************************************************************* Geant4 version Name: geant4-09-00 (29-June-2007) Copyright : Geant4 Collaboration Reference : NIM A 506 (2003), 250-303 WWW : http://cern.ch/geant4 ************************************************************* Visualization Manager instantiating... Visualization Manager initialising... Registering graphics systems... You have successfully registered the following graphics systems. Current available graphics systems are: ASCIITree (ATree) DAWNFILE (DAWNFILE) G4HepRep (HepRepXML) G4HepRepFile (HepRepFile) RayTracer (RayTracer) VRML1FILE (VRML1FILE) VRML2FILE (VRML2FILE) OpenGLImmediateX (OGLIX) OpenGLStoredX (OGLSX) RayTracerX (RayTracerX) Registering model factories... You have successfully registered the following model factories. Registered model factories: generic drawByCharge drawByParticleID drawByOriginVolume drawByAttribute Registered filter factories: chargeFilter particleFilter originVolumeFilter attributeFilter You are using the A01PhysicsList Full set of particles (barions bosons and mesons) will be created and Standard EM Physics and Low & High Energy parameterized models will be applied. A01PhysicsList is optimized for robustness and not for any particular usage. For the hadronic physics, educated guesses of physics list are prepared for various use cases. When you will start REAL calculations for your own interest, please consider the usage of hadronic_lists instead of A01PhysicsLists. More information can also be found from the Geant4 HyperNews. http://geant4-hn.slac.stanford.edu:5090/Geant4-HyperNews/index The materials defined are : ***** Table : Nb of materials = 5 ***** Material: ArgonGas density: 1.782 kg/m3 temperature: 273.15 K pressure: 1.00 atm RadLength: 109.708 m ---> Element: ArgonGas ( ) Z = 18.0 N = 40.0 A = 39.95 g/mole ElmMassFraction: 100.00 % ElmAbundance 100.00 % Material: Air density: 1.290 kg/m3 temperature: 273.15 K pressure: 1.00 atm RadLength: 285.161 m ---> Element: Nitrogen (N) Z = 7.0 N = 14.0 A = 14.01 g/mole ElmMassFraction: 70.00 % ElmAbundance 72.71 % ---> Element: Oxigen (O) Z = 8.0 N = 16.0 A = 16.00 g/mole ElmMassFraction: 30.00 % ElmAbundance 27.29 % Material: Scintillator density: 1.032 g/cm3 temperature: 273.15 K pressure: 1.00 atm RadLength: 42.549 cm ---> Element: Carbon (C) Z = 6.0 N = 12.0 A = 12.01 g/mole ElmMassFraction: 91.45 % ElmAbundance 47.37 % ---> Element: Hydrogen (H) Z = 1.0 N = 1.0 A = 1.01 g/mole ElmMassFraction: 8.55 % ElmAbundance 52.63 % Material: CsI density: 4.510 g/cm3 temperature: 273.15 K pressure: 1.00 atm RadLength: 1.861 cm ---> Element: Iodine (I) Z = 53.0 N = 126.9 A = 126.90 g/mole ElmMassFraction: 50.00 % ElmAbundance 51.15 % ---> Element: Cesium (Cs) Z = 55.0 N = 132.9 A = 132.90 g/mole ElmMassFraction: 50.00 % ElmAbundance 48.85 % 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 ElmMassFraction: 100.00 % ElmAbundance 100.00 % The geometrical tree defined are : worldPhysical[0] worldLogical 3 Air magneticPhysical[0] magneticLogical 0 Air firstArmPhysical[0] firstArmLogical 20 Air hodoscope1Physical[0] hodoscope1Logical 0 Scintillator /hodoscope1 hodoscope1Physical[1] hodoscope1Logical 0 Scintillator /hodoscope1 hodoscope1Physical[2] hodoscope1Logical 0 Scintillator /hodoscope1 hodoscope1Physical[3] hodoscope1Logical 0 Scintillator /hodoscope1 hodoscope1Physical[4] hodoscope1Logical 0 Scintillator /hodoscope1 hodoscope1Physical[5] hodoscope1Logical 0 Scintillator /hodoscope1 hodoscope1Physical[6] hodoscope1Logical 0 Scintillator /hodoscope1 hodoscope1Physical[7] hodoscope1Logical 0 Scintillator /hodoscope1 hodoscope1Physical[8] hodoscope1Logical 0 Scintillator /hodoscope1 hodoscope1Physical[9] hodoscope1Logical 0 Scintillator /hodoscope1 hodoscope1Physical[10] hodoscope1Logical 0 Scintillator /hodoscope1 hodoscope1Physical[11] hodoscope1Logical 0 Scintillator /hodoscope1 hodoscope1Physical[12] hodoscope1Logical 0 Scintillator /hodoscope1 hodoscope1Physical[13] hodoscope1Logical 0 Scintillator /hodoscope1 hodoscope1Physical[14] hodoscope1Logical 0 Scintillator /hodoscope1 chamber1Physical[0] chamber1Logical 1 ArgonGas wirePlane1Physical[0] wirePlane1Logical 0 ArgonGas /chamber1 chamber1Physical[1] chamber1Logical 1 ArgonGas wirePlane1Physical[0] wirePlane1Logical 0 ArgonGas /chamber1 chamber1Physical[2] chamber1Logical 1 ArgonGas wirePlane1Physical[0] wirePlane1Logical 0 ArgonGas /chamber1 chamber1Physical[3] chamber1Logical 1 ArgonGas wirePlane1Physical[0] wirePlane1Logical 0 ArgonGas /chamber1 chamber1Physical[4] chamber1Logical 1 ArgonGas wirePlane1Physical[0] wirePlane1Logical 0 ArgonGas /chamber1 secondArmPhys[0] secondArmLogical 32 Air hodoscope2Physical[0] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[1] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[2] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[3] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[4] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[5] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[6] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[7] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[8] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[9] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[10] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[11] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[12] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[13] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[14] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[15] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[16] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[17] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[18] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[19] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[20] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[21] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[22] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[23] hodoscope2Logical 0 Scintillator /hodoscope2 hodoscope2Physical[24] hodoscope2Logical 0 Scintillator /hodoscope2 chamber2Physical[0] chamber2Logical 1 ArgonGas wirePlane2Physical[0] wirePlane2Logical 0 ArgonGas /chamber2 chamber2Physical[1] chamber2Logical 1 ArgonGas wirePlane2Physical[0] wirePlane2Logical 0 ArgonGas /chamber2 chamber2Physical[2] chamber2Logical 1 ArgonGas wirePlane2Physical[0] wirePlane2Logical 0 ArgonGas /chamber2 chamber2Physical[3] chamber2Logical 1 ArgonGas wirePlane2Physical[0] wirePlane2Logical 0 ArgonGas /chamber2 chamber2Physical[4] chamber2Logical 1 ArgonGas wirePlane2Physical[0] wirePlane2Logical 0 ArgonGas /chamber2 EMcalorimeterPhysical[0] EMcalorimeterLogical 1 CsI cellPhysical[-1] cellLogical 0 CsI /EMcalorimeter HadCalorimeterPhysical[0] HadCalorimeterLogical 1 Lead HadCalColumnPhysical[-1] HadCalColumnLogical 1 Lead HadCalCellPhysical[-1] HadCalCellLogical 1 Lead HadCalLayerPhysical[-1] HadCalLayerLogical 1 Lead HadCalScintiPhysical[0] HadCalScintiLogical 0 Scintillator /HadCalorimeter Idle> /vis/open OGLIX Got standard cmap Window name: viewer-0 (OpenGLImmediateX) Idle> /vis/drawVolume Idle> /vis/scene/add/trajectories /tracking/storeTrajectory 1 WARNING: Trajectory storing has been requested. This action may be reversed with "/tracking/storeTrajectory 0". Idle> /vis/scene/add/hits Idle> /run/beamOn 1 conv: Total cross sections has a good parametrisation from 1.5 MeV to 100 GeV for all Z; sampling secondary e+e- according Bethe-Heitler model tables are built for gamma Lambda tables from 1.022 MeV to 100 GeV in 100 bins. compt: Total cross sections has a good parametrisation from 10 KeV to (100/Z) GeV Sampling according Klein-Nishina model tables are built for gamma Lambda tables from 100 eV to 100 GeV in 90 bins. phot: Total cross sections from Sandia parametrisation. Sampling according PhotoElectric model msc: Model variant of multiple scattering for e- Lambda tables from 100 eV to 100 TeV in 120 bins. LateralDisplacementFlag= 1 Skin= 0 Boundary/stepping algorithm is active with RangeFactor= 0.02 Step limit type 1 eIoni: tables are built for e- dE/dx and range tables from 100 eV to 100 TeV in 120 bins. Lambda tables from threshold to 100 TeV in 120 bins. Delta cross sections and sampling from MollerBhabha model Good description from 1 KeV to 100 GeV. Step function: finalRange(mm)= 1, dRoverRange= 0.2, integral: 1 eBrem: tables are built for e- dE/dx and range tables from 100 eV to 100 TeV in 120 bins. Lambda tables from threshold to 100 TeV in 120 bins. Total cross sections and sampling from StandBrem model (based on the EEDL data library) Good description from 1 KeV to 100 GeV, log scale extrapolation above 100 GeV. LPM flag 1 eIoni: tables are built for e+ dE/dx and range tables from 100 eV to 100 TeV in 120 bins. Lambda tables from threshold to 100 TeV in 120 bins. Delta cross sections and sampling from MollerBhabha model Good description from 1 KeV to 100 GeV. Step function: finalRange(mm)= 1, dRoverRange= 0.2, integral: 1 eBrem: tables are built for e+ dE/dx and range tables from 100 eV to 100 TeV in 120 bins. Lambda tables from threshold to 100 TeV in 120 bins. Total cross sections and sampling from StandBrem model (based on the EEDL data library) Good description from 1 KeV to 100 GeV, log scale extrapolation above 100 GeV. LPM flag 1 annihil: Sampling according eplus2gg model tables are built for e+ Lambda tables from 100 eV to 100 TeV in 120 bins. hIoni: tables are built for proton dE/dx and range tables from 100 eV to 100 TeV in 120 bins. Lambda tables from threshold to 100 TeV in 120 bins. Scaling relation is used from proton dE/dx and range. Delta cross sections and sampling from BetheBloch model for scaled energy > 2 MeV Parametrisation from Bragg for protons below. Step function: finalRange(mm)= 1, dRoverRange= 0.2, integral: 1 msc: Model variant of multiple scattering for proton Lambda tables from 100 eV to 100 TeV in 120 bins. LateralDisplacementFlag= 1 Skin= 0 Boundary/stepping algorithm is active with RangeFactor= 0.02 Step limit type 1 ionIoni: tables are built for GenericIon dE/dx and range tables from 100 eV to 100 TeV in 120 bins. Lambda tables from threshold to 100 TeV in 120 bins. Scaling relation is used from proton dE/dx and range. Delta cross sections and sampling from BetheBloch model for scaled energy > 2 MeV Parametrisation from BraggIon for protons below. NuclearStopping 1 Stopping Power data for 8 ion/material pairs are used. Step function: finalRange(mm)= 0.1, dRoverRange= 0.1, integral: 1 msc: Model variant of multiple scattering for GenericIon LateralDisplacementFlag= 0 Skin= 0 Boundary/stepping algorithm is active with RangeFactor= 0.2 Step limit type 1 hIoni: tables are built for anti_proton dE/dx and range tables from 100 eV to 100 TeV in 120 bins. Lambda tables from threshold to 100 TeV in 120 bins. Scaling relation is used from proton dE/dx and range. Delta cross sections and sampling from BetheBloch model for scaled energy > 2 MeV Parametrisation from Bragg for protons below. Step function: finalRange(mm)= 1, dRoverRange= 0.2, integral: 1 muIoni: tables are built for mu+ dE/dx and range tables from 100 eV to 100 TeV in 120 bins. Lambda tables from threshold to 100 TeV in 120 bins. Bether-Bloch model for E > 0.2 MeV, parametrisation of Bragg peak below, radiative corrections for E > 1 GeV Step function: finalRange(mm)= 1, dRoverRange= 0.2, integral: 1 msc: Model variant of multiple scattering for mu+ Lambda tables from 100 eV to 100 TeV in 120 bins. LateralDisplacementFlag= 1 Skin= 0 Boundary/stepping algorithm is active with RangeFactor= 0.02 Step limit type 1 muBrems: tables are built for mu+ dE/dx and range tables from 100 eV to 100 TeV in 120 bins. Lambda tables from threshold to 100 TeV in 120 bins. Parametrised model muPairProd: tables are built for mu+ dE/dx and range tables from 100 eV to 100 TeV in 120 bins. Lambda tables from threshold to 100 TeV in 120 bins. Parametrised model muIoni: tables are built for mu- dE/dx and range tables from 100 eV to 100 TeV in 120 bins. Lambda tables from threshold to 100 TeV in 120 bins. Bether-Bloch model for E > 0.2 MeV, parametrisation of Bragg peak below, radiative corrections for E > 1 GeV Step function: finalRange(mm)= 1, dRoverRange= 0.2, integral: 1 muBrems: tables are built for mu- dE/dx and range tables from 100 eV to 100 TeV in 120 bins. Lambda tables from threshold to 100 TeV in 120 bins. Parametrised model muPairProd: tables are built for mu- dE/dx and range tables from 100 eV to 100 TeV in 120 bins. Lambda tables from threshold to 100 TeV in 120 bins. Parametrised model hIoni: tables are built for pi+ dE/dx and range tables from 100 eV to 100 TeV in 120 bins. Lambda tables from threshold to 100 TeV in 120 bins. Scaling relation is used from proton dE/dx and range. Delta cross sections and sampling from BetheBloch model for scaled energy > 0.297504 MeV Parametrisation from Bragg for protons below. Step function: finalRange(mm)= 1, dRoverRange= 0.2, integral: 1 hIoni: tables are built for pi- dE/dx and range tables from 100 eV to 100 TeV in 120 bins. Lambda tables from threshold to 100 TeV in 120 bins. Scaling relation is used from proton dE/dx and range. Delta cross sections and sampling from BetheBloch model for scaled energy > 0.297504 MeV Parametrisation from Bragg for protons below. Step function: finalRange(mm)= 1, dRoverRange= 0.2, integral: 1 msc: Model variant of multiple scattering for pi- Lambda tables from 100 eV to 100 TeV in 120 bins. LateralDisplacementFlag= 1 Skin= 0 Boundary/stepping algorithm is active with RangeFactor= 0.02 Step limit type 1 >>> Event 0 >>> Simulation truth : e+ (15.359274,0,993.19785) Hodoscope 1 has 1 hits. Hodoscope[7] 4.9873976 (nsec) Hodoscope 2 has 1 hits. Hodoscope[10] 43.38451 (nsec) Drift Chamber 1 has 5 hits. Layer[0] : time 6.6717554 (nsec) --- local (x,y) 30.953244, -2.3954906 Layer[1] : time 8.3397702 (nsec) --- local (x,y) 38.465045, -3.7259291 Layer[2] : time 10.007786 (nsec) --- local (x,y) 46.018418, -4.8833421 Layer[3] : time 11.675797 (nsec) --- local (x,y) 53.473033, -6.0915645 Layer[4] : time 13.343796 (nsec) --- local (x,y) 60.712463, -7.1320399 Drift Chamber 2 has 6 hits. Layer[0] : time 35.043713 (nsec) --- local (x,y) -51.778937, -22.861807 Layer[0] : time 35.305849 (nsec) --- local (x,y) -140.96987, 33.611403 Layer[1] : time 36.715143 (nsec) --- local (x,y) -84.671078, -23.949266 Layer[2] : time 38.386571 (nsec) --- local (x,y) -117.56956, -24.653986 Layer[3] : time 40.058021 (nsec) --- local (x,y) -150.55867, -25.603835 Layer[4] : time 41.729462 (nsec) --- local (x,y) -183.50233, -26.69137 EM Calorimeter has 9 hits. Total Edep is 951.16977 (MeV) Hadron Calorimeter has 0 hits. Total Edep is 0 (MeV) G4VisManager: Using G4TrajectoryDrawByCharge as default trajectory model. See commands in /vis/modeling/trajectories/ for other options. Idle> exit Graphics systems deleted. Visualization Manager deleting...