Block SUSHI 1 3 # model: 0 = SM, 1 = MSSM, 2 = 2HDM, 3 = NMSSM 2 12 # 11,12,13 = H1,H2,H3, 21,22=A1,A2 3 0 # collider: 0 = p-p, 1 = p-pbar 4 13.00000000e+03 # center-of-mass energy in GeV 5 2 # order ggh: -1 = off, 0 = LO, 1 = NLO, 2 = NNLO 6 2 # order bbh: -1 = off, 0 = LO, 1 = NLO, 2 = NNLO 7 1 # electroweak cont. for ggh: # 0 = no, 1 = light quarks at NLO, 2 = SM EW factor 19 1 # 0 = silent mode of SusHi, 1 = normal output 20 0 # ggh@nnlo subprocesses: 0=all, 10=ind. contributions BLOCK SMINPUTS 1 1.27920000E+02 # ALPHA_EM^-1(MZ) 2 1.16639000E-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) 8 1.27500000e+00 # m_c(m_c) BLOCK MINPAR 3 2.26630000E+00 # TANBETA(MZ) Block EXTPAR # SUSY parameters 3 2.22160305E+03 # ~g 11 -1.63020355E+03 # A_t 12 -3.37600064E+03 # A_b 43 1.71042999E+03 # M_Q3 46 1.04585116E+03 # M_TR 49 2.06425955E+03 # M_BR 61 6.43790000E-01 # LAMBDA AT THE SUSY SCALE 65 1.78640000E+02 # MUEFF AT THE SUSY SCALE BLOCK MASS # Mass spectrum 25 1.25860016E+02 # lightest neutral scalar 35 2.00983472E+02 # second neutral scalar 45 4.48108503E+02 # third neutral scalar 36 6.51970110E+01 # lightest pseudoscalar 46 4.39893764E+02 # second pseudoscalar BLOCK NMHMIX 1 1 4.34332356E-01 # S_(1,1) 1 2 8.95182258E-01 # S_(1,2) 1 3 1.00020646E-01 # S_(1,3) 2 1 1.69878630E-01 # S_(2,1) 2 2 -1.90455428E-01 # S_(2,2) 2 3 9.66885713E-01 # S_(2,3) 3 1 8.84588410E-01 # S_(3,1) 3 2 -4.02958379E-01 # S_(3,2) 3 3 -2.34793290E-01 # S_(3,3) BLOCK NMAMIX 2 1 -6.29474288E-02 # P_(1,1) 2 2 -2.77754175E-02 # P_(1,2) 2 3 9.97630198E-01 # P_(1,3) 3 1 9.12723362E-01 # P_(2,1) 3 2 4.02737220E-01 # P_(2,2) 3 3 6.88039893E-02 # P_(2,3) Block SCALES 1 0.50000000e+00 # renormalization scale muR/mh 2 0.50000000e+00 # factorization scale muF/mh 11 1.00000000e+00 # renormalization scale muR/mh for bbh 12 0.25000000e+00 # factorization scale muF/mh for bbh 3 0 # 1 = Use (muR,muF)/Sqrt(mh^2+pt^2) for dsigma/dpt and d^2sigma/dy/dpt Block DISTRIB 1 0 # distribution : 0 = sigma_total, 1 = dsigma/dpt, # 2 = dsigma/dy, 3 = d^2sigma/dy/dpt # (values for pt and y: 22 and 32) 2 0 # pt-cut: 0 = no, 1 = pt > ptmin, 2 = pt < ptmax, # 3 = ptmin < pt < ptmax 21 0.30000000e+02 # minimal pt-value ptmin in GeV 22 1.00000000e+02 # maximal pt-value ptmax in GeV 3 0 # rapidity-cut: 0 = no, 1 = Abs[y] < ymax, # 2 = Abs[y] > ymin, 3 = ymin < Abs[y] < ymax 31 0.50000000e+00 # minimal rapidity ymin 32 1.50000000e+00 # maximal rapidity ymax 4 0 # 0 = rapidity, 1 = pseudorapidity Block RENORMBOT # Renormalization of the bottom sector 1 1 # m_b used for bottom Yukawa: 0 = OS, 1 = MSbar(m_b), 2 = MSbar(muR) 2 1 # tan(beta)-res. of Y_b: 0 = no, 1 = naive, 2 = full (for OS only) 4 4.75d0 # Fixed value of m_b^OS Block RENORMSBOT # Renormalization of the sbottom sector 1 2 # m_b: 0 = OS, 1 = DRbar, 2 = dep; recommended: 2 2 0 # A_b: 0 = OS, 1 = DRbar, 2 = dep; recommended: 0 3 0 # theta_b: 0 = OS, 1 = DRbar ; recommended: 0 Block PDFSPEC 1 MSTW2008lo68cl.LHgrid # name of pdf (lo) 2 MSTW2008nlo68cl.LHgrid # name of pdf (nlo) 3 MSTW2008nnlo68cl.LHgrid # name of pdf (nnlo) 4 0 # set number - if different for LO, NLO, NNLO use entries 11, 12, 13 Block VEGAS # parameters for NLO SusHi 1 10000 # Number of points 2 5 # Number of iterations 3 10 # Output format of VEGAS integration # parameters for ggh@nnlo: 4 2000 # Number of points 5 5 # Number of iterations 14 5000 # Number of points in second run 15 2 # Number of iterations in second run 6 0 # Output format of VEGAS integration # parameters for bbh@nnlo: 7 2000 # Number of points 8 5 # Number of iterations 17 5000 # Number of points in second run 18 2 # Number of iterations in second run 9 0 # Output format of VEGAS integration Block FACTORS 1 0.00000000e+00 # factor for yukawa-couplings: c 2 1.00000000e+00 # t 3 1.00000000e+00 # b 4 1.00000000e+00 # st 5 1.00000000e+00 # sb