source: trunk/examples/extended/biasing/B02/exampleB02.out@ 1036

**********************************************
 Geant4 version $Name:  $
                                (31-Jul-2002)
             Copyright : Geant4 Collaboration
**********************************************

phot:  Total cross sections from Sandia parametrisation. 
B02PhysicsList::SetCuts:CutLength : 1 (mm)

conv:  Total cross sections from a parametrisation. Good description from 1.5 MeV to 100 GeV for all Z. 
        e+e- energies according Bethe-Heitler
        PhysicsTables from 1.022 MeV to 100 GeV in 100 bins. 

compt:  Total cross sections from a parametrisation. Good description from 10 KeV to (100/Z) GeV. 
       Scattered gamma energy according Klein-Nishina.
        PhysicsTables from 1 keV to 100 GeV in 80 bins. 

msc:   Tables of transport mean free paths.
          New model of MSC , computes the lateral 
          displacement of the particle , too.
        PhysicsTables from 100 eV  to 100 TeV in 100 bins. 

eIoni:  delta cross sections from Moller+Bhabha. Good description from 1 KeV to 100 GeV.
        delta ray energy sampled from  differential Xsection.
        PhysicsTables from 1 keV to 100 TeV in 100 bins. 

eBrem:  Total cross sections from a NEW parametrisation based on the EEDL data library. 
 Good description from 1 KeV to 100 GeV.
        log scale extrapolation above 100 GeV 
        Gamma energy sampled from a parametrised formula.
        PhysicsTables from 1 keV to 100 TeV in 100 bins. 

annihil:  Total cross section from Heilter formula(annihilation into 2 photons).
        gamma energies sampled according Heitler
        PhysicsTables from 10 keV to 10 TeV in 100 bins. 

msc:   Tables of transport mean free paths.
          New model of MSC , computes the lateral 
          displacement of the particle , too.
        PhysicsTables from 100 eV  to 100 TeV in 100 bins. 

hIoni:    Knock-on electron cross sections . 
         Good description above the mean excitation energy.
         delta ray energy sampled from  differential Xsection.
        PhysicsTables from 1 keV to 100 TeV in 100 bins. 

msc:   Tables of transport mean free paths.
          New model of MSC , computes the lateral 
          displacement of the particle , too.
        PhysicsTables from 100 eV  to 100 TeV in 100 bins. 

MuIoni:    Knock-on electron cross sections . 
         Good description above the mean excitation energy.
         delta ray energy sampled from  differential Xsection.
        PhysicsTables from 1 keV to 1000 PeV in 150 bins. 

MuBrems:  theoretical cross section 
          Good description up to 1000 PeV.
    PhysicsTables from 1 keV to 1000 PeV in 150 bins. 

MuPairProd:  theoretical cross sections 
          Good description up to 1000 PeV.
    PhysicsTables from 1 keV to 1000 PeV in 150 bins. 
+++ G4ProcessPlacer::G4ProcessPlacer: for: neutron
=== G4ProcessPlacer::AddProcessAsSecondDoIt ===
  ProcessName: PScoreProcess
The initial Vectors: 
GPIL Vector: 
   Decay
   LCapture
   LFission
   inelastic
   LElastic
   Transportation
DoIt Vector: 
   Transportation
   LElastic
   inelastic
   LFission
   LCapture
   Decay
The final Vectors: 
GPIL Vector: 
   Decay
   LCapture
   LFission
   inelastic
   LElastic
   PScoreProcess
   Transportation
DoIt Vector: 
   Transportation
   PScoreProcess
   LElastic
   inelastic
   LFission
   LCapture
   Decay
================================================
=== G4ProcessPlacer::AddProcessAsSecondDoIt ===
  ProcessName: ParallelTransport
The initial Vectors: 
GPIL Vector: 
   Decay
   LCapture
   LFission
   inelastic
   LElastic
   PScoreProcess
   Transportation
DoIt Vector: 
   Transportation
   PScoreProcess
   LElastic
   inelastic
   LFission
   LCapture
   Decay
The final Vectors: 
GPIL Vector: 
   Decay
   LCapture
   LFission
   inelastic
   LElastic
   PScoreProcess
   ParallelTransport
   Transportation
DoIt Vector: 
   Transportation
   ParallelTransport
   PScoreProcess
   LElastic
   inelastic
   LFission
   LCapture
   Decay
================================================
output pScorer, scoring detector, neutron
Volume name = score_worldCylinder_phys, Replica number = -1
HistorysEntering
entries                             : 331
Sum(w)                              : 331
Sum(w*x)                            : 331
Sum(w*x*x)                          : 331
mean=Sum(w*x) / Sum(w)              : 1
sigma=sqrt(Sum(w*x*x)/Sum(w)-mean^2): 0
Sum(x)                              : 331
Sum(x^2)                            : 331
EnergyEnteringHistory
entries                             : 331
Sum(w)                              : 331
Sum(w*x)                            : 2868.82
Sum(w*x*x)                          : 26144.9
mean=Sum(w*x) / Sum(w)              : 8.66714
sigma=sqrt(Sum(w*x*x)/Sum(w)-mean^2): 1.96678
Sum(x)                              : 2868.82
Sum(x^2)                            : 26144.9
Volume name = scorecell: M1, Replica number = 0
HistorysEntering
entries                             : 1794
Sum(w)                              : 1794
Sum(w*x)                            : 1794
Sum(w*x*x)                          : 1794
mean=Sum(w*x) / Sum(w)              : 1
sigma=sqrt(Sum(w*x*x)/Sum(w)-mean^2): 0
Sum(x)                              : 1794
Sum(x^2)                            : 1794
EnergyEnteringHistory
entries                             : 1794
Sum(w)                              : 1794
Sum(w*x)                            : 17426.6
Sum(w*x*x)                          : 171284
mean=Sum(w*x) / Sum(w)              : 9.71383
sigma=sqrt(Sum(w*x*x)/Sum(w)-mean^2): 1.05729
Sum(x)                              : 17426.6
Sum(x^2)                            : 171284
Collisions
entries                             : 1263
Sum(w)                              : 1263
Sum(w*x)                            : 1263
Sum(w*x*x)                          : 1263
mean=Sum(w*x) / Sum(w)              : 1
sigma=sqrt(Sum(w*x*x)/Sum(w)-mean^2): 0
Sum(x)                              : 1263
Sum(x^2)                            : 1263
Volume name = scorecell: D1, Replica number = 0
HistorysEntering
entries                             : 858
Sum(w)                              : 858
Sum(w*x)                            : 858
Sum(w*x*x)                          : 858
mean=Sum(w*x) / Sum(w)              : 1
sigma=sqrt(Sum(w*x*x)/Sum(w)-mean^2): 0
Sum(x)                              : 858
Sum(x^2)                            : 858
EnergyEnteringHistory
entries                             : 858
Sum(w)                              : 858
Sum(w*x)                            : 8292.88
Sum(w*x*x)                          : 81250.1
mean=Sum(w*x) / Sum(w)              : 9.66536
sigma=sqrt(Sum(w*x*x)/Sum(w)-mean^2): 1.13047
Sum(x)                              : 8292.88
Sum(x^2)                            : 81250.1
Collisions
entries                             : 512
Sum(w)                              : 512
Sum(w*x)                            : 512
Sum(w*x*x)                          : 512
mean=Sum(w*x) / Sum(w)              : 1
sigma=sqrt(Sum(w*x*x)/Sum(w)-mean^2): 0
Sum(x)                              : 512
Sum(x^2)                            : 512
Volume name = scorecell: M2, Replica number = 0
HistorysEntering
entries                             : 845
Sum(w)                              : 845
Sum(w*x)                            : 845
Sum(w*x*x)                          : 845
mean=Sum(w*x) / Sum(w)              : 1
sigma=sqrt(Sum(w*x*x)/Sum(w)-mean^2): 0
Sum(x)                              : 845
Sum(x^2)                            : 845
EnergyEnteringHistory
entries                             : 845
Sum(w)                              : 845
Sum(w*x)                            : 7918.1
Sum(w*x*x)                          : 76692.5
mean=Sum(w*x) / Sum(w)              : 9.37053
sigma=sqrt(Sum(w*x*x)/Sum(w)-mean^2): 1.71858
Sum(x)                              : 7918.1
Sum(x^2)                            : 76692.5
Collisions
entries                             : 696
Sum(w)                              : 696
Sum(w*x)                            : 696
Sum(w*x*x)                          : 696
mean=Sum(w*x) / Sum(w)              : 1
sigma=sqrt(Sum(w*x*x)/Sum(w)-mean^2): 0
Sum(x)                              : 696
Sum(x^2)                            : 696
Volume name = scorecell: D2, Replica number = 0
HistorysEntering
entries                             : 392
Sum(w)                              : 392
Sum(w*x)                            : 392
Sum(w*x*x)                          : 392
mean=Sum(w*x) / Sum(w)              : 1
sigma=sqrt(Sum(w*x*x)/Sum(w)-mean^2): 0
Sum(x)                              : 392
Sum(x^2)                            : 392
EnergyEnteringHistory
entries                             : 392
Sum(w)                              : 392
Sum(w*x)                            : 3630.15
Sum(w*x*x)                          : 34992.4
mean=Sum(w*x) / Sum(w)              : 9.26058
sigma=sqrt(Sum(w*x*x)/Sum(w)-mean^2): 1.87297
Sum(x)                              : 3630.15
Sum(x^2)                            : 34992.4
Collisions
entries                             : 233
Sum(w)                              : 233
Sum(w*x)                            : 233
Sum(w*x*x)                          : 233
mean=Sum(w*x) / Sum(w)              : 1
sigma=sqrt(Sum(w*x*x)/Sum(w)-mean^2): 0
Sum(x)                              : 233
Sum(x^2)                            : 233

----------------------------------------------
Volume name               |  AV E/Track | sigma       |  Coll_Ent.Tr|
score_worldCylinder_phys. |     8.66714 |     1.96678 |           0 |
scorecell: M1............ |     9.71383 |     1.05729 |    0.704013 |
scorecell: D1............ |     9.66536 |     1.13047 |    0.596737 |
scorecell: M2............ |     9.37053 |     1.71858 |    0.823669 |
scorecell: D2............ |     9.26058 |     1.87297 |    0.594388 |
+++ G4ProcessPlacer::G4ProcessPlacer: for: neutron
  ProcessName: PScoreProcess, will be removed!
The initial Vectors: 
GPIL Vector: 
   Decay
   LCapture
   LFission
   inelastic
   LElastic
   PScoreProcess
   ParallelTransport
   Transportation
DoIt Vector: 
   Transportation
   ParallelTransport
   PScoreProcess
   LElastic
   inelastic
   LFission
   LCapture
   Decay
The final Vectors: 
GPIL Vector: 
   Decay
   LCapture
   LFission
   inelastic
   LElastic
   ParallelTransport
   Transportation
DoIt Vector: 
   Transportation
   ParallelTransport
   LElastic
   inelastic
   LFission
   LCapture
   Decay
WARNING - Attempt to delete the physical volume store while geometry closed !
WARNING - Attempt to delete the logical volume store while geometry closed !
WARNING - Attempt to delete the solid store while geometry closed !