#--------------------------------------------------# # SusHi: (Supersymmetric) Higgs production through # # __ __ gluon fusion and bottom-quark # # [_ | | [_ |_| | annihilation # # __] |_| __] | | | # # Version 1.7.0 March 2019 # #--------------------------------------------------# # Date: 27.02.2019 at 17:30:51 # # For the reconstructed input file, check below. # #--------------------------------------------------# # Please cite the following papers (for this run): # Harlander:2012pb # Harlander:2016hcx # Harlander:2002wh # Harlander:2003ai # Aglietti:2004nj # Bonciani:2010ms # Degrassi:2010eu # Degrassi:2011vq # Degrassi:2012vt # Heinemeyer:1998yj # Heinemeyer:1998np # Degrassi:2002fi # Frank:2006yh # Harlander:2005rq # Chetyrkin:2000yt #--------------------------------------------------# Block SUSHIinfo 1 1.7.0 # SusHi version 2 2.14.3 # FeynHiggs version Block SUSHIggh # Bon appetit 1 1.28517232E-02 # ggh XS in pb 101 7.65723262E-06 # +/- integ. error: ggh XS in pb 102 -5.23709184E-04 # - from muR variation: ggh XS in pb 103 1.45000437E-05 # + from muR variation: ggh XS in pb # within [ 0.50000000E+00, 0.20000000E+01]*SCALES(1)*MASSOUT(1). Block SUSHIbbh # Bon appetit 1 2.07567252E-01 # bbh XS in pb 101 3.33776490E-05 # +/- integr. error: bbh XS in pb Block XSGGH # ggh xsec in pb (w/o EW) (+/- integ.err.) 1 1.07802532E-02 # LO w/ NLO PDFs 2 1.18170968E-02 # NLO 21 1.42256097E-02 # NLO gg 22 -2.40877332E-03 # NLO qg 23 2.60394509E-07 # NLO qq 101 6.01875966E-09 # +/-: LO w/ NLO PDFs 102 7.18556320E-06 # +/-: NLO 121 5.40168365E-06 # +/-: NLO gg 122 4.73857912E-06 # +/-: NLO qg 123 4.06928005E-10 # +/-: NLO qq Block XSGGHEFF # ggh xsec in heavy top limit (from ggh@nnlo) (+/- integ.err.) 1 7.40772874E-03 # NLO 101 1.11131118E-06 # +/-: NLO 19 7.33991827E-03 # NLO' 191 1.09131728E-06 # +/-: NLO' 2 8.44184904E-03 # NNLO 102 2.40030358E-06 # +/-: NNLO 4 4.28308967E-05 # electroweak factor Block XSBBH # bbh xsec in pb (+/- integ.err.) 1 1.98303018E-01 # LO 101 1.31412158E-06 # +/-: LO 2 1.97375305E-01 # NLO 102 1.11135537E-06 # +/-: NLO 3 2.07567252E-01 # NNLO 103 3.33776490E-05 # +/-: NNLO Block HGGSUSY # couplings of 2. CP-even H to 3. gen. 101 -6.58776320E-02 # Re(g_t^phi) 1010 2.23534724E-03 # Im(g_t^phi) 111 6.82983338E+00 # Re(g_st11^phi) 122 -7.05630544E+00 # Re(g_st22^phi) 112 -4.50918252E-03 # Re(g_st12^phi) 121 -4.50918252E-03 # Re(g_st21^phi) 201 1.51324472E+01 # Re(g_b^phi) 2010 -1.42814538E-02 # Im(g_b^phi) 211 2.37969978E+04 # Re(g_sb11^phi) 222 -2.40897148E+04 # Re(g_sb22^phi) 212 -7.59373866E+03 # Re(g_sb12^phi) 221 -7.59373866E+03 # Re(g_sb21^phi) Block BBHREWEIGHT # top and bottom reweightingfactors (effective mixing angle) 1 -7.11398999E-02 # g_t 2 1.29676548E+01 # g_b incl. 1/(1+Delta_b)*(1+C*Delta_b) Block MASSOUT 1 5.99909775E+02 # Mphi in GeV 5 4.18000000E+00 # m_b(m_b), MSbar 6 1.72500000E+02 # m_t(pole) 23 9.11876000E+01 # m_Z 24 8.03980311E+01 # m_W 35 5.99909775E+02 # 2. CP-even Higgs mass in GeV 1000005 1.49499478E+03 # sbottom1 mass in GeV 2000005 1.50998280E+03 # sbottom2 mass in GeV 1000006 1.33966232E+03 # stop1 mass in GeV 2000006 1.66153440E+03 # stop2 mass in GeV 1000021 2.50000000E+03 # gluino mass in GeV Block ALPHA # eff. Higgs mixing angle from FH -7.10420792E-02 # alpha Block REALHMNMIX # Z matrix from FH*tree-level alpha 1 1 7.15374334E-02 # Mixing matrix 1 2 1.00625937E+00 # Mixing matrix 2 1 1.00659541E+00 # Mixing matrix 2 2 -6.57317234E-02 # Mixing matrix Block COMPHMNMIX # Z matrix from FH*tree-level alpha 1 1 5.57525769E-06 # Mixing matrix 1 2 -6.86185552E-06 # Mixing matrix 2 1 -9.49988174E-04 # Mixing matrix 2 2 2.23039629E-03 # Mixing matrix Block STOPMIXOUT # stop mixing matrix 1 1 7.07719266E-01 # V_11 1 2 -7.06493766E-01 # V_12 2 1 7.06493766E-01 # V_21 2 2 7.07719266E-01 # V_22 Block SBOTMIXOUT # sbottom mixing matrix 1 1 5.88632628E-01 # V_11 1 2 8.08400661E-01 # V_12 2 1 -8.08400661E-01 # V_21 2 2 5.88632628E-01 # V_22 Block AD 3 3 2.86666667E+03 # used Ab in GeV - def. accord. to scheme Block AU 3 3 2.86666667E+03 # used At in GeV Block INTERNALMASSES # Masses in GeV 50 4.18000000E+00 # m_b(m_b), MSbar 51 2.60868252E+00 # m_b(mu_R) MSbar 52 4.92097399E+00 # m_b(pole) 53 4.92097399E+00 # m_b used for internal masses 54 4.25554464E+00 # m_b for bottom Yukawa 2 55 1.76634880E+00 # m_b for sbottom sector Block ALPHASOUT # values from LHAPDF set 2 1.00094089E-01 # alpha_s(muRggh) @ NLO 11 9.19739636E-02 # alpha_s(muRbbh) 3 1.00068501E-01 # alpha_s(muRggh) @ NNLO 101 1.18002305E-01 # alpha_s(Mz) @ LO 102 1.18002305E-01 # alpha_s(Mz) @ NLO 103 1.18002305E-01 # alpha_s(Mz) @ NNLO #--------------------------------------------------# # Reconstructed input file of this run # #--------------------------------------------------# Block SUSHI 1 1 # Chosen model: 0=SM, 1=MSSM, 2=2HDM, 3=NMSSM 2 12 # 11=h, 12=H, 21=A 3 0 # Particle collider: 0=pp, 1=ppbar 4 1.30000000E+04 # center-of-mass energy in GeV 5 2 # Order for ggh 6 2 # Order for bbh 7 1 # Electroweak contributions to ggh 11 1 # [1/0] do/not expand C1 perturbatively 19 1 # 0 = silent mode of SusHi, 1 = normal output 20 0 # ggh@nnlo subprocesses: 0=all, 10=ind. contributions 21 0 # bbh@nnlo subprocesses: 0=all Block GGHMT -1 3 # factor out exact LO result at LO(=0)/NLO(=1)/etc. 0 -1 # expand through 1/mt^n at LO [-1=exact] 1 0 # expand through 1/mt^n at NLO 11 0 # expand gg through 1/mt^n at NLO 12 0 # expand qg through 1/mt^n at NLO 13 0 # expand qqbar through 1/mt^n at NLO 2 0 # expand through 1/mt^n at NNLO 21 0 # expand gg through 1/mt^n at NNLO 22 0 # expand qg through 1/mt^n at NNLO 23 0 # expand qqbar through 1/mt^n at NNLO 24 0 # expand qq through 1/mt^n at NNLO 25 0 # expand qqprime through 1/mt^n at NNLO 10 0 # [0/1]: do not/match to high energy limit at NLO 20 0 # [0/1]: do not/match to high energy limit at NNLO 30 0 # [0/1]: do not/match to high energy limit at N3LO Block GGHSOFT # parameters for soft expansion 1 0 0 0 # NLO: [0/1=n/y] [order] sig(x)/x^[n] 2 0 0 0 # NNLO: [0/1=n/y] [order] sig(x)/x^[n] Block SMINPUTS 1 1.27670000E+02 # 1/alpha_em(MZ) SM MSbar 2 1.16637000E-05 # G_F 3 1.18000000E-01 # alpha_s(m_Z) 4 9.11876000E+01 # m_Z(pole) 5 4.18000000E+00 # m_b(m_b) 6 1.72500000E+02 # m_t(pole) Block MINPAR 3 1.50000000E+01 # tan(beta) Block EXTPAR 3 2.50000000E+03 # Gluino mass 11 2.86666667E+03 # A_t 12 2.86666667E+03 # A_b 23 1.00000000E+03 # mu 26 6.00000000E+02 # mA 43 1.50000000E+03 # M3SQ 46 1.50000000E+03 # M3SU 49 1.50000000E+03 # M3SD Block FEYNHIGGSFLAGS 1 4 # mssmpart 2 0 # fieldren 3 0 # tanbren 4 2 # higgsmix 5 4 # p2approx 6 2 # looplevel 7 1 # runningMT 8 1 # botResum 9 0 # tlCplxApprox 10 3 # loglevel 11 1 # Z Higgs rather than eff. mixing angle Block FEYNHIGGS 1 1.80000000E+02 # M1 2 3.00000000E+02 # M2 13 8.00000000E+02 # A_tau 14 0.00000000E+00 # A_c 15 0.00000000E+00 # A_s 16 0.00000000E+00 # A_mu 17 0.00000000E+00 # A_u 18 0.00000000E+00 # A_d 19 0.00000000E+00 # A_e 31 2.00000000E+03 # M1SL 32 2.00000000E+03 # M2SL 33 3.50000000E+02 # M3SL 34 2.00000000E+03 # M1SE 35 2.00000000E+03 # M2SE 36 3.50000000E+02 # M3SE 41 2.00000000E+03 # M1SQ 42 2.00000000E+03 # M2SQ 44 2.00000000E+03 # M1SU 45 2.00000000E+03 # M2SU 47 2.00000000E+03 # M1SD 48 2.00000000E+03 # M2SD Block DISTRIB 1 0 # total XS Block SCALES 1 5.00000000E-01 # Renormalization scale muR/mh 2 5.00000000E-01 # Factorization scale muF/mh 101 5.00E-01 2.00E+00 # min and max for muR scale uncertainty around SCALES(1) 102 1.00E-01 1.00E+01 100 # min/max/steps for table output of muR variation 11 1.00000000E+00 # Renormalization scale muR/mh for bbh 12 2.50000000E-01 # Factorization scale muF/mh for bbh Block RENORMBOT 1 0 # mb used for bottom Yukawa 2 2 # Resummation of sbottom effects 3 1 # Delta_b from FeynHiggs Block RENORMSBOT 1 2 # Renormalization of m_b 2 0 # Renormalization of A_b 3 0 # Renormalization of theta_b Block PDFSPEC 1 PDF4LHC15_nlo_mc.LHgrid # LO PDF set 11 0 # LO PDF set number 2 PDF4LHC15_nlo_mc.LHgrid # NLO PDF set 12 0 # NLO PDF set number 3 PDF4LHC15_nnlo_mc.LHgrid # NNLO PDF set 13 0 # NNLO PDF set number 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 multiplied with Yukawa of c quark 2 1.00000000E+00 # t quark 3 1.00000000E+00 # b quark 4 1.00000000E+00 # top squark 5 1.00000000E+00 # bottom squark #--------------------------------------------------# # End of SusHi output # #--------------------------------------------------#