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Geant4/processes/electromagnetic/adjoint/include/G4AdjointBremsstrahlungModel.hh

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Differences between /processes/electromagnetic/adjoint/include/G4AdjointBremsstrahlungModel.hh (Version 11.3.0) and /processes/electromagnetic/adjoint/include/G4AdjointBremsstrahlungModel.hh (Version 10.0.p2)


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 26 ////////////////////////////////////////////// <<  26 // $Id: G4AdjointBremsstrahlungModel.hh 74727 2013-10-21 08:43:49Z gcosmo $
 27 //  Class:    G4AdjointBremsstrahlungModel     << 
 28 //  Author:         L. Desorgher               << 
 29 //  Organisation:   SpaceIT GmbH               << 
 30 ////////////////////////////////////////////// << 
 31 //                                                 27 //
 32 //  Adjoint Model for e- Bremsstrahlung.Adapte <<  28 /////////////////////////////////////////////////////////////////////////////////
 33 //  Use of a simple biased differential cross  <<  29 //      Class:    G4AdjointBremsstrahlungModel
 34 //  rapid computation of adjoint CS and rapid  <<  30 //  Author:         L. Desorgher
 35 //  In this way cross section matrices are not <<  31 //  Organisation:   SpaceIT GmbH
 36 //  computation of adjoint brem cross section  <<  32 //  Contract: ESA contract 21435/08/NL/AT
 37 //  at initialisation. This mode can be switch <<  33 //  Customer:       ESA/ESTEC
 38 //  SetUseMatrix(false)/ SetUseMatrix(true) in <<  34 /////////////////////////////////////////////////////////////////////////////////
                                                   >>  35 //
                                                   >>  36 // CHANGE HISTORY
                                                   >>  37 // --------------
                                                   >>  38 //      ChangeHistory: 
                                                   >>  39 //    15 June 2007 creation by L. Desorgher. Adapted from G4eBremsstrahlungModel  
                                                   >>  40 //    20-10-2009 Remove all the screening effect that are not considered in the direct models blow 10 GeV. L.Desorgher
                                                   >>  41 //    4-11-2009  Implement the use of a simple biased differential cross section (C(Z)/Egamma) allowing a rapid computation of adjoint CS
                                                   >>  42 //         and rapid sampling of adjoint secondaries. By this way cross section matrices are not used anymore, avoiding a rather 
                                                   >>  43 //         time consuming computation of adjoint brem cross section matrices for each material at initialisation. This mode is switch on/off
                                                   >>  44 //         by selecting SetUseMatrix(false)/ SetUseMatrix(true) in the constructor. L.Desorgher 
                                                   >>  45 //              
 39 //                                                 46 //
 40 //--------------------------------------------     47 //-------------------------------------------------------------
                                                   >>  48 //  Documentation:
                                                   >>  49 //    Adjoint Model for e- Bremsstrahlung
                                                   >>  50 //
                                                   >>  51 
                                                   >>  52 
 41                                                    53 
 42 #ifndef G4AdjointBremsstrahlungModel_h             54 #ifndef G4AdjointBremsstrahlungModel_h
 43 #define G4AdjointBremsstrahlungModel_h 1           55 #define G4AdjointBremsstrahlungModel_h 1
 44                                                << 
 45 #include "globals.hh"                              56 #include "globals.hh"
 46 #include "G4VEmAdjointModel.hh"                    57 #include "G4VEmAdjointModel.hh"
                                                   >>  58 #include "G4PhysicsTable.hh"
                                                   >>  59 #include "G4EmModelManager.hh"
                                                   >>  60 class G4Timer;
                                                   >>  61 class G4AdjointBremsstrahlungModel: public G4VEmAdjointModel
 47                                                    62 
 48 class G4AdjointCSManager;                      << 
 49 class G4EmModelManager;                        << 
 50 class G4ParticleDefinition;                    << 
 51                                                << 
 52 class G4AdjointBremsstrahlungModel : public G4 << 
 53 {                                                  63 {
 54  public:                                       <<  64 public:
 55   explicit G4AdjointBremsstrahlungModel(G4VEmM << 
 56                                                    65 
                                                   >>  66   G4AdjointBremsstrahlungModel(G4VEmModel* aModel);
 57   G4AdjointBremsstrahlungModel();                  67   G4AdjointBremsstrahlungModel();
 58                                                <<  68   ~G4AdjointBremsstrahlungModel();
 59   ~G4AdjointBremsstrahlungModel() override;    <<  69   virtual void SampleSecondaries(const G4Track& aTrack,
 60                                                <<  70                                 G4bool IsScatProjToProjCase,
 61   void SampleSecondaries(const G4Track& aTrack <<  71         G4ParticleChange* fParticleChange);
 62                          G4ParticleChange* fPa <<  72   void RapidSampleSecondaries(const G4Track& aTrack,
 63                                                <<  73                                 G4bool IsScatProjToProjCase,
 64   void RapidSampleSecondaries(const G4Track& a <<  74         G4ParticleChange* fParticleChange);
 65                               G4ParticleChange <<  75   virtual G4double DiffCrossSectionPerVolumePrimToSecond(
 66                                                <<  76                 const G4Material* aMaterial,
 67   G4double DiffCrossSectionPerVolumePrimToSeco <<  77                                       G4double kinEnergyProj,  // kinetic energy of the primary particle before the interaction 
 68     const G4Material* aMaterial,               <<  78                                       G4double kinEnergyProd // kinetic energy of the secondary particle 
 69     G4double kinEnergyProj,  // kinetic energy <<  79               ); 
 70                              // the interactio <<  80   G4double DiffCrossSectionPerVolumePrimToSecondApproximated1(
 71     G4double kinEnergyProd   // kinetic energy <<  81                 const G4Material* aMaterial,
 72     ) override;                                <<  82                                       G4double kinEnergyProj,  // kinetic energy of the primary particle before the interaction 
 73                                                <<  83                                       G4double kinEnergyProd // kinetic energy of the secondary particle 
 74   G4double AdjointCrossSection(const G4Materia <<  84               ); 
 75                                G4double primEn <<  85   G4double DiffCrossSectionPerVolumePrimToSecondApproximated2(
 76                                G4bool isScatPr <<  86                 const G4Material* aMaterial,
 77                                                <<  87                                       G4double kinEnergyProj,  // kinetic energy of the primary particle before the interaction 
 78   G4AdjointBremsstrahlungModel(G4AdjointBremss <<  88                                       G4double kinEnergyProd // kinetic energy of the secondary particle 
 79   G4AdjointBremsstrahlungModel& operator=(     <<  89               ); 
 80     const G4AdjointBremsstrahlungModel& right) <<  90   virtual G4double AdjointCrossSection(const G4MaterialCutsCouple* aCouple,
 81                                                <<  91                      G4double primEnergy,
 82  private:                                      <<  92                      G4bool IsScatProjToProjCase);
 83   void Initialize();                           <<  93   virtual G4double GetAdjointCrossSection(const G4MaterialCutsCouple* aCouple,
 84                                                <<  94                      G4double primEnergy,
 85   G4EmModelManager* fEmModelManagerForFwdModel <<  95                      G4bool IsScatProjToProjCase);
 86   G4AdjointCSManager* fCSManager;              <<  96   
 87   G4ParticleDefinition* fElectron;             <<  97  
 88   G4ParticleDefinition* fGamma;                <<  98  // private void InitialiseFwdModels();
 89                                                <<  99 
 90   G4double fLastCZ = 0.;                       << 100 
 91                                                << 101 private:
 92   G4bool fIsDirectModelInitialised = false;    << 102   G4VEmModel* theDirectStdBremModel;
                                                   >> 103   G4EmModelManager* theEmModelManagerForFwdModels;
                                                   >> 104   G4bool isDirectModelInitialised ;
                                                   >> 105 
                                                   >> 106   G4double highKinEnergy;
                                                   >> 107   G4double lowKinEnergy, lastCZ;
                                                   >> 108   std::vector<G4DataVector*> partialSumSigma;
                                                   >> 109   std::vector<float> SigmaPerAtom; 
                                                   >> 110   
 93 };                                                111 };
                                                   >> 112 
 94                                                   113 
 95 #endif                                            114 #endif
 96                                                   115