# Example NMSSM input in SLHA2 format Block MODSEL # Select model 6 0 # flavour violation 1 1 # mSUGRA 3 1 # NMSSM Block SMINPUTS # Standard Model inputs 1 1.279180000e+02 # alpha^(-1) SM MSbar(MZ) 2 1.166390000e-05 # G_Fermi 3 1.181000000e-01 # alpha_s(MZ) SM MSbar 4 9.118760000e+01 # MZ(pole) 5 4.200000000e+00 # mb(mb) SM MSbar 6 1.709000000e+02 # mtop(pole) 7 1.777000000e+00 # mtau(pole) Block MINPAR # Input parameters 1 4.000000000e+02 # m_0 2 3.500000000e+02 # m_12 3 1.000000000e+01 # tanb 4 1.000000000e+00 # sign(mu) 5 -3.000000000e+02 # A_0 Block SOFTSUSY # SOFTSUSY specific inputs 0 1.000000000e+00 # Calculate decays in output (only for RPC (N)MSSM) 1 1.000000000e-04 # tolerance 2 2.000000000e+00 # up-quark mixing (=1) or down (=2) 5 1.000000000E+00 # 2-loop running 3 0.000000000E+00 # printout 15 1.000000000E+00 # NMSSMTools compatible output (default: 0) 16 0.000000000E+00 # Call micrOmegas (default: 0 = no, # 1 = relic density only, # 2 = direct detection + relic density, # 3 = indirect detection + relic density, # 4 = all) 17 0.000000000E+00 # Sparticle decays via NMSDECAY (default: 0) 18 0.000000000E+00 # use soft Higgs masses as EWSB output # 19 1.000000000e+00 # Include 3-loop SUSY RGEs # 20 1.000000000e+00 # Include 2-loop gauge/Yukawa thresholds # 22 1.000000000e+00 # Include 2-loop sparticle mass thresholds 24 1.000000000e-06 # If decay BR is below this number, don't output 25 1.000000000e+00 # If set to 0, don't calculate 3-body decays (1=default) Block VCKMIN # input parameters for CKM matrix 1 2.272000000e-01 # lambda 2 8.180000000e-01 # A 3 2.210000000e-01 # rhobar 4 3.400000000e-01 # etabar Block EXTPAR # Input parameters # 21 0 # mHd^2 # 22 0 # mHu^2 # 23 0 # mu # 24 0 # m_3^2 / (cos(beta) * sin(beta)) 61 0.1 # lambda 62 0.1 # kappa # 63 1000 # A_lambda # 64 1000 # A_kappa 65 200 # lambda * 66 100 # xi_F # 67 0 # xi_S # 68 0 # mu' # 69 0 # m'_S^2 # 70 1000 # m_S^2 Block QEXTPAR # 61 -1 # input lambda at Msusy # 62 -1 # input kappa at Msusy 65 -1 # input lambda * at Msusy # 66 -1 # input xi_F at Msusy # 68 -1 # input mu' at Msusy