source: trunk/source/processes/electromagnetic/lowenergy/test/hTest/air.out@ 1199

**********************************************
 Geant4 version $Name: emlowen-V09-02-64 $
                                (06-Apr-2001)
             Copyright : Geant4 Collaboration
**********************************************
Detector Construction is defined
HsPhysicsList: <LowEnergy> EMPhysicsList is set
HsPhysicsList: <none> HadronicPhysicsList is set
Physics List is defined
User actions will be initialized
hTestPrimaryGeneratorMessenger: Construct 
hTestPrimaryGeneratorAction is defined
EventAction is defined
TrackingAction is defined
UI interface is started
#================================================
# Macro file for the Air test of "hTest.cc"
#         10.04.01 V.Ivanchneko
#================================================ 
/run/verbose 2
/step/verbose 0
/tracking/verbose 0
/stepping/verbose 0
/event/verbose 0
/hTest/verbose 0
#
/hTest/physics/cutGamma    1.0 cm
/hTest/physics/cutElectron 1.0 mm
/hTest/physics/MaxStep     1.0 mm
hTestPhysicsList: MaxChargedStep = 1 mm
#/hTest/physics/EMList      LowEnergy
/hTest/physics/EMList      Standard
HsPhysicsList: <Standard> EMPhysicsList is set
/hTest/physics/HadronList  LowEnergy
HsPhysicsList: <LowEnergy> HadronicPhysicsList is set
/hTest/AbsorberMaterial    Air
/hTest/WorldMaterial       Vacuum
/hTest/HistoName           air.paw 
/hTest/NumberOfEvents      1000
#
#/gun/particle e-
#/gun/particle gamma
#/gun/particle proton
/gun/particle alpha
#/gun/particle triton
#/gun/particle IonC12
/gun/energy 5.0 MeV
#/gun/energy 0.001 MeV
#/gun/energy 175.0 MeV
#/gun/energy 360.0 MeV
#/gun/energy 3240.0 MeV
#
#/run/beamOn 10

Start initialisation
userDetector->Construct() start.

***** Table : Nb of materials = 18 *****

 Material: Beryllium            density:  1.848 g/cm3  temperature: 273.15 K  pressure:   1.00 atm  RadLength:  35.267 cm
   --->  Element: Beryllium    Z =  4.0   N =   9.0   A =   9.01 g/mole  fractionMass: 100.00 %  Abundance 100.00 %

 Material: Aluminum            density:  2.700 g/cm3  temperature: 273.15 K  pressure:   1.00 atm  RadLength:   8.893 cm
   --->  Element: Aluminum    Z = 13.0   N =  27.0   A =  26.98 g/mole  fractionMass: 100.00 %  Abundance 100.00 %

 Material: Carbon            density:  2.000 g/cm3  temperature: 273.15 K  pressure:   1.00 atm  RadLength:  21.348 cm
   --->  Element: Carbon    Z =  6.0   N =  12.0   A =  12.01 g/mole  fractionMass: 100.00 %  Abundance 100.00 %

 Material: Silicon            density:  2.330 g/cm3  temperature: 273.15 K  pressure:   1.00 atm  RadLength:   9.368 cm
   --->  Element: Silicon    Z = 14.0   N =  28.1   A =  28.09 g/mole  fractionMass: 100.00 %  Abundance 100.00 %

 Material: liquidArgon            density:  1.390 g/cm3  temperature: 273.15 K  pressure:   1.00 atm  RadLength:  14.065 cm
   --->  Element: liquidArgon    Z = 18.0   N =  40.0   A =  39.95 g/mole  fractionMass: 100.00 %  Abundance 100.00 %

 Material: Iron            density:  7.870 g/cm3  temperature: 273.15 K  pressure:   1.00 atm  RadLength:   1.759 cm
   --->  Element: Iron    Z = 26.0   N =  55.9   A =  55.85 g/mole  fractionMass: 100.00 %  Abundance 100.00 %

 Material: Copper            density:  8.960 g/cm3  temperature: 273.15 K  pressure:   1.00 atm  RadLength:   1.436 cm
   --->  Element: Copper    Z = 29.0   N =  63.5   A =  63.55 g/mole  fractionMass: 100.00 %  Abundance 100.00 %

 Material: Gold            density: 19.320 g/cm3  temperature: 273.15 K  pressure:   1.00 atm  RadLength:   3.344 mm
   --->  Element: Gold    Z = 79.0   N = 197.0   A = 196.97 g/mole  fractionMass: 100.00 %  Abundance 100.00 %

 Material: Lead            density: 11.350 g/cm3  temperature: 273.15 K  pressure:   1.00 atm  RadLength:   5.612 mm
   --->  Element: Lead    Z = 82.0   N = 207.2   A = 207.19 g/mole  fractionMass: 100.00 %  Abundance 100.00 %

 Material: Water        H_2O   density:  1.000 g/cm3  temperature: 273.15 K  pressure:   1.00 atm  RadLength:  36.092 cm
   --->  Element: HydrogenH   Z =  1.0   N =   1.0   A =   1.01 g/mole  fractionMass:  11.21 %  Abundance  66.67 %
   --->  Element: OxygenO   Z =  8.0   N =  16.0   A =  16.00 g/mole  fractionMass:  88.79 %  Abundance  33.33 %

 Material: Methane        CH_4   density:  0.667 mg/cm3  temperature: 273.15 K  pressure:   1.00 atm  RadLength: 696.375 m
   --->  Element: HydrogenH   Z =  1.0   N =   1.0   A =   1.01 g/mole  fractionMass:  25.19 %  Abundance  80.00 %
   --->  Element: CarbonC   Z =  6.0   N =  12.0   A =  12.00 g/mole  fractionMass:  74.81 %  Abundance  20.00 %

 Material: Graphite        Graphite   density:  2.265 g/cm3  temperature: 273.15 K  pressure:   1.00 atm  RadLength:  18.834 cm
   --->  Element: CarbonC   Z =  6.0   N =  12.0   A =  12.00 g/mole  fractionMass: 100.00 %  Abundance 100.00 %

 Material: GaAs        GaAs   density:  5.318 g/cm3  temperature: 273.15 K  pressure:   1.00 atm  RadLength:   2.293 cm
   --->  Element: GalliumGa   Z = 31.0   N =  69.7   A =  69.72 g/mole  fractionMass:  48.20 %  Abundance  50.00 %
   --->  Element: ArsenicumAs   Z = 33.0   N =  74.9   A =  74.92 g/mole  fractionMass:  51.80 %  Abundance  50.00 %

 Material: Ethane        C_2H_6   density: 424.100 mg/cm3  temperature: 273.15 K  pressure:   1.00 atm  RadLength:   1.076 m
   --->  Element: HydrogenH   Z =  1.0   N =   1.0   A =   1.01 g/mole  fractionMass:  20.16 %  Abundance  75.00 %
   --->  Element: CarbonC   Z =  6.0   N =  12.0   A =  12.00 g/mole  fractionMass:  79.84 %  Abundance  25.00 %

 Material: CsI        CsI   density:  4.530 g/cm3  temperature: 273.15 K  pressure:   1.00 atm  RadLength:   1.852 cm
   --->  Element: CesiumCs   Z = 55.0   N = 132.9   A = 132.91 g/mole  fractionMass:  51.15 %  Abundance  50.00 %
   --->  Element: IodideI   Z = 53.0   N = 126.9   A = 126.90 g/mole  fractionMass:  48.85 %  Abundance  50.00 %

 Material: Air            density:  1.290 mg/cm3  temperature: 273.15 K  pressure:   1.00 atm  RadLength: 285.161 m
   --->  Element: NitrogenN   Z =  7.0   N =  14.0   A =  14.01 g/mole  fractionMass:  70.00 %  Abundance  72.71 %
   --->  Element: OxygenO   Z =  8.0   N =  16.0   A =  16.00 g/mole  fractionMass:  30.00 %  Abundance  27.29 %

 Material: Mylar            density:  1.390 g/cm3  temperature: 273.15 K  pressure:   1.00 atm  RadLength:  28.868 cm
   --->  Element: CarbonC   Z =  6.0   N =  12.0   A =  12.00 g/mole  fractionMass:  55.00 %  Abundance  30.30 %
   --->  Element: HydrogenH   Z =  1.0   N =   1.0   A =   1.01 g/mole  fractionMass:   8.33 %  Abundance  54.55 %
   --->  Element: OxygenO   Z =  8.0   N =  16.0   A =  16.00 g/mole  fractionMass:  36.67 %  Abundance  15.15 %

 Material: Vacuum            density:  0.000 mg/cm3  temperature:   2.73 K  pressure:   0.00 atm  RadLength: 204727576.737 pc
   --->  Element: Vacuum    Z =  1.0   N =   1.0   A =   1.01 g/mole  fractionMass: 100.00 %  Abundance 100.00 %


The  WORLD   is made of  of Vacuum. The transverse size (XY) of the world is 1e+02 mm
The ABSORBER is made of 300 items of 1 mm of Air. The transverse size (XY) is 1e+02 mm
physicsList->Construct() start.
Standard Electromagnetic PhysicsList is initilized
MuonMinusCaptureAtRest is created 
MuonMinusCaptureAtRest is created 
LowEnergy Hadronic PhysicsList is initilized
physicsList->setCut() start.
hTestPhysicsList: Set cuts for all particles 

phot:  Total cross sections from a parametrisation. Good description from 10 KeV to 50 MeV for all Z
        Sandia crossSection below 50 KeV
       PhysicsTables from 50 keV to 50 MeV 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 10 keV to 1e+02 GeV in 100 bins. 

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 MeV to 1e+02 GeV in 100 bins. 

msc:   Tables of transport mean free paths.
          New model of MSC , computes the lateral 
          displacement of the particle , too.
        PhysicsTables from 1e+02 eV to 1e+02 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 1e+02 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 1e+02 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 1e+02 eV to 1e+02 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 1e+03 PeV in 150 bins. 

MuBrems:  theoretical cross section 
          Good description up to 1000 PeV.
    PhysicsTables from 1 keV to 1e+03 PeV in 150 bins. 

MuPairProd:  theoretical cross sections 
          Good description up to 1000 PeV.
    PhysicsTables from 1 keV to 1e+03 PeV in 150 bins. 

msc:   Tables of transport mean free paths.
          New model of MSC , computes the lateral 
          displacement of the particle , too.
        PhysicsTables from 1e+02 eV to 1e+02 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 1e+02 TeV in 100 bins. 
============= The cut Energy ==============================
                      gamma            e-           
Cut in range                  1 cm             1 mm
Cut in energy
 Beryllium                         3.84 keV           467 keV
   Aluminum                         20.4 keV           597 keV
   Carbon                         7.51 keV           522 keV
   Silicon                         20.7 keV           546 keV
   liquidArgon                         19.2 keV           345 keV
   Iron                         60.6 keV          1.29 MeV
   Copper                         70.1 keV          1.41 MeV
   Gold                          377 keV          2.28 MeV
   Lead                          284 keV          1.38 MeV
   Water                         7.72 keV           353 keV
   Methane                           10 eV           119 eV
   Graphite                         7.92 keV           571 keV
   GaAs                         63.9 keV           873 keV
   Ethane                         3.87 keV           218 keV
   CsI                          103 keV           690 keV
   Air                           10 eV           276 eV
   Mylar                         7.49 keV           431 keV
   Vacuum                           10 eV            10 eV
===================================================
Start event loop for 1000 events
hTestHisto: Histograms will be saved to the file <air.paw>
Start closing geometry.
Start Run processing.
Run terminated.
Run Summary
  Number of events processed : 1000
  User=18s Real=18s Sys=0.14s
hTestHisto: End of run actions are started
========================================================
Range(mm)= 36.17; Stragling(mm)= 0.3345 +- 0.0075
========================================================
Histograms and Ntuples are saved
runManager will be deleted
G4 kernel has come to Quit state.
Deletion of G4 kernel class start.
UserDetectorConstruction deleted.
UserPhysicsList deleted.
UserPrimaryGenerator deleted.
G4SDManager deleted.
EventManager deleted.
UImanager deleted.
StateManager deleted.
RunManager is deleting.
runManager is deleted