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| 39 | | WwwwwwwwwWWW | |
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| 40 | | | |
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| 41 | | | |
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| 42 | | | |
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| 43 | | by: Wolfgang Kilian <kilian@hep.physik.uni-siegen.de> | |
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| 44 | | Thorsten Ohl <ohl@physik.uni-wuerzburg.de> | |
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| 45 | | Juergen Reuter <juergen.reuter@desy.de> | |
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| 46 | | Christian Speckner <christian.speckner@physik.uni-freiburg.de> | |
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| 47 | | | |
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| 48 | | if you use WHIZARD please cite: | |
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| 49 | | W. Kilian, T. Ohl, J. Reuter, arXiv: 0708.4233 [hep-ph] | |
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| 50 | | M. Moretti, T. Ohl, J. Reuter, arXiv: hep-ph/0102195 | |
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| 51 | | | |
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| 52 | |=============================================================================| |
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| 53 | | WHIZARD 2.0.5 |
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| 54 | |=============================================================================| |
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| 55 | | Initializing process library 'processes' |
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| 56 | | Reading model file '/afs/desy.de/group/theorie/software/share/whizard/models/SM.mdl' |
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| 57 | | Using model: SM |
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| 58 | | Reading commands from file 'W-endpoint.sin' |
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| 59 | [user variable] parton = PDG(2, -2, 1, -1, 21) |
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| 60 | [user variable] jet = PDG(2, -2, 1, -1, 21) |
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| 61 | [user variable] lepton = PDG(11, 13) |
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| 62 | [user variable] neutrino = PDG(12, -12, 14, -14) |
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| 63 | | Process 'enj': ignoring existing source code |
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| 64 | | Added process to library 'processes': |
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| 65 | | [O] enj = u:ubar:d:dbar:gl, u:ubar:d:dbar:gl => e-:mu-, nue:nuebar:numu:numubar, u:ubar:d:dbar:gl |
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| 66 | | Generating code for process library 'processes' |
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| 67 | | Calling O'Mega for process 'enj' |
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| 68 | | command: /afs/desy.de/group/theorie/software/bin/omega_SM.opt -o enj.f90 -target:whizard -target:parameter_module parameters_SM -target:module enj -target:md5sum 7EDA0439232BE5AD7D97F1F73234B210 -fusion:progress -scatter 'u:ubar:d:dbar:gl u:ubar:d:dbar:gl -> e-:mu- nue:nuebar:numu:numubar u:ubar:d:dbar:gl' |
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| 69 | | Writing interface code for process library 'processes' |
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| 70 | | Compiling process library 'processes' |
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| 71 | | Loading process library 'processes' |
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| 72 | | Process 'enj': updating configuration |
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| 73 | SM.ms = 0.0000000000000000 |
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| 74 | SM.mc = 0.0000000000000000 |
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| 75 | SM.me = 0.0000000000000000 |
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| 76 | SM.mmu = 0.0000000000000000 |
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| 77 | sqrts = 14000.000000000000 |
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| 78 | $lhapdf_file = "cteq5l.LHgrid" |
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| 79 | Beam data (collision): |
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| 80 | p (mass = 0.0000000 GeV) |
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| 81 | p (mass = 0.0000000 GeV) |
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| 82 | sqrts = 14000.0000000000 GeV |
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| 83 | | Initializating integration for process enj: |
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| 84 | | Generating phase space configuration ... |
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| 85 | | ... done. |
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| 86 | | ... found 5 phase space channels, collected in 3 groves. |
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| 87 | | Phase space: found 5 equivalences between channels. |
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| 88 | | Wrote phase-space configuration file 'enj.phs'. |
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| 89 | | iterations = 5:20000 |
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| 90 | | Applying user-defined cuts. |
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| 91 | | Creating VAMP integration grids: |
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| 92 | | Using phase-space channel equivalences. |
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| 93 | | 20000 calls, 5 channels, 7 dimensions, 20 bins, stratified = T |
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| 94 | | Integrating process 'enj': |
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| 95 | |=============================================================================| |
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| 96 | | It Calls Integral[fb] Error[fb] Err[%] Acc Eff[%] Chi2 N[It] | |
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| 97 | |=============================================================================| |
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| 98 | 1 20000 4.7606971E+06 5.96E+05 12.52 17.71* 0.16 |
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| 99 | 2 20000 5.2286720E+06 2.11E+05 4.04 5.72* 0.18 |
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| 100 | 3 20000 5.4080971E+06 8.94E+04 1.65 2.34* 0.19 |
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| 101 | 4 20000 5.4305548E+06 4.71E+04 0.87 1.23* 0.19 |
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| 102 | 5 20000 5.4314245E+06 3.37E+04 0.62 0.88* 0.19 |
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| 103 | |-----------------------------------------------------------------------------| |
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| 104 | 5 100000 5.4248647E+06 2.60E+04 0.48 1.51 0.19 0.55 5 |
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| 105 | |-----------------------------------------------------------------------------| |
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| 106 | | Creating integration history display enj.history.ps and enj.history.pdf |
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| 107 | |=============================================================================| |
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| 108 | 5 100000 5.4248647E+06 2.60E+04 0.48 1.51 0.19 0.55 5 |
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| 109 | |=============================================================================| |
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| 110 | | Process 'enj': |
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| 111 | | time estimate for generating 10000 unweighted events: 10m:48s |
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| 112 | $description = "A WHIZARD 2.0 Example." |
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| 113 | $y_label = "$N_{\textrm{events}}$" |
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| 114 | $title = "$W$ Endpoint (``Jacobian Peak'') in $pp\to \ell\bar\nu j$" |
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| 115 | $x_label = "$p_T^\ell$/GeV" |
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| 116 | $title = "Jet-$p_T$ in $pp\to \ell\bar\nu j$" |
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| 117 | $x_label = "$p_T^j$/GeV" |
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| 118 | $title = "Lepton Energy in $pp\to \ell\bar\nu j$" |
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| 119 | $x_label = "$E^\ell$/GeV" |
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| 120 | $title = "Jet Energy in $pp\to \ell\bar\nu j$" |
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| 121 | $x_label = "$E^j$/GeV" |
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| 122 | n_events = 1000 |
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| 123 | | Initializing simulation for processes enj: |
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| 124 | | Simulation mode = unweighted, event_normalization = '1', unpolarized_events |
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| 125 | | Requested number of events = 1000 |
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| 126 | | This corresponds to luminosity [fb-1] = 0.1843E-03 |
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| 127 | | Generating 1000 events ... |
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| 128 | | Writing events in internal format to file 'enj.evx' |
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| 129 | | Applying user-defined analysis setup. |
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| 130 | | ... 1000 events generated. 1000 total. |
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| 131 | | Simulation finished. |
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| 132 | $out_file = "W-endpoint.dat" |
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| 133 | | Writing analysis data to file 'W-endpoint.dat' |
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| 134 | | Compiling analysis results in file 'W-endpoint.tex' |
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| 135 | | Compiling analysis results display in 'W-endpoint.tex' |
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| 136 | | WHIZARD run finished. |
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| 137 | |=============================================================================| |
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