Warning, /geant4/examples/extended/hadronic/FlukaCern/ProcessLevel/FinalState/ProcessLevel-FinalState.out is written in an unsupported language. File is not indexed.
0001 === Test of the HadronicGenerator ===
0002
0003 ================= Configuration ==================
0004 Model: FTFP_BERT
0005 Ekin: [ 7000 , 7000 ] GeV
0006 Number of collisions: 10
0007 Number of hadron projectiles: 1
0008 Number of materials: 1
0009 IsIonProjectile: false
0010 ===================================================
0011
0012 ### FinalStateHistoManager::Book: Successfully opended file all_secondaries.root for dumping histograms.
0013
0014 ================================================================================
0015 INCL++ WARNING
0016 INCL++/G4ExcitationHandler could not use its own level-density parameter for fission
0017 ================================================================================
0018
0019 Collision 0 projectile=proton Ekin[MeV]=7e+06 direction=(0,0,1) material=G4_C=======================================================================
0020 ====== Geant4 Native Pre-compound Model Parameters ========
0021 =======================================================================
0022 Type of pre-compound inverse x-section 3
0023 Pre-compound model active 1
0024 Pre-compound excitation low energy 100 keV
0025 Pre-compound excitation high energy 30 MeV
0026 Angular generator for pre-compound model 1
0027 Use NeverGoBack option for pre-compound model 0
0028 Use SoftCutOff option for pre-compound model 0
0029 Use CEM transitions for pre-compound model 1
0030 Use GNASH transitions for pre-compound model 0
0031 Use HETC submodel for pre-compound model 0
0032 =======================================================================
0033 ====== Nuclear De-excitation Module Parameters ========
0034 =======================================================================
0035 Type of de-excitation inverse x-section 3
0036 Type of de-excitation factory Evaporation+GEM
0037 Number of de-excitation channels 68
0038 Min excitation energy 10 eV
0039 Min energy per nucleon for multifragmentation 200 GeV
0040 Limit excitation energy for Fermi BreakUp 20 MeV
0041 Level density (1/MeV) 0.075
0042 Use simple level density model 1
0043 Use discrete excitation energy of the residual 0
0044 Time limit for long lived isomeres 1 ns
0045 Isomer production flag 1
0046 Internal e- conversion flag 1
0047 Store e- internal conversion data 0
0048 Correlated gamma emission flag 0
0049 Max 2J for sampling of angular correlations 10
0050 =======================================================================
0051
0052 --> #secondaries=44 impactParameter[fm]=2.20708 #projectileSpectatorNucleons=0 #targetSpectatorNucleons=10 #NNcollisions=2
0053 List of produced secondaries:
0054 j=0 pi0 p=(-278.058,-54.2447,249604249604) MeV
0055 j=1 pi+ p=(230.03,220.461,171304171305) MeV
0056 j=2 pi0 p=(-469.825,62.0591,83597.883599.2) MeV
0057 j=3 kaon0L p=(-807.187,-630.876,7481.197567.39) MeV
0058 j=4 pi+ p=(-18.2835,94.3916,4761.184764.19) MeV
0059 j=5 pi- p=(-65.5255,38.2805,2121421214.6) MeV
0060 j=6 kaon+ p=(902.75,526.476,225356225358) MeV
0061 j=7 pi- p=(-25.0616,-160.698,62327.562327.9) MeV
0062 j=8 proton p=(457.794,307.541,357.4451145.55) MeV
0063 j=9 pi+ p=(187.05,258.116,13773.913778.3) MeV
0064 j=10 eta_prime p=(407.559,161.799,29438.329457.2) MeV
0065 j=11 pi- p=(129.939,-141.882,4209.464216.16) MeV
0066 j=12 pi0 p=(71.0046,453.785,6627.26644.47) MeV
0067 j=13 neutron p=(-16.4191,129.542,309.995997.963) MeV
0068 j=14 proton p=(135.378,-168.251,28.0683963.212) MeV
0069 j=15 pi0 p=(124.056,-385.893,1.52753e+061.52753e+06) MeV
0070 j=16 neutron p=(-254.248,68.6241,3.55606e+063.55606e+06) MeV
0071 j=17 pi0 p=(117.21,-60.3051,-34.7261191.832) MeV
0072 j=18 neutron p=(446.727,-171.832,1382.091738.41) MeV
0073 j=19 pi- p=(210.497,175.307,1032.121076.94) MeV
0074 j=20 kaon+ p=(690.165,73.5822,9055.49095.37) MeV
0075 j=21 pi- p=(177.16,-219.676,3483.773497.96) MeV
0076 j=22 pi0 p=(-53.4315,65.671,2601.32606.17) MeV
0077 j=23 pi+ p=(-144.559,198.653,3722.023732.73) MeV
0078 j=24 pi- p=(429.198,308.328,52681.852684.6) MeV
0079 j=25 pi+ p=(-15.0435,-415.515,91322.191323.1) MeV
0080 j=26 pi- p=(-35.5784,175.965,45452.945453.5) MeV
0081 j=27 pi+ p=(-361.017,-259.158,2125021255.2) MeV
0082 j=28 pi- p=(-1222.39,64.7204,89624.689633) MeV
0083 j=29 pi0 p=(-295.902,103.055,2749627498.1) MeV
0084 j=30 pi+ p=(-308.892,130.212,53713.953715.1) MeV
0085 j=31 pi0 p=(-106.13,119.136,43774.143774.6) MeV
0086 j=32 kaon0S p=(810.076,-3.24364,165783165786) MeV
0087 j=33 pi0 p=(-115.122,-174.545,1451.851473.02) MeV
0088 j=34 pi- p=(291.788,445.326,3615.883657.53) MeV
0089 j=35 pi+ p=(71.6095,35.5851,17300.817301.6) MeV
0090 j=36 anti_proton p=(-816.5,-1044.45,300607300612) MeV
0091 j=37 pi0 p=(11.3286,-190.312,2085820859.3) MeV
0092 j=38 proton p=(-249.193,60.3146,80839.980845.8) MeV
0093 j=39 He3 p=(-240.431,173.976,-582.8082883.54) MeV
0094 j=40 deuteron p=(-125.545,-8.41923,305.1661904.44) MeV
0095 j=41 neutron p=(-6.72433,-28.3995,129.259948.864) MeV
0096 j=42 neutron p=(278.182,-411.55,262.1171094.64) MeV
0097 j=43 proton p=(-148.434,78.342,-142.506963.76) MeV
0098 Collision 1 projectile=proton Ekin[MeV]=7e+06 direction=(0,0,1) material=G4_C
0099 --> #secondaries=63 impactParameter[fm]=0.616428 #projectileSpectatorNucleons=0 #targetSpectatorNucleons=6 #NNcollisions=5
0100 Collision 2 projectile=proton Ekin[MeV]=7e+06 direction=(0,0,1) material=G4_C
0101 --> #secondaries=48 impactParameter[fm]=2.11631 #projectileSpectatorNucleons=0 #targetSpectatorNucleons=9 #NNcollisions=3
0102 Collision 3 projectile=proton Ekin[MeV]=7e+06 direction=(0,0,1) material=G4_C
0103 --> #secondaries=7 impactParameter[fm]=2.88878 #projectileSpectatorNucleons=0 #targetSpectatorNucleons=11 #NNcollisions=0
0104 Collision 4 projectile=proton Ekin[MeV]=7e+06 direction=(0,0,1) material=G4_C
0105 --> #secondaries=52 impactParameter[fm]=1.5362 #projectileSpectatorNucleons=0 #targetSpectatorNucleons=8 #NNcollisions=2
0106 Collision 5 projectile=proton Ekin[MeV]=7e+06 direction=(0,0,1) material=G4_C
0107 --> #secondaries=31 impactParameter[fm]=3.03126 #projectileSpectatorNucleons=0 #targetSpectatorNucleons=11 #NNcollisions=1
0108 Collision 6 projectile=proton Ekin[MeV]=7e+06 direction=(0,0,1) material=G4_C
0109 --> #secondaries=54 impactParameter[fm]=1.2767 #projectileSpectatorNucleons=0 #targetSpectatorNucleons=7 #NNcollisions=4
0110 Collision 7 projectile=proton Ekin[MeV]=7e+06 direction=(0,0,1) material=G4_C
0111 --> #secondaries=51 impactParameter[fm]=3.14278 #projectileSpectatorNucleons=0 #targetSpectatorNucleons=10 #NNcollisions=2
0112 Collision 8 projectile=proton Ekin[MeV]=7e+06 direction=(0,0,1) material=G4_C
0113 --> #secondaries=39 impactParameter[fm]=2.61437 #projectileSpectatorNucleons=0 #targetSpectatorNucleons=11 #NNcollisions=1
0114 Collision 9 projectile=proton Ekin[MeV]=7e+06 direction=(0,0,1) material=G4_C
0115 --> #secondaries=60 impactParameter[fm]=2.28703 #projectileSpectatorNucleons=0 #targetSpectatorNucleons=10 #NNcollisions=2
0116 ========================================================
0117 Number of events 10
0118
0119 Average (per event) number of He3 0.5
0120 Average (per event) number of alpha 0.6
0121 Average (per event) number of anti_lambda 0.5
0122 Average (per event) number of anti_neutron 0.1
0123 Average (per event) number of anti_proton 0.4
0124 Average (per event) number of anti_sigma+ 0.1
0125 Average (per event) number of deuteron 0.5
0126 Average (per event) number of eta 0.5
0127 Average (per event) number of eta_prime 0.6
0128 Average (per event) number of gamma 0.2
0129 Average (per event) number of kaon+ 0.9
0130 Average (per event) number of kaon- 0.7
0131 Average (per event) number of kaon0L 0.7
0132 Average (per event) number of kaon0S 0.9
0133 Average (per event) number of lambda 0.4
0134 Average (per event) number of neutron 3.6
0135 Average (per event) number of pi+ 9.5
0136 Average (per event) number of pi- 9.6
0137 Average (per event) number of pi0 9.6
0138 Average (per event) number of proton 4.7
0139 Average (per event) number of sigma- 0.1
0140 Average (per event) number of sigma0 0.1
0141 Average (per event) number of triton 0.1
0142 ========================================================
0143
0144 ### All histograms saved to all_secondaries.root
0145 ### All histograms saved to all_secondaries.hist
0146
0147 Final random number = 0.280286
0148
0149 Processed 10 events (collisions) in 5.218500e-02 seconds. Average: 5.2185 ms / event.
0150
0151 === End of test ===
