 1 -7.69312926E-01 # Rsb_(2,1) 2 2 6.38872149E-01 # Rsb_(2,2) BLOCK STAUMIX # Stau mixing matrix 1 1 6.97573896E-01 # Rsl_(1,1) 1 2 7.16512847E-01 # Rsl_(1,2) 2 1 -7.16512847E-01 # Rsl_(2,1) 2 2 6.97573896E-01 # Rsl_(2,2) # # Gaugino-Higgsino mixing BLOCK NMNMIX # 5*5 Neutralino Mixing Matrix 1 1 8.44966343E-01 # N_(1,1) 1 2 -1.37988130E-01 # N_(1,2) 1 3 4.23825337E-01 # N_(1,3) 1 4 -2.92797735E-01 # N_(1,4) 1 5 4.04069920E-02 # N_(1,5) 2 1 5.22752364E-01 # N_(2,1) 2 2 3.75286104E-01 # N_(2,2) 2 3 -5.45924275E-01 # N_(2,3) 2 4 5.32909476E-01 # N_(2,4) 2 5 -6.21649537E-02 # N_(2,5) 3 1 -8.16808783E-02 # N_(3,1) 3 2 1.05267927E-01 # N_(3,2) 3 3 6.86789542E-01 # N_(3,3) 3 4 7.13668779E-01 # N_(3,4) 3 5 3.52689146E-02 # N_(3,5) 4 1 -7.78845215E-02 # N_(4,1) 4 2 9.10346269E-01 # N_(4,2) 4 3 2.08233559E-01 # N_(4,3) 4 4 -3.45899139E-01 # N_(4,4) 4 5 4.68640793E-02 # N_(4,5) 5 1 4.90708795E-03 # N_(5,1) 5 2 -1.75484912E-02 # N_(5,2) 5 3 -8.54264596E-02 # N_(5,3) 5 4 3.61612455E-02 # N_(5,4) 5 5 9.95521298E-01 # N_(5,5) # BLOCK UMIX # Chargino U Mixing Matrix 1 1 3.02709115E-01 # U_(1,1) 1 2 -9.53082993E-01 # U_(1,2) 2 1 9.53082993E-01 # U_(2,1) 2 2 3.02709115E-01 # U_(2,2) # BLOCK VMIX # Chargino V Mixing Matrix 1 1 4.93784812E-01 # V_(1,1) 1 2 -8.69584130E-01 # V_(1,2) 2 1 8.69584130E-01 # V_(2,1) 2 2 4.93784812E-01 # V_(2,2) # Higgs reduced couplings # (as compared to a SM Higgs with same mass) BLOCK REDCOUP # H1 1 1 9.98674494E-01 # U-type fermions 1 2 9.95128694E-01 # D-type fermions 1 3 9.95479060E-01 # b-quarks 1 4 9.98669977E-01 # W,Z bosons 1 5 9.77325093E-01 # Gluons 1 6 1.00967280E+00 # Photons # H2 2 1 5.12682043E-02 # U-type fermions 2 2 2.78489736E-01 # D-type fermions 2 3 2.56037640E-01 # b-quarks 2 4 5.15576585E-02 # W,Z bosons 2 5 5.03864528E-02 # Gluons 2 6 2.07641534E-01 # Photons # H3 3 1 -3.60046761E-02 # U-type fermions 3 2 2.79987886E+01 # D-type fermions 3 3 2.52286291E+01 # b-quarks 3 4 -2.91563627E-04 # W,Z bosons 3 5 1.18690903E-01 # Gluons 3 6 1.15319346E-02 # Photons # A1 4 1 -4.62400457E-05 # U-type fermions 4 2 -3.62521958E-02 # D-type fermions 4 3 -3.26700626E-02 # b-quarks 4 4 0.00000000E+00 # W,Z bosons 4 5 3.30671894E-02 # Gluons 4 6 5.87351300E-02 # Photons # A2 5 1 3.57142554E-02 # U-type fermions 5 2 2.79999762E+01 # D-type fermions 5 3 2.52332570E+01 # b-quarks 5 4 0.00000000E+00 # W,Z bosons 5 5 1.18336761E-01 # Gluons 5 6 1.60001241E-01 # Photons # Block HiggsBoundsInputHiggsCouplingsBosons 0.997342 3 25 24 24 # Higgs(1)-W-W reduced coupling^2 0.265819E-02 3 35 24 24 # Higgs(2)-W-W reduced coupling^2 0.850093E-07 3 45 24 24 # Higgs(3)-W-W reduced coupling^2 0.00000 3 36 24 24 # CP-odd Higgs(1)-W-W reduced coupling^2 0.00000 3 46 24 24 # CP-odd Higgs(2)-W-W reduced coupling^2 0.997342 3 25 23 23 # Higgs(1)-Z-Z reduced coupling^2 0.265819E-02 3 35 23 23 # Higgs(2)-Z-Z reduced coupling^2 0.850093E-07 3 45 23 23 # Higgs(3)-Z-Z reduced coupling^2 0.00000 3 36 23 23 # CP-odd Higgs(1)-Z-Z reduced coupling^2 0.00000 3 46 23 23 # CP-odd Higgs(2)-Z-Z reduced coupling^2 0.955164 3 25 21 21 # Higgs(1)-gluon-gluon reduced coupling^2 0.253879E-02 3 35 21 21 # Higgs(2)-gluon-gluon reduced coupling^2 0.140875E-01 3 45 21 21 # Higgs(3)-gluon-gluon reduced coupling^2 0.109344E-02 3 36 21 21 # CP-odd Higgs(1)-gluon-gluon reduced coupling^2 0.140036E-01 3 46 21 21 # CP-odd Higgs(2)-gluon-gluon reduced coupling^2 1.01944 3 25 22 22 # Higgs(1)-gamma-gamma reduced coupling^2 0.431150E-01 3 35 22 22 # Higgs(2)-gamma-gamma reduced coupling^2 0.132986E-03 3 45 22 22 # Higgs(3)-gamma-gamma reduced coupling^2 0.344982E-02 3 36 22 22 # CP-odd Higgs(1)-gamma-gamma reduced coupling^2 0.256004E-01 3 46 22 22 # CP-odd Higgs(2)-gamma-gamma reduced coupling^2 # Block HiggsBoundsInputHiggsCouplingsFermions # Scalar Pseudoscalar 0.990979 0.00000 3 25 5 5 # Higgs(1)-b-b red. coupling^2 0.655553E-01 0.00000 3 35 5 5 # Higgs(2)-b-b red. coupling^2 636.484 0.00000 3 45 5 5 # Higgs(3)-b-b red. coupling^2 0.00000 0.106733E-02 3 36 5 5 # CP-odd Higgs(1)-b-b red. coupling^2 0.00000 636.717 3 46 5 5 # CP-odd Higgs(2)-b-b red. coupling^2 0.997351 0.00000 3 25 6 6 # Higgs(1)-top-top red. coupling^2 0.262843E-02 0.00000 3 35 6 6 # Higgs(2)-top-top red. coupling^2 0.129634E-02 0.00000 3 45 6 6 # Higgs(3)-top-top red. coupling^2 0.00000 0.213814E-08 3 36 6 6 # CP-odd Higgs(1)-top-top red. coupling^2 0.00000 0.127551E-02 3 46 6 6 # CP-odd Higgs(2)-top-top red. coupling^2 0.990281 0.00000 3 25 15 15 # Higgs(1)-tau-tau red. coupling^2 0.775565E-01 0.00000 3 35 15 15 # Higgs(2)-tau-tau red. coupling^2 783.932 0.00000 3 45 15 15 # Higgs(3)-tau-tau red. coupling^2 0.00000 0.131422E-02 3 36 15 15 # CP-odd Higgs(1)-tau-tau red. coupling^2 0.00000 783.999 3 46 15 15 # CP-odd Higgs(2)-tau-tau red. coupling^2 # # GAUGE AND YUKAWA COUPLINGS AT THE SUSY SCALE BLOCK GAUGE Q= 1.00000000E+03 # (SUSY SCALE) 1 3.62391638E-01 # g1(Q,DR_bar) 2 6.43736730E-01 # g2(Q,DR_bar) 3 1.06595218E+00 # g3(Q,DR_bar) BLOCK YU Q= 1.00000000E+03 # (SUSY SCALE) 3 3 8.55093969E-01 # HTOP(Q,DR_bar) BLOCK YD Q= 1.00000000E+03 # (SUSY SCALE) 3 3 3.46526228E-01 # HBOT(Q,DR_bar) BLOCK YE Q= 1.00000000E+03 # (SUSY SCALE) 3 3 2.82510597E-01 # HTAU(Q,DR_bar) # # SOFT TRILINEAR COUPLINGS AT THE SUSY SCALE # (BOTH SLHA1 AND SLHA2 FORMAT) BLOCK AU Q= 1.00000000E+03 # (SUSY SCALE) 3 3 2.50000000E+03 # ATOP BLOCK TU Q= 1.00000000E+03 # (SUSY SCALE) 3 3 2.50000000E+03 # ATOP BLOCK AD Q= 1.00000000E+03 # (SUSY SCALE) 3 3 2.50000000E+03 # ABOT BLOCK TD Q= 1.00000000E+03 # (SUSY SCALE) 3 3 2.50000000E+03 # ABOT BLOCK AE Q= 1.00000000E+03 # (SUSY SCALE) 2 2 2.50000000E+03 # AMUON 3 3 2.50000000E+03 # ATAU BLOCK TE Q= 1.00000000E+03 # (SUSY SCALE) 2 2 2.50000000E+03 # AMUON 3 3 2.50000000E+03 # ATAU # # SOFT MASSES AT THE SUSY SCALE BLOCK MSOFT Q= 1.00000000E+03 # (SUSY SCALE) 1 1.50000000E+02 # M1 2 3.00000000E+02 # M2 3 1.00000000E+03 # M3 21 5.09903343E+06 # M_HD^2 22 -1.41289719E+04 # M_HU^2 31 1.00000000E+03 # M_eL 32 1.00000000E+03 # M_muL 33 1.00000000E+03 # M_tauL 34 1.00000000E+03 # M_eR 35 1.00000000E+03 # M_muR 36 1.00000000E+03 # M_tauR 41 1.00000000E+03 # M_q1L 42 1.00000000E+03 # M_q2L 43 1.00000000E+03 # M_q3L 44 1.00000000E+03 # M_uR 45 1.00000000E+03 # M_cR 46 1.00000000E+03 # M_tR 47 1.00000000E+03 # M_dR 48 1.00000000E+03 # M_sR 49 1.00000000E+03 # M_bR # # NMSSM SPECIFIC PARAMETERS THE SUSY SCALE BLOCK NMSSMRUN Q= 1.00000000E+03 # (SUSY SCALE) 1 2.00000000E-01 # LAMBDA(Q,DR_bar) 2 2.40000000E-01 # KAPPA(Q,DR_bar) 3 6.79000000E+02 # ALAMBDA 4 -3.10512800E-01 # AKAPPA 5 2.00000000E+02 # MUEFF 6 0.00000000E+00 # XIF 7 0.00000000E+00 # XIS 8 0.00000000E+00 # MU' 9 0.00000000E+00 # MS'^2 10 -1.16054332E+05 # MS^2 # 12 0.00000000E+00 # M3H^2 # BLOCK MSQ2 # Soft l.h. squark masses squared 1 1 1.00000000E+06 # M_q1L^2 2 2 1.00000000E+06 # M_q2L^2 3 3 1.00000000E+06 # M_q3L^2 # BLOCK MSU2 # Soft r.h. up-squark masses squared 1 1 1.00000000E+06 # M_uR^2 2 2 1.00000000E+06 # M_cR^2 3 3 1.00000000E+06 # M_tR^2 # BLOCK MSD2 # Soft r.h. down-squark masses squared 1 1 1.00000000E+06 # M_dR^2 2 2 1.00000000E+06 # M_sR^2 3 3 1.00000000E+06 # M_bR^2 # BLOCK MSL2 # Soft l.h. slepton masses squared 1 1 1.00000000E+06 # M_eL^2 2 2 1.00000000E+06 # M_muL^2 3 3 1.00000000E+06 # M_tauL^2 # BLOCK MSE2 # Soft r.h. slepton masses squared 1 1 1.00000000E+06 # M_eR^2 2 2 1.00000000E+06 # M_muR^2 3 3 1.00000000E+06 # M_tauR^2 # BLOCK USQMIX # Elements of 6x6 up-squark matrix 1 1 1.00000000E+00 # R_u_11 2 2 1.00000000E+00 # R_u_22 3 3 -7.07836087E-01 # R_u_33 3 6 7.06376722E-01 # R_u_36 4 4 1.00000000E+00 # R_u_44 5 5 1.00000000E+00 # R_u_55 6 6 -7.07836087E-01 # R_u_66 6 3 -7.06376722E-01 # R_u_63 # BLOCK DSQMIX # Elements of 6x6 down-squark matrix 1 1 1.00000000E+00 # R_d_11 2 2 1.00000000E+00 # R_d_22 3 3 6.38872149E-01 # R_d_33 3 6 7.69312926E-01 # R_u_36 4 4 1.00000000E+00 # R_d_44 5 5 1.00000000E+00 # R_d_55 6 6 6.38872149E-01 # R_d_66 6 3 -7.69312926E-01 # R_u36 # BLOCK SELMIX # Elements of 6x6 ch. slepton matrix 1 1 1.00000000E+00 # R_e_11 2 2 1.00000000E+00 # R_e_22 3 3 6.97573896E-01 # R_e_33 3 6 7.16512847E-01 # R_e_36 4 4 1.00000000E+00 # R_e_44 5 5 1.00000000E+00 # R_e_55 6 6 6.97573896E-01 # R_e_66 6 3 -7.16512847E-01 # R_e_63 # # # GAUGE AND YUKAWA COUPLINGS AT THE GUT SCALE BLOCK GUTGAUGE Q= 2.33724169E+16 # (GUT SCALE) 1 7.14596589E-01 # g1(MGUT,DR_bar), GUT normalization 2 7.14596588E-01 # g2(MGUT,DR_bar) 3 7.04033122E-01 # g3(MGUT,DR_bar) BLOCK GUTYU Q= 2.33724169E+16 # (GUT SCALE) 3 3 5.07112443E-01 # HTOP(MGUT,DR_bar) BLOCK GUTYD Q= 2.33724169E+16 # (GUT SCALE) 3 3 1.43656190E-01 # HBOT(MGUT,DR_bar) BLOCK GUTYE Q= 2.33724169E+16 # (GUT SCALE) 3 3 2.11719490E-01 # HTAU(MGUT,DR_bar) # # SOFT TRILINEAR COUPLINGS AT THE GUT SCALE BLOCK GUTAU Q= 2.33724169E+16 # (GUT SCALE) 3 3 9.66535184E+03 # ATOP BLOCK GUTAD Q= 2.33724169E+16 # (GUT SCALE) 3 3 5.26592160E+03 # ABOT BLOCK GUTAE Q= 2.33724169E+16 # (GUT SCALE) 2 2 3.08455185E+03 # AMUON 3 3 3.29688702E+03 # ATAU # # SOFT MASSES SQUARED AT THE GUT SCALE BLOCK GUTMSOFT Q= 2.33724169E+16 # (GUT SCALE) 1 3.81139763E+02 # M1 2 4.11409063E+02 # M2 3 4.60075372E+02 # M3 21 7.65966894E+06 # M_HD^2 22 2.69955109E+07 # M_HU^2 31 1.12352856E+03 # M_eL 32 1.12352856E+03 # M_muL 33 1.29445059E+03 # M_tauL 34 6.22433261E+02 # M_eR 35 6.22433261E+02 # M_muR 36 1.10392508E+03 # M_tauR 41 3.81146454E+02 # M_q1L 42 3.81146454E+02 # M_q2L 43 3.04811605E+03 # M_q3L 44 8.22766100E+02 # M_uR 45 8.22766100E+02 # M_cR 46 4.27210942E+03 # M_tR 47 2.68300831E+02 # M_dR 48 2.68300831E+02 # M_sR 49 1.01845592E+03 # M_bR # # NMSSM SPECIFIC PARAMETERS AT THE GUT SCALE BLOCK GUTNMSSMRUN Q= 2.33724169E+16 # (GUT SCALE) 1 2.15010324E-01 # LAMBDA(MGUT,DR_bar) 2 2.73396537E-01 # KAPPA(MGUT,DR_bar) 3 4.28626974E+03 # ALAMBDA 4 2.72770556E+02 # AKAPPA 6 0.00000000E+00 # XIF 7 0.00000000E+00 # XIS 8 0.00000000E+00 # MU' 9 0.00000000E+00 # MS'^2 10 7.41784233E+05 # MS^2 12 0.00000000E+00 # M3H^2 # # FINE-TUNING parameter d(ln Mz^2)/d(ln PG^2) # BLOCK FINETUNING 1 -2.26139092E+00 # PS=MHU 2 1.03378157E+00 # PS=MHD 3 5.13290526E+00 # PS=MS 4 -7.70315976E-01 # PS=ALAMBDA 5 1.64802064E-03 # PS=AKAPPA 6 -0.00000000E+00 # PS=XIF 7 -0.00000000E+00 # PS=XIS 8 -0.00000000E+00 # PS=MUP 9 -0.00000000E+00 # PS=MSP 10 -0.00000000E+00 # PS=M3H 11 5.32226239E+00 # PS=LAMBDA 12 -5.36459430E+00 # PS=KAPPA 13 7.58862993E-01 # PS=HTOP 14 -3.37099583E-01 # PS=G 15 5.36459430E+00 # MAX 16 12 # IMAX # # REDUCED CROSS SECTIONS AT LHC BLOCK LHCCROSSSECTIONS 11 9.01345899E-01 # VBF/VH -> H1 -> tautau 12 8.63228158E-01 # ggF -> H1 -> tautau 13 9.01660228E-01 # VBF/VH -> H1 -> bb 14 9.01668384E-01 # ttH -> H1 -> bb 15 9.07772405E-01 # VBF/VH -> H1 -> ZZ/WW 16 8.69382888E-01 # ggF -> H1 -> ZZ/WW 17 9.27939484E-01 # VBF/VH -> H1 -> gammagamma 18 8.88697105E-01 # ggF -> H1 -> gammagamma 19 0.00000000E+00 # ggF -> H1 -> invisible 110 0.00000000E+00 # VBF/VH -> H1 -> invisible 21 1.34765952E-02 # VBF/VH -> H2 -> tautau 22 1.28712695E-02 # ggF -> H2 -> tautau 23 7.64967370E-03 # VBF/VH -> H2 -> bb 24 7.56402146E-03 # ttH -> H2 -> bb 25 4.61900217E-04 # VBF/VH -> H2 -> ZZ/WW 26 4.41153131E-04 # ggF -> H2 -> ZZ/WW 27 7.49230770E-03 # VBF/VH -> H2 -> gammagamma 28 7.15577711E-03 # ggF -> H2 -> gammagamma 29 1.31802038E-05 # ggF -> H2 -> invisible 210 1.25881911E-05 # VBF/VH -> H2 -> invisible 31 5.86245435E-03 # VBF/VH -> H3 -> tautau 32 9.71510840E+02 # ggF -> H3 -> tautau 33 3.62078782E-03 # VBF/VH -> H3 -> bb 34 5.52146347E+01 # ttH -> H3 -> bb 35 6.35722642E-13 # VBF/VH -> H3 -> ZZ/WW 36 1.05350319E-07 # ggF -> H3 -> ZZ/WW 37 9.94559304E-10 # VBF/VH -> H3 -> gammagamma 38 1.64815807E-04 # ggF -> H3 -> gammagamma 39 1.40278236E-09 # VBF/VH -> H3 -> invisible 310 2.32465480E-04 # ggf -> H3 -> invisible # # CHI^2 FOR HIGGS COUPLINGS BLOCK LHCFIT 1 2.84965623E+00 # Hgammagamma 2 3.61054613E+00 # Hff 3 1.62064456E+00 # HVV # # PARAMETERS OF THE EFFECTIVE LAGRANGIAN IN THE HIGGS SECTOR BLOCK EFFECTIVE_COUPLINGS X 0.00000000E+00 A1 0.00000000E+00 A2 0.00000000E+00 A3 0.00000000E+00 A4 -0.24740698E-01 A5 0.13145330E+03 A6 -0.11600346E+01 B1 0.00000000E+00 B2 0.00000000E+00 L1 0.12869972E+00 L2 0.25060634E+00 L3 0.84873359E-01 L4 -0.17941751E+00 L5 -0.42260426E-03 L6 0.31561168E-03 L7 -0.55802880E-03 K1 0.39798714E-01 K2 0.39554183E-01 K3 0.57600314E-01 K4 0.00000000E+00 K5 0.00000000E+00 K6 0.46476173E-01 K7 0.00000000E+00 K8 0.00000000E+00 DELMB 0.10964574E+00 XVEV 0.10013499E+04 # # HIGGS + TOP BRANCHING RATIOS IN SLHA FORMAT # Info about decay package BLOCK DCINFO # Program information 1 NMSSMTools # Decay package 2 4.6.0 # Version number # PDG Width DECAY 25 3.98188718E-03 # Lightest neutral Higgs scalar 5.19532786E-02 2 21 21 # BR(H_1 -> gluon gluon) 5.25346299E-09 2 11 -11 # BR(H_1 -> e- e+) 2.24606942E-04 2 13 -13 # BR(H_1 -> muon muon) 6.34507741E-02 2 15 -15 # BR(H_1 -> tau tau) 4.30564595E-04 2 3 -3 # BR(H_1 -> s sbar) 2.68242003E-02 2 4 -4 # BR(H_1 -> c cbar) 5.81321111E-01 2 5 -5 # BR(H_1 -> b bbar) 1.58907880E-01 2 24 -24 # BR(H_1 -> W+ W-) 1.65011297E-02 2 23 23 # BR(H_1 -> Z Z) 2.24592791E-03 2 22 22 # BR(H_1 -> gamma gamma) 1.30501071E-03 2 23 22 # BR(H_1 -> Z gamma) 9.68355110E-02 2 36 36 # BR(H_1 -> A_1 A_1) 3.42456888E-13 2 23 36 # BR(H_1 -> A_1 Z) DECAY 35 8.63183870E-01 # 2nd neutral Higgs scalar 7.85389660E-05 2 21 21 # BR(H_2 -> gluon gluon) 7.38546121E-12 2 11 -11 # BR(H_2 -> e- e+) 3.15759850E-07 2 13 -13 # BR(H_2 -> muon muon) 8.93048218E-05 2 15 -15 # BR(H_2 -> tau tau) 4.65616110E-07 2 3 -3 # BR(H_2 -> s sbar) 1.30311970E-05 2 4 -4 # BR(H_2 -> c cbar) 5.45199148E-04 2 5 -5 # BR(H_2 -> b bbar) 3.40612054E-02 2 6 -6 # BR(H_2 -> t tbar) 9.42314448E-02 2 24 -24 # BR(H_2 -> W+ W-) 4.49177307E-02 2 23 23 # BR(H_2 -> Z Z) 1.99605183E-06 2 22 22 # BR(H_2 -> gamma gamma) 3.17973855E-06 2 23 22 # BR(H_2 -> Z gamma) 5.44105608E-02 2 25 25 # BR(H_2 -> H_1 H_1) 6.41661316E-01 2 36 36 # BR(H_2 -> A_1 A_1) 4.13144228E-09 2 23 36 # BR(H_2 -> A_1 Z) 4.95833375E-03 2 1000022 1000022 # BR(H_2 -> neu_1 neu_1) 1.96769736E-02 2 1000022 1000023 # BR(H_2 -> neu_1 neu_2) 8.25757135E-04 2 1000022 1000025 # BR(H_2 -> neu_1 neu_3) 1.35101766E-05 2 1000022 1000035 # BR(H_2 -> neu_1 neu_4) 1.44557963E-02 2 1000023 1000023 # BR(H_2 -> neu_2 neu_2) 3.55273313E-06 2 1000023 1000025 # BR(H_2 -> neu_2 neu_3) 2.12456261E-02 2 1000025 1000025 # BR(H_2 -> neu_3 neu_3) 6.88061572E-02 2 1000024 -1000024 # BR(H_2 -> cha_1 cha_1bar) DECAY 45 6.46078542E+01 # 3rd neutral Higgs scalar 1.16257361E-05 2 21 21 # BR(H_3 -> gluon gluon) 4.68651951E-09 2 11 -11 # BR(H_3 -> e- e+) 2.00368679E-04 2 13 -13 # BR(H_3 -> muon muon) 5.66737388E-02 2 15 -15 # BR(H_3 -> tau tau) 2.35445065E-04 2 3 -3 # BR(H_3 -> s sbar) 1.90288098E-06 2 4 -4 # BR(H_3 -> c cbar) 2.60581341E-01 2 5 -5 # BR(H_3 -> b bbar) 1.97448437E-03 2 6 -6 # BR(H_3 -> t tbar) 4.90520294E-06 2 24 -24 # BR(H_3 -> W+ W-) 2.44725405E-06 2 23 23 # BR(H_3 -> Z Z) 9.90247784E-09 2 22 22 # BR(H_3 -> gamma gamma) 7.61591971E-08 2 23 22 # BR(H_3 -> Z gamma) 7.17022406E-06 2 25 25 # BR(H_3 -> H_1 H_1) 3.43001242E-03 2 25 35 # BR(H_3 -> H_1 H_2) 6.12525545E-05 2 35 35 # BR(H_3 -> H_2 H_2) 7.48010725E-06 2 36 36 # BR(H_3 -> A_1 A_1) 9.69791682E-05 2 23 36 # BR(H_3 -> A_1 Z) 1.65015069E-02 2 1000022 1000022 # BR(H_3 -> neu_1 neu_1) 1.59307693E-02 2 1000022 1000023 # BR(H_3 -> neu_1 neu_2) 1.94887123E-02 2 1000022 1000025 # BR(H_3 -> neu_1 neu_3) 1.15308549E-02 2 1000022 1000035 # BR(H_3 -> neu_1 neu_4) 3.88060856E-03 2 1000022 1000045 # BR(H_3 -> neu_1 neu_5) 3.79780304E-04 2 1000023 1000023 # BR(H_3 -> neu_2 neu_2) 1.51776582E-09 2 1000023 1000025 # BR(H_3 -> neu_2 neu_3) 3.40819706E-02 2 1000023 1000035 # BR(H_3 -> neu_2 neu_4) 6.94879382E-03 2 1000023 1000045 # BR(H_3 -> neu_2 neu_5) 2.65103780E-03 2 1000025 1000025 # BR(H_3 -> neu_3 neu_3) 6.95528492E-02 2 1000025 1000035 # BR(H_3 -> neu_3 neu_4) 1.44822561E-02 2 1000025 1000045 # BR(H_3 -> neu_3 neu_5) 9.53905812E-03 2 1000035 1000035 # BR(H_3 -> neu_4 neu_4) 5.34000030E-04 2 1000035 1000045 # BR(H_3 -> neu_4 neu_5) 8.09884704E-05 2 1000045 1000045 # BR(H_3 -> neu_5 neu_5) 6.09280874E-02 2 1000024 -1000024 # BR(H_3 -> cha_1 cha_1bar) 1.02078762E-01 2 1000024 -1000037 # BR(H_3 -> cha_1 cha_2bar) 1.02078762E-01 2 1000037 -1000024 # BR(H_3 -> cha_2 cha_1bar) 1.54371849E-02 2 1000037 -1000037 # BR(H_3 -> cha_2 cha_2bar) 4.52743946E-07 2 1000002 -1000002 # BR(H_3 -> ~u_L ~ubar_L) 4.52743946E-07 2 1000004 -1000004 # BR(H_3 -> ~c_L ~cbar_L) 7.99530552E-08 2 2000002 -2000002 # BR(H_3 -> ~u_R ~ubar_R) 7.99530552E-08 2 2000004 -2000004 # BR(H_3 -> ~c_R ~cbar_R) 6.53096947E-07 2 1000001 -1000001 # BR(H_3 -> ~d_L ~dbar_L) 6.53096947E-07 2 1000003 -1000003 # BR(H_3 -> ~s_L ~sbar_L) 1.98942363E-08 2 2000001 -2000001 # BR(H_3 -> ~d_R ~dbar_R) 1.98942363E-08 2 2000003 -2000003 # BR(H_3 -> ~s_R ~sbar_R) 7.78289902E-03 2 1000006 -1000006 # BR(H_3 -> ~t_1 ~tbar_1) 2.43695240E-09 2 1000006 -2000006 # BR(H_3 -> ~t_1 ~tbar_2) 2.43695240E-09 2 2000006 -1000006 # BR(H_3 -> ~t_2 ~tbar_1) 7.38103074E-02 2 1000005 -1000005 # BR(H_3 -> ~b_1 ~bbar_1) 7.08903107E-02 2 2000005 -2000005 # BR(H_3 -> ~b_2 ~bbar_2) 2.49281722E-03 2 1000005 -2000005 # BR(H_3 -> ~b_1 ~bbar_2) 2.49281722E-03 2 2000005 -1000005 # BR(H_3 -> ~b_2 ~bbar_1) 1.09827542E-07 2 1000011 -1000011 # BR(H_3 -> ~e_L ~ebar_L) 1.09827542E-07 2 1000013 -1000013 # BR(H_3 -> ~mu_L ~mubar_L) 7.03260360E-08 2 2000011 -2000011 # BR(H_3 -> ~e_R ~ebar_R) 7.03260360E-08 2 2000013 -2000013 # BR(H_3 -> ~mu_R ~mubarRL) 3.59850103E-07 2 1000012 -1000012 # BR(H_3 -> ~nu_e_L ~nu_ebar_L) 3.59850103E-07 2 1000014 -1000014 # BR(H_3 -> ~nu_mu_L ~nu_mubar_L) 1.66937712E-02 2 1000015 -1000015 # BR(H_3 -> ~tau_1 ~taubar_1) 1.64146811E-02 2 2000015 -2000015 # BR(H_3 -> ~tau_2 ~taubar_2) 1.16553146E-05 2 1000015 -2000015 # BR(H_3 -> ~tau_1 ~taubar_2) 1.16553146E-05 2 2000015 -1000015 # BR(H_3 -> ~tau_2 ~taubar_1) 3.59850103E-07 2 1000016 -1000016 # BR(H_3 -> ~nu_tau_L ~nu_taubar_L) DECAY 36 2.41514892E-08 # Lightest pseudoscalar 8.99839145E-02 2 21 21 # BR(A_1 -> gluon gluon) 8.01899715E-08 2 11 -11 # BR(A_1 -> e- e+) 3.42742760E-03 2 13 -13 # BR(A_1 -> muon muon) 8.83031691E-01 2 15 -15 # BR(A_1 -> tau tau) 1.32786161E-02 2 3 -3 # BR(A_1 -> s sbar) 1.00000621E-02 2 4 -4 # BR(A_1 -> c cbar) 2.78208198E-04 2 22 22 # BR(A_1 -> gamma gamma) DECAY 46 6.47472922E+01 # 2nd pseudoscalar 1.16202761E-05 2 21 21 # BR(A_2 -> gluon gluon) 4.67639417E-09 2 11 -11 # BR(A_2 -> e- e+) 1.99935780E-04 2 13 -13 # BR(A_2 -> muon muon) 5.65514345E-02 2 15 -15 # BR(A_2 -> tau tau) 2.34959322E-04 2 3 -3 # BR(A_2 -> s sbar) 1.88641174E-06 2 4 -4 # BR(A_2 -> c cbar) 2.60105189E-01 2 5 -5 # BR(A_2 -> b bbar) 1.97113935E-03 2 6 -6 # BR(A_2 -> t tbar) 1.39213186E-07 2 22 22 # BR(A_2 -> gamma gamma) 1.60154902E-07 2 23 22 # BR(A_2 -> Z gamma) 1.12382937E-04 2 36 25 # BR(A_2 -> A_1 H_1) 1.36132539E-05 2 36 35 # BR(A_2 -> A_1 H_2) 9.14952902E-07 2 23 25 # BR(A_2 -> Z H_1) 3.29670326E-03 2 23 35 # BR(A_2 -> Z H_2) 1.99598893E-02 2 1000022 1000022 # BR(A_2 -> neu_1 neu_1) 2.23407142E-02 2 1000022 1000023 # BR(A_2 -> neu_1 neu_2) 1.42512749E-02 2 1000022 1000025 # BR(A_2 -> neu_1 neu_3) 1.05041491E-02 2 1000022 1000035 # BR(A_2 -> neu_1 neu_4) 8.03654893E-04 2 1000022 1000045 # BR(A_2 -> neu_1 neu_5) 1.34970561E-03 2 1000023 1000023 # BR(A_2 -> neu_2 neu_2) 1.50832348E-04 2 1000023 1000025 # BR(A_2 -> neu_2 neu_3) 3.51516972E-02 2 1000023 1000035 # BR(A_2 -> neu_2 neu_4) 6.83868339E-03 2 1000023 1000045 # BR(A_2 -> neu_2 neu_5) 3.50826951E-03 2 1000025 1000025 # BR(A_2 -> neu_3 neu_3) 6.05360649E-02 2 1000025 1000035 # BR(A_2 -> neu_3 neu_4) 1.07207514E-02 2 1000025 1000045 # BR(A_2 -> neu_3 neu_5) 1.15888699E-02 2 1000035 1000035 # BR(A_2 -> neu_4 neu_4) 7.34275545E-03 2 1000035 1000045 # BR(A_2 -> neu_4 neu_5) 6.25552440E-05 2 1000045 1000045 # BR(A_2 -> neu_5 neu_5) 6.71735029E-02 2 1000024 -1000024 # BR(A_2 -> cha_1 cha_1bar) 9.53454166E-02 2 1000024 -1000037 # BR(A_2 -> cha_1 cha_2bar) 9.53454166E-02 2 1000037 -1000024 # BR(A_2 -> cha_2 cha_1bar) 2.20245321E-02 2 1000037 -1000037 # BR(A_2 -> cha_2 cha_2bar) 5.07062514E-03 2 1000006 -2000006 # BR(A_2 -> ~t_1 ~tbar_2) 5.07062514E-03 2 2000006 -1000006 # BR(A_2 -> ~t_2 ~tbar_1) 7.46550234E-02 2 1000005 -2000005 # BR(A_2 -> ~b_1 ~bbar_2) 7.46550234E-02 2 2000005 -1000005 # BR(A_2 -> ~b_2 ~bbar_1) 1.65249423E-02 2 1000015 -2000015 # BR(A_2 -> ~tau_1 ~taubar_2) 1.65249423E-02 2 2000015 -1000015 # BR(A_2 -> ~tau_2 ~taubar_1) DECAY 37 6.23542520E+01 # Charged Higgs 2.07728649E-04 2 -13 14 # BR(H+ -> muon nu_muon) 5.87556321E-02 2 -15 16 # BR(H+ -> tau nu_tau) 1.16516330E-05 2 2 -3 # BR(H+ -> u sbar) 2.40748365E-04 2 4 -3 # BR(H+ -> c sbar) 4.26396274E-06 2 2 -5 # BR(H+ -> u bbar) 4.26397516E-04 2 4 -5 # BR(H+ -> c bbar) 2.69102465E-01 2 6 -5 # BR(H+ -> t bbar) 9.52772691E-07 2 24 25 # BR(H+ -> W+ H_1) 3.43402286E-03 2 24 35 # BR(H+ -> W+ H_2) 1.00746912E-04 2 24 36 # BR(H+ -> W+ A_1) 3.47742735E-02 2 1000024 1000022 # BR(H+ -> cha_1 neu_1) 2.28127373E-02 2 1000024 1000023 # BR(H+ -> cha_1 neu_2) 1.84310758E-02 2 1000024 1000025 # BR(H+ -> cha_1 neu_3) 1.21872183E-01 2 1000024 1000035 # BR(H+ -> cha_1 neu_4) 1.94401848E-02 2 1000024 1000045 # BR(H+ -> cha_1 neu_5) 3.29536261E-02 2 1000037 1000022 # BR(H+ -> cha_2 neu_1) 1.25883793E-01 2 1000037 1000023 # BR(H+ -> cha_2 neu_2) 1.18644348E-01 2 1000037 1000025 # BR(H+ -> cha_2 neu_3) 5.65519650E-05 2 1000037 1000035 # BR(H+ -> cha_2 neu_4) 7.96393046E-03 2 1000037 1000045 # BR(H+ -> cha_2 neu_5) 1.13406684E-06 2 1000002 -1000001 # BR(H+ -> ~u_L ~dbar_L) 1.13406684E-06 2 1000004 -1000003 # BR(H+ -> ~c_L ~sbar_L) 3.43798880E-02 2 1000006 -1000005 # BR(H+ -> ~t_1 ~bbar_1) 6.81331646E-02 2 1000006 -2000005 # BR(H+ -> ~t_1 ~bbar_2) 2.35733602E-02 2 2000006 -1000005 # BR(H+ -> ~t_2 ~bbar_1) 4.22986563E-03 2 2000006 -2000005 # BR(H+ -> ~t_2 ~bbar_2) 4.46951028E-07 2 1000012 -1000011 # BR(H+ -> ~nu_e_L ~ebar_L) 4.46951028E-07 2 1000014 -1000013 # BR(H+ -> ~nu_mu_L ~mubar_L) 1.77315496E-02 2 1000016 -1000015 # BR(H+ -> ~nu_tau_L ~taubar_1) 1.68316969E-02 2 1000016 -2000015 # BR(H+ -> ~nu_tau_L ~taubar_2) DECAY 6 1.36376206E+00 # Top Quark 1.00000000E+00 2 5 24 # BR(t -> b W+)