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 === Test of the HadronicGenerator ===
 
 =================  Configuration ==================
 Model: FTFP_BERT
 Ekin: [ 7000 , 7000 ] GeV
 Number of collisions:  10
 Number of hadron projectiles: 1
 Number of materials:   1
 IsIonProjectile: false
 ===================================================
 
 ### FinalStateHistoManager::Book: Successfully opended file all_secondaries.root for dumping histograms.
 
 ================================================================================
                                  INCL++ WARNING                                 
 INCL++/G4ExcitationHandler uses its own level-density parameter for fission
 ================================================================================
 
          Collision 0  projectile=proton  Ekin[MeV]=7e+06  direction=(0,0,1)  material=G4_C=======================================================================
 ======       Geant4 Native Pre-compound Model Parameters       ========
 =======================================================================
 Type of pre-compound model                          0
 Type of pre-compound inverse x-section              1
 Pre-compound model active                           1
 Pre-compound excitation low energy                  100 keV
 Pre-compound excitation high energy                 30 MeV
 Angular generator for pre-compound model            1
 Use NeverGoBack option for pre-compound model       0
 Use SoftCutOff option for pre-compound model        0
 Use CEM transitions for pre-compound model          1
 Use GNASH transitions for pre-compound model        0
 Use HETC submodel for pre-compound model            0
 =======================================================================
 ======       Nuclear De-excitation Module Parameters           ========
 =======================================================================
 Type of de-excitation inverse x-section             3
 Type of de-excitation factory                       Evaporation+GEM
 Number of de-excitation channels                    68
 Type of Fermi BreakUp model                         ModelVI
 Min excitation energy                               10 eV 
 Min energy per nucleon for multifragmentation       200 GeV
 Limit excitation energy for Fermi BreakUp           20 MeV
 Level density (1/MeV)                               0.075
 Use simple level density model                      1
 Use discrete excitation energy of the residual      0
 Time limit for long lived isomeres                  1 ns 
 Isomer production flag                              1
 Internal e- conversion flag                         1
 Store e- internal conversion data                   1
 Correlated gamma emission flag                      0
 Max 2J for sampling of angular correlations         10
 =======================================================================
 
          --> #secondaries=42  impactParameter[fm]=2.20708  #projectileSpectatorNucleons=0  #targetSpectatorNucleons=10  #NNcollisions=2
                  List of produced secondaries: 
                          j=0    pi0      p=(-278.058,-54.2447,249604249604) MeV
                          j=1    pi+      p=(230.03,220.461,171304171305) MeV
                          j=2    pi0      p=(-469.825,62.0591,83597.883599.2) MeV
                          j=3    kaon0L   p=(-807.187,-630.876,7481.197567.39) MeV
                          j=4    pi+      p=(-18.2835,94.3916,4761.184764.19) MeV
                          j=5    pi-      p=(-65.5255,38.2805,2121421214.6) MeV
                          j=6    kaon+    p=(902.75,526.476,225356225358) MeV
                          j=7    pi-      p=(-25.0616,-160.698,62327.562327.9) MeV
                          j=8    proton   p=(457.794,307.541,357.4451145.55) MeV
                          j=9    pi+      p=(187.05,258.116,13773.913778.3) MeV
                          j=10   eta_prime        p=(407.559,161.799,29438.329457.2) MeV
                          j=11   pi-      p=(129.939,-141.882,4209.464216.16) MeV
                          j=12   pi0      p=(71.0046,453.785,6627.26644.47) MeV
                          j=13   neutron  p=(-16.4191,129.542,309.995997.963) MeV
                          j=14   proton   p=(135.378,-168.251,28.0683963.212) MeV
                          j=15   pi0      p=(124.056,-385.893,1.52753e+061.52753e+06) MeV
                          j=16   neutron  p=(-254.248,68.6241,3.55606e+063.55606e+06) MeV
                          j=17   pi0      p=(117.21,-60.3051,-34.7261191.832) MeV
                          j=18   neutron  p=(446.727,-171.832,1382.091738.41) MeV
                          j=19   pi-      p=(210.497,175.307,1032.121076.94) MeV
                          j=20   kaon+    p=(690.165,73.5822,9055.49095.37) MeV
                          j=21   pi-      p=(177.16,-219.676,3483.773497.96) MeV
                          j=22   pi0      p=(-53.4315,65.671,2601.32606.17) MeV
                          j=23   pi+      p=(-144.559,198.653,3722.023732.73) MeV
                          j=24   pi-      p=(429.198,308.328,52681.852684.6) MeV
                          j=25   pi+      p=(-15.0435,-415.515,91322.191323.1) MeV
                          j=26   pi-      p=(-35.5784,175.965,45452.945453.5) MeV
                          j=27   pi+      p=(-361.017,-259.158,2125021255.2) MeV
                          j=28   pi-      p=(-1222.39,64.7204,89624.689633) MeV
                          j=29   pi0      p=(-295.902,103.055,2749627498.1) MeV
                          j=30   pi+      p=(-308.892,130.212,53713.953715.1) MeV
                          j=31   pi0      p=(-106.13,119.136,43774.143774.6) MeV
                          j=32   kaon0S   p=(810.076,-3.24364,165783165786) MeV
                          j=33   pi0      p=(-115.122,-174.545,1451.851473.02) MeV
                          j=34   pi-      p=(291.788,445.326,3615.883657.53) MeV
                          j=35   pi+      p=(71.6095,35.5851,17300.817301.6) MeV
                          j=36   anti_proton      p=(-816.5,-1044.45,300607300612) MeV
                          j=37   pi0      p=(11.3286,-190.312,2085820859.3) MeV
                          j=38   proton   p=(-249.193,60.3146,80839.980845.8) MeV
                          j=39   alpha    p=(278.46,-577.735,-401.9663803.45) MeV
                          j=40   deuteron         p=(43.2712,82.6642,-294.4411900.87) MeV
                          j=41   deuteron         p=(-564.683,299.02,667.6342090.92) MeV
          Collision 1  projectile=proton  Ekin[MeV]=7e+06  direction=(0,0,1)  material=G4_C
          --> #secondaries=25  impactParameter[fm]=3.23918  #projectileSpectatorNucleons=0  #targetSpectatorNucleons=11  #NNcollisions=1
          Collision 2  projectile=proton  Ekin[MeV]=7e+06  direction=(0,0,1)  material=G4_C
          --> #secondaries=36  impactParameter[fm]=3.11083  #projectileSpectatorNucleons=0  #targetSpectatorNucleons=10  #NNcollisions=2
          Collision 3  projectile=proton  Ekin[MeV]=7e+06  direction=(0,0,1)  material=G4_C
          --> #secondaries=53  impactParameter[fm]=2.49991  #projectileSpectatorNucleons=0  #targetSpectatorNucleons=9  #NNcollisions=2
          Collision 4  projectile=proton  Ekin[MeV]=7e+06  direction=(0,0,1)  material=G4_C
          --> #secondaries=38  impactParameter[fm]=3.05785  #projectileSpectatorNucleons=0  #targetSpectatorNucleons=11  #NNcollisions=1
          Collision 5  projectile=proton  Ekin[MeV]=7e+06  direction=(0,0,1)  material=G4_C
          --> #secondaries=43  impactParameter[fm]=2.50065  #projectileSpectatorNucleons=0  #targetSpectatorNucleons=10  #NNcollisions=2
          Collision 6  projectile=proton  Ekin[MeV]=7e+06  direction=(0,0,1)  material=G4_C
          --> #secondaries=31  impactParameter[fm]=3.02647  #projectileSpectatorNucleons=0  #targetSpectatorNucleons=11  #NNcollisions=1
          Collision 7  projectile=proton  Ekin[MeV]=7e+06  direction=(0,0,1)  material=G4_C
          --> #secondaries=45  impactParameter[fm]=2.71126  #projectileSpectatorNucleons=0  #targetSpectatorNucleons=11  #NNcollisions=1
          Collision 8  projectile=proton  Ekin[MeV]=7e+06  direction=(0,0,1)  material=G4_C
          --> #secondaries=38  impactParameter[fm]=2.74992  #projectileSpectatorNucleons=0  #targetSpectatorNucleons=11  #NNcollisions=1
          Collision 9  projectile=proton  Ekin[MeV]=7e+06  direction=(0,0,1)  material=G4_C
          --> #secondaries=41  impactParameter[fm]=2.80333  #projectileSpectatorNucleons=0  #targetSpectatorNucleons=11  #NNcollisions=1
 ========================================================
 Number of events                     10
 
 Average (per event) number of He3              0.4
 Average (per event) number of alpha              0.7
 Average (per event) number of anti_lambda              0.2
 Average (per event) number of anti_neutron              0.2
 Average (per event) number of anti_proton              0.2
 Average (per event) number of deuteron              0.8
 Average (per event) number of eta              1.2
 Average (per event) number of eta_prime              1.1
 Average (per event) number of gamma              0.2
 Average (per event) number of kaon+              1.3
 Average (per event) number of kaon-              0.7
 Average (per event) number of kaon0L              0.8
 Average (per event) number of kaon0S              1.4
 Average (per event) number of lambda              0.4
 Average (per event) number of neutron              3
 Average (per event) number of pi+              7
 Average (per event) number of pi-              7.2
 Average (per event) number of pi0              8.6
 Average (per event) number of proton              3.2
 Average (per event) number of sigma+              0.2
 Average (per event) number of triton              0.4
 ========================================================
 
 ### All histograms saved to all_secondaries.root
 ### All histograms saved to all_secondaries.hist
 
  Final random number = 0.290975
 
 Processed 10 events (collisions) in 3.334900e-02 seconds. Average: 3.3349 ms / event.
 
 === End of test ===

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