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Geant4/examples/extended/electromagnetic/TestEm17/README

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Diff markup

Differences between /examples/extended/electromagnetic/TestEm17/README (Version 11.3.0) and /examples/extended/electromagnetic/TestEm17/README (Version 9.2.p4)


                                                   >>   1 $Id: README,v 1.3 2008/09/26 20:15:04 maire Exp $
  1 ----------------------------------------------      2 -------------------------------------------------------------------
  2                                                     3 
  3      =========================================      4      =========================================================
  4      Geant4 - an Object-Oriented Toolkit for S      5      Geant4 - an Object-Oriented Toolkit for Simulation in HEP
  5      =========================================      6      =========================================================
  6                                                <<   7 
  7                             TestEm17                8                             TestEm17
  8                             --------                9                             --------
  9         This example is intended to check impl     10         This example is intended to check implementation of the processes 
 10         of muon interactions: ionization, dire <<  11         of muon interactions: ionization, direct (e+,e-) production,
 11   pair production, bremsstrahlung, and mu-nucl <<  12   bremsstrahlung, mu-nuclear interaction.
 12   It allows to compute differential cross sect     13   It allows to compute differential cross sections (as function of the
 13   energy transfered to secondaries), total cro <<  14   energy tranfered to secondaries), total cross sections and to compare
 14   with analytic calculations.                      15   with analytic calculations.
 15                                                    16   
 16  1- GEOMETRY DEFINITION                            17  1- GEOMETRY DEFINITION
 17                                                    18  
 18   It is a single box of homogeneous medium.        19   It is a single box of homogeneous medium.
 19   Two parameters define the geometry :             20   Two parameters define the geometry :
 20   - the material of the box,                       21   - the material of the box,
 21   - the (full) size of the box.                    22   - the (full) size of the box.
 22                                                    23   
 23   The default geometry (1 m of Iron) is constr     24   The default geometry (1 m of Iron) is constructed in 
 24   DetectorConstruction, but the above paramete     25   DetectorConstruction, but the above parameters can be changed 
 25   interactively via the commands defined in De     26   interactively via the commands defined in DetectorMessenger.
 26                                                    27   
 27  2- PHYSICS LIST                                   28  2- PHYSICS LIST
 28                                                    29  
 29   The Physics List of the example uses the mai <<  30   The physics list contains only electromagnetic processes for muon,
 30         (builder) called "local", which includ <<  31   adding G4MuNuclearInteraction and seting of upper energy range limit 
 31         processes under study. As an alternati <<  32   to 1000 PeV).
 32         and "emstandard_opt4" constructors may <<  33    
 33                                                <<  34         Standard (default) and g4v52 (frozen at the release Geant4 v.5.2) 
 34         Default energy range for EM processes  <<  35   physics can be choosen.
 35         is from 100*eV to 1000*PeV.            << 
 36                                                << 
 37         Optionally "muNucl" builder may be add << 
 38         inelastic interaction.                 << 
 39                                                    36      
 40  3- AN EVENT : THE PRIMARY GENERATOR               37  3- AN EVENT : THE PRIMARY GENERATOR
 41                                                    38  
 42   The primary kinematic consists of a single p     39   The primary kinematic consists of a single particle starting at the edge
 43   of the box. The type of the particle and its     40   of the box. The type of the particle and its energy are set in 
 44   PrimaryGeneratorAction (mu+ 10 TeV), and can     41   PrimaryGeneratorAction (mu+ 10 TeV), and can be changed via the G4 
 45   build-in commands of ParticleGun class (see      42   build-in commands of ParticleGun class (see the macros provided with 
 46   this example).                                   43   this example).
 47                                                    44   
 48  4- PHYSICS                                        45  4- PHYSICS
 49                                                    46  
 50   The incident particle is a muon. During the      47   The incident particle is a muon. During the tracking, secondary
 51   particles are killed.                            48   particles are killed.
 52                                                    49   
 53   The number of interactions are plotted as a      50   The number of interactions are plotted as a function of the energy 
 54   transfered to the secondaries.                   51   transfered to the secondaries.
 55   The total number of interactions is recorded <<  52   The total number of interactions is recorded, and the total crossSection
 56         section computed from this.            <<  53   computed from this.  
 57                                                    54 
 58         At RunAction::EndOfRun(..), the above  <<  55         At EndOfRun, the above results are compared with analytic calculations.
 59         calculations. The functions computing  <<  56   The functions which compute the theoritical crossSections have been
 60   provided by the G4 MEPhI group, and implemen <<  57   provided by the G4 MEPhI group, and grouped in MuCrossSection class.
 61                                                    58 
 62  5- HISTOGRAMS                                     59  5- HISTOGRAMS
 63                                                    60          
 64   The test contains built-in 1D histograms for <<  61   The test contains 4 built-in 1D histograms, which are managed by the
 65         Monte Carlo simulation, which are mana <<  62   HistoManager class and its Messenger.
 66         and its Messenger:                     << 
 67                                                    63 
 68         1 Relative muon transferred energy dis <<  64         1 Monte-Carlo relative transferred energy distribution histo
 69             (log10(eps/Emu kin) for knock-on e     65             (log10(eps/Emu kin) for knock-on electrons (ionization)
 70         2  -"- direct (e+,e-) pair production  <<  66         2  -"- direct (e+,e-) pair production
 71         3  -"- bremsstrahlung by muons         <<  67         3  -"- bremsstrahlung
 72         4  -"- nuclear interaction by muons    <<  68         4  -"- nuclear interaction
 73         5  ionistion for hadrons               <<  69   
 74         6  (e+,e-) pair production by hadrons  << 
 75         7  bremsstrahlung by hadrons           << 
 76   8  direct mu+,mu- pair production by muons   << 
 77                                                << 
 78   The histos can be activated individually wit     70   The histos can be activated individually with the command :
 79   /testem/histo/setHisto id nbBins  valMin val <<  71   /testem/histo/setHisto id nbBins  valMin valMax : min and max values of 
 80           min and max values of log10(eps/Emu  <<  72                                                           log10(eps/Emu kin).
 81                                                    73   
 82   At EndOfRun the corresponding histos for ana     74   At EndOfRun the corresponding histos for analytic calculations are
 83   automatically created and filled (histo 11 t <<  75   automatically created anf filled (histo 6 to 9), and the comparison
                                                   >>  76   (G4 divided by theory) is done in histos 11 to 14.
 84                                                    77                 
 85   One can control the name and the type of the     78   One can control the name and the type of the histograms file with 
 86   the command:                                 <<  79   the commands:
 87   /testem/histo/setFileName  name  (default te     80   /testem/histo/setFileName  name  (default testem17)
 88                                                <<  81     /testem/histo/setFileType  name  (default root)
                                                   >>  82 
                                                   >>  83   Note that, by default, histograms are disabled. To activate them, 
                                                   >>  84   uncomment the flag G4ANALYSIS_USE in GNUmakefile.   
                                                   >>  85           
 89  6- VISUALIZATION                                  86  6- VISUALIZATION
 90                                                    87  
 91   The Visualization Manager is set in the main     88   The Visualization Manager is set in the main().
 92   The initialisation of the drawing is done vi     89   The initialisation of the drawing is done via the commands
 93   /vis/... in the macro vis.mac. To get visual     90   /vis/... in the macro vis.mac. To get visualisation:
 94   > /control/execute vis.mac                       91   > /control/execute vis.mac
 95                                                    92   
 96   The detector has a default view which is a l     93   The detector has a default view which is a longitudinal view of the 
 97   box.                                             94   box.
 98                                                    95   
 99   The tracks are drawn at the end of event, an     96   The tracks are drawn at the end of event, and erased at the end of run.
100                                                    97   
101  7- HOW TO START ?                                 98  7- HOW TO START ?
102                                                    99  
                                                   >> 100   compile and link to generate an executable
                                                   >> 101     % cd geant4/examples/extended/electromagnetic/TestEm17
                                                   >> 102     % gmake
                                                   >> 103     
103   execute TestEm17 in 'batch' mode from macro     104   execute TestEm17 in 'batch' mode from macro files :
104     % TestEm17   allproc.mac                      105     % TestEm17   allproc.mac
105                                                   106     
106   execute TestEm17 in 'interactive mode' with     107   execute TestEm17 in 'interactive mode' with visualization :
107     % TestEm17                                    108     % TestEm17
108     Idle> control/execute vis.mac                 109     Idle> control/execute vis.mac
109     ....                                          110     ....
110     Idle> type your commands                      111     Idle> type your commands
111     ....                                          112     ....
112     Idle> exit                                    113     Idle> exit
                                                   >> 114 
                                                   >> 115   8- USING HISTOGRAMS
                                                   >> 116  
                                                   >> 117   By default the histograms are not activated. To activate histograms
                                                   >> 118   the environment variable G4ANALYSIS_USE should be defined. For instance
                                                   >> 119   uncomment the flag G4ANALYSIS_USE in GNUmakefile.
                                                   >> 120   
                                                   >> 121   Before compilation of the example it is optimal to clean up old files:
                                                   >> 122     gmake histclean
                                                   >> 123     gmake
                                                   >> 124    
                                                   >> 125   To use histograms, at least one of the AIDA implementations should be 
                                                   >> 126   available. See InstallAida.txt
                                                   >> 127