! WHIZARD version 1.95 (Feb 25 2010) ! Process library generated: ! Tue Jul 31 22:11:18 JST 2012 by miyamoto on ! GNU Fortran (GCC) 4.4.0 20090414 (prerelease) ! Floating-point numerics in @ precision ! Matrix elements compiled in the WHIZARD executable: ! Model: SM_CKM ! Tag Method Options Process ! ffh_o | omega | | e-,e+ -> u:d:s:c:b:e-:mu-:tau-:nue:numu:nutau,ubar:dbar:sbar:cbar:bbar:e+:mu+:tau+:nuebar:numubar:nutaubar,H ! uuh_o | omega | | e-,e+ -> u,ubar,H ! ddh_o | omega | | e-,e+ -> d,dbar,H ! ssh_o | omega | | e-,e+ -> s,sbar,H ! cch_o | omega | | e-,e+ -> c,cbar,H ! bbh_o | omega | | e-,e+ -> b,bbar,H ! qqh_o | omega | | e-,e+ -> u:d:s:c:b,ubar:dbar:sbar:cbar:bbar,H ! e1e1h_o | omega | | e-,e+ -> e-,e+,H ! e2e2h_o | omega | | e-,e+ -> mu-,mu+,H ! e3e3h_o | omega | | e-,e+ -> tau-,tau+,H ! n1n1h_o | omega | | e-,e+ -> nue,nuebar,H ! n2n2h_o | omega | | e-,e+ -> numu,numubar,H ! n3n3h_o | omega | | e-,e+ -> nutau,nutaubar,H ! llh_o | omega | | e-,e+ -> e-:mu-:tau-,e+:mu+:tau+,H ! nnh_o | omega | | e-,e+ -> nue:numu:nutau,nuebar:numubar:nutaubar,H ! End of process list !============================================================================= ! Summary (all processes): !----------------------------------------------------------------------------- ! Process ID Integral[fb] Error[fb] Err[%] Frac[%] !----------------------------------------------------------------------------- e1e1h_o 7.4608823E+00 7.75E-03 0.10 100.00 !----------------------------------------------------------------------------- sum 7.4608823E+00 7.75E-03 0.10 100.00 !============================================================================= ! For the process-specific logs, consult the file(s) whizard.XXX.out ! Input data, including default values: &process_input process_id = "e1e1h_o" luminosity = 1.0000 polarized_beams = T structured_beams = T beam_recoil = T recoil_conserve_momentum = F filename = "whizard" directory = "" input_file = "" input_slha_format = F cm_frame = T sqrts = 500.00 / &integration_input calls = 1 100000 10 100000 1 500000 seed = 512345 reset_seed_each_process = F accuracy_goal = 0.0000 efficiency_goal = 100.00 time_limit_adaptation = 10000 stratified = T use_efficiency = F weights_power = .25000 min_bins = 3 max_bins = 20 min_calls_per_bin = 10 min_calls_per_channel = 0 write_grids = T write_grids_raw = F write_all_grids_file = "" write_all_grids = F write_grids_file = "" read_grids = T read_grids_raw = F read_grids_force = T read_grids_file = "" generate_phase_space = T read_model_file = "" write_phase_space_channels_file = "" write_phase_space_file = "" read_phase_space = T read_phase_space_file = "" phase_space_only = F use_equivalences = T azimuthal_dependence = F off_shell_lines = 1 extra_off_shell_lines = 1 splitting_depth = 1 exchange_lines = 3 show_deleted_channels = F single_off_shell_decays = T double_off_shell_decays = F single_off_shell_branchings = T double_off_shell_branchings = T massive_fsr = T threshold_mass = -10.000000000000000 threshold_mass_t = -10.000000000000000 default_jet_cut = 10.000000000000000 default_mass_cut = 10.000000000000000 default_energy_cut = 10.000000000000000 default_q_cut = 10.000000000000000 write_default_cuts_file = "" read_cuts_file = "" user_cut_mode = 0 user_weight_mode = 0 handle_negative_weight = 4 / &simulation_input n_events = 20000 n_calls = 0 n_events_warmup = 0 unweighted = T normalize_weight = T write_weights = F write_weights_file = "" safety_factor = 1.0000 write_events_raw = F write_events_raw_file = "" write_events = T write_events_format = 20 write_events_file = "E500-TDR_ws.Pe1e1h_mumu.Gwhizard-1_95.eR.pL.I108167" events_per_file = 0 bytes_per_file = 500000000 min_file_count = 1 max_file_count = 5 read_events_raw = F read_events_raw_file = "" read_events = F read_events_force = T keep_beam_remnants = T keep_initials = F guess_color_flow = F recalculate = F shower = F shower_nf = 5 shower_running_alpha_s = F shower_alpha_s = 0.20000000000000001 shower_lambda = 0.28999999999999998 shower_t_min = 1.0000000000000000 shower_md = 0.33000000000000002 shower_mu = 0.33000000000000002 shower_ms = 0.50000000000000000 shower_mc = 1.5000000000000000 shower_mb = 4.7999999999999998 fragment = T fragmentation_method = 3 user_fragmentation_mode = 0 pythia_processes = "" pythia_parameters = "PMAS(25,1)=125.0; PMAS(25,2)=0.0043; MSTJ(41)=2; MSTU(22)=20; MSTJ(28)=2; PARJ(21)=0.40000; PARJ(41)=0.11000; PARJ(42)=0.52000; PARJ(81)=0.25000; PARJ(82)=1.90000; MSTJ(11)=3; PARJ(54)=-0.03100; PARJ(55)=-0.00200; PARJ(1)=0.08500; PARJ(3)=0.45000; PARJ(4)=0.02500; PARJ(2)=0.31000; PARJ(11)=0.60000; PARJ(12)=0.40000; PARJ(13)=0.72000; PARJ(14)=0.43000; PARJ(15)=0.08000; PARJ(16)=0.08000; PARJ(17)=0.17000; MSTP(3)=1; MDME(210,1)=0;MDME(211,1)=0;MDME(212,1)=0;MDME(213,1)=0;MDME(214,1)=0;MDME(215,1)=0;MDME(218,1)=0; MDME(219,1)=1;MDME(220,1)=0;MDME(222,1)=0;MDME(223,1)=0;MDME(224,1)=0;MDME(225,1)=0;MDME(226,1)=0; MWID(25)=2; BRAT(212)=0.00044;BRAT(213)=0.0268;BRAT(214)=0.578;BRAT(219)=0.000221; BRAT(220)=0.0637;BRAT(222)=0.0856;BRAT(223)=0.0023;BRAT(224)=0.00155; BRAT(225)=0.0267;BRAT(226)=0.216" / &diagnostics_input chattiness = 5 catch_signals = T time_limit = 177 warn_empty_channel = F screen_events = F screen_histograms = T screen_diagnostics = F show_pythia_banner = T show_pythia_initialization = T show_pythia_statistics = T write_logfile = T plot_history = T write_logfile_file = "" show_input = T show_results = T show_phase_space = F show_cuts = T show_histories = T show_history = T show_weights = T show_event = F show_histograms = T show_overflow = F show_excess = T read_analysis_file = "" plot_width = 130 plot_height = 90 plot_histograms = T plot_curves = F plot_symbols = F plot_smoothly = F plot_errors = F plot_excess = T plot_per_bin = F plot_grids_channels = "" plot_grids_logscale = 10.000000000000000 slha_rewrite_input = T slha_ignore_errors = F / ¶meter_input gwidth = F rwidth = F GF = 1.16639000000000003E-005 mZ = 91.188199999999995 mW = 80.418999999999997 mH = 125.00000000000000 alphas = 0.11780000000000000 me = 0.0000000000000000 mmu = 0.0000000000000000 mtau = 1.7769999999999999 ms = 0.0000000000000000 mc = 0.0000000000000000 mb = 0.0000000000000000 mtop = 174.00000000000000 wtop = 1.5229999999999999 wZ = 2.4430000000000001 wW = 2.0489999999999999 wH = 4.30000000000000000E-003 vckm11 = 0.97382999999999997 vckm12 = 0.22720000000000001 vckm13 = 3.95999999999999998E-003 vckm21 = -0.22710000000000000 vckm22 = 0.97296000000000005 vckm23 = 4.22099999999999975E-002 vckm31 = 8.13999999999999967E-003 vckm32 = -4.16100000000000012E-002 vckm33 = 0.99909999999999999 khgaz = 1.0000000000000000 khgaga = 1.0000000000000000 khgg = 1.0000000000000000 v = 246.21845810181634 cw = 0.88190138636358650 sw = 0.47143392403388212 ee = 0.30795615429614365 ez = 0.74070969904532358 ey = 0.16462268967378635 aQED = 7.54688789947222105E-003 aQEDi = 132.50494949977107 sw2 = 0.22224994472998413 / &beam_input particle_name = e1 particle_code = 0 energy = 0.0000000000000000 angle = 0.0000000000000000 direction = 0.0000000000000000 0.0000000000000000 0.0000000000000000 vector_polarization = F polarization = 0.0000000000000000 1.0000000000000000 0.0000000000000000 0.0000000000000000 0.0000000000000000 FILE_events_on = F FILE_events_file = "" FILE_events_energies = T USER_spectrum_on = T USER_spectrum_sqrts = 0.0000000000000000 USER_spectrum_mode = 21 SCAN_spectrum_on = F SCAN_spectrum_E0 = 0.0000000000000000 SCAN_spectrum_E1 = 0.0000000000000000 CIRCE_on = F CIRCE_generate = T CIRCE_map = T CIRCE_sqrts = 0.0000000000000000 CIRCE_ver = 0 CIRCE_rev = 0 CIRCE_acc = 0 CIRCE_chat = 0 CIRCE2_on = F CIRCE2_generate = T CIRCE2_verbose = T CIRCE2_file = "" CIRCE2_design = "*" CIRCE2_polarized = T CIRCE2_map = -2 CIRCE2_power = 2.0000000000000000 ISR_on = T ISR_alpha = 7.29929999999999989E-003 ISR_m_in = 5.10999999999999953E-004 ISR_Q_max = 0.0000000000000000 ISR_LLA_order = 3 ISR_map = T EPA_on = F EPA_map = T EPA_alpha = 7.29929999999999989E-003 EPA_m_in = 5.10999999999999953E-004 EPA_mX = 4.0000000000000000 EPA_Q_max = 4.0000000000000000 EPA_x0 = 0.0000000000000000 EPA_x1 = 0.0000000000000000 PDF_on = F PDF_ngroup = 0 PDF_nset = 0 PDF_nfl = 0 PDF_lo = 0 PDF_running_scale = F PDF_scale = 0.0000000000000000 PDF_QCDL4 = 0.0000000000000000 PDF_power = 2.0000000000000000 LHAPDF_on = F LHAPDF_file = "" LHAPDF_set = 0 EWA_on = F EWA_map = T EWA_pT_max = 0.0000000000000000 EWA_x0 = 0.0000000000000000 EWA_x1 = 0.0000000000000000 USER_strfun_on = F USER_strfun_sqrts = 0.0000000000000000 USER_strfun_mode = 0 / &beam_input particle_name = E1 particle_code = 0 energy = 0.0000000000000000 angle = 0.0000000000000000 direction = 0.0000000000000000 0.0000000000000000 0.0000000000000000 vector_polarization = F polarization = 1.0000000000000000 0.0000000000000000 0.0000000000000000 0.0000000000000000 0.0000000000000000 FILE_events_on = F FILE_events_file = "" FILE_events_energies = T USER_spectrum_on = T USER_spectrum_sqrts = 0.0000000000000000 USER_spectrum_mode = -21 SCAN_spectrum_on = F SCAN_spectrum_E0 = 0.0000000000000000 SCAN_spectrum_E1 = 0.0000000000000000 CIRCE_on = F CIRCE_generate = T CIRCE_map = T CIRCE_sqrts = 0.0000000000000000 CIRCE_ver = 0 CIRCE_rev = 0 CIRCE_acc = 0 CIRCE_chat = 0 CIRCE2_on = F CIRCE2_generate = T CIRCE2_verbose = T CIRCE2_file = "" CIRCE2_design = "*" CIRCE2_polarized = T CIRCE2_map = -2 CIRCE2_power = 2.0000000000000000 ISR_on = T ISR_alpha = 7.29929999999999989E-003 ISR_m_in = 5.10999999999999953E-004 ISR_Q_max = 0.0000000000000000 ISR_LLA_order = 3 ISR_map = T EPA_on = F EPA_map = T EPA_alpha = 7.29929999999999989E-003 EPA_m_in = 5.10999999999999953E-004 EPA_mX = 4.0000000000000000 EPA_Q_max = 4.0000000000000000 EPA_x0 = 0.0000000000000000 EPA_x1 = 0.0000000000000000 PDF_on = F PDF_ngroup = 0 PDF_nset = 0 PDF_nfl = 0 PDF_lo = 0 PDF_running_scale = F PDF_scale = 0.0000000000000000 PDF_QCDL4 = 0.0000000000000000 PDF_power = 2.0000000000000000 LHAPDF_on = F LHAPDF_file = "" LHAPDF_set = 0 EWA_on = F EWA_map = T EWA_pT_max = 0.0000000000000000 EWA_x0 = 0.0000000000000000 EWA_x1 = 0.0000000000000000 USER_strfun_on = F USER_strfun_sqrts = 0.0000000000000000 USER_strfun_mode = 0 /