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Geant4/processes/electromagnetic/adjoint/include/G4AdjointPhotoElectricModel.hh

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Differences between /processes/electromagnetic/adjoint/include/G4AdjointPhotoElectricModel.hh (Version 11.3.0) and /processes/electromagnetic/adjoint/include/G4AdjointPhotoElectricModel.hh (Version 10.4)


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 26 ////////////////////////////////////////////// <<  26 // $Id: G4AdjointPhotoElectricModel.hh 66892 2013-01-17 10:57:59Z gunter $
 27 //  Class:   G4AdjointPhotoElectricModel       << 
 28 //  Author:         L. Desorgher               << 
 29 //  Organisation:   SpaceIT GmbH               << 
 30 //                                                 27 //
 31 //  Model for the adjoint photo electric proce <<  28 /////////////////////////////////////////////////////////////////////////////////
 32 //  Put a higher limit on the CS to avoid a hi <<  29 //      Module:   G4AdjointPhotoElectricModel
 33 //  at low energy. The very high adjoint CS of <<  30 //  Author:         L. Desorgher
 34 //  reaction produce a high rate of reverse ph <<  31 //  Organisation:   SpaceIT GmbH
 35 //  side of a shielding for eaxmple, the corre <<  32 //  Contract: ESA contract 21435/08/NL/AT
 36 //  correction in the StepDoIt method is not s <<  33 //  Customer:       ESA/ESTEC
 37 //  energy. The problem is partially solved by <<  34 /////////////////////////////////////////////////////////////////////////////////
 38 //  compensating it by an extra weight correct <<  35 //
 39 //  it with other reverse processes the revers <<  36 // CHANGE HISTORY
 40 //  source of very occasional high weights tha <<  37 // --------------
 41 //  computation. A way to solve this problemn  <<  38 //      ChangeHistory: 
 42 //  to find as it happens in rare cases but do <<  39 //    -1 September 2007 creation by L. Desorgher  
 43 //  the normal distribution. (Very Tricky!)    <<  40 //    
                                                   >>  41 //    -January 2009. L. Desorgher 
                                                   >>  42 //     Put a higher limit on the CS to avoid a high rate of  Inverse Photo e- effect at low energy. The very high adjoint CS of the reverse 
                                                   >>  43 //     photo electric reaction produce a high rate of reverse photo electric reaction in the inner side of a shielding for eaxmple, the correction of this occurence
                                                   >>  44 //     by weight correction in the StepDoIt method is not statistically sufficient at small energy. The problem is partially solved by setting an higher CS limit 
                                                   >>  45 //     and compensating it by an extra weight correction factor. However when  coupling it with other reverse  processes the reverse photo-electric is still 
                                                   >>  46 //     the source of very occasional high weight that decrease the efficiency of the computation. A way to solve this problemn is still needed but is difficult
                                                   >>  47 //     to find as it happens in rarea case but does give a weighrt that is outside the noemal distribution. (Very Tricky!)  
                                                   >>  48 //    
                                                   >>  49 //    -October 2009 Correction of Element sampling. L. Desorgher    
                                                   >>  50 //
                                                   >>  51 //-------------------------------------------------------------
                                                   >>  52 //  Documentation:
                                                   >>  53 //    Model for the adjoint photo electric process
 44 //                                                 54 //
 45 ////////////////////////////////////////////// << 
 46                                                << 
 47 #ifndef G4AdjointPhotoElectricModel_h              55 #ifndef G4AdjointPhotoElectricModel_h
 48 #define G4AdjointPhotoElectricModel_h 1            56 #define G4AdjointPhotoElectricModel_h 1
 49                                                    57 
                                                   >>  58 
 50 #include "globals.hh"                              59 #include "globals.hh"
 51 #include "G4VEmAdjointModel.hh"                    60 #include "G4VEmAdjointModel.hh"
                                                   >>  61 #include "G4PEEffectFluoModel.hh"
                                                   >>  62 class G4AdjointPhotoElectricModel: public G4VEmAdjointModel
 52                                                    63 
 53 class G4AdjointPhotoElectricModel : public G4V << 
 54 {                                                  64 {
 55  public:                                       <<  65 public:
 56   G4AdjointPhotoElectricModel();               << 
 57   ~G4AdjointPhotoElectricModel() override;     << 
 58                                                << 
 59   void SampleSecondaries(const G4Track& aTrack << 
 60                          G4ParticleChange* fPa << 
 61                                                << 
 62   G4double AdjointCrossSection(const G4Materia << 
 63                                G4double primEn << 
 64                                G4bool isScatPr << 
 65                                                    66 
 66   G4double AdjointCrossSectionPerAtom(const G4 <<  67   G4AdjointPhotoElectricModel();
 67                                       G4double <<  68   ~G4AdjointPhotoElectricModel();
 68                                                <<  69   
 69   G4AdjointPhotoElectricModel(G4AdjointPhotoEl <<  70   
 70   G4AdjointPhotoElectricModel& operator=(      <<  71   
 71     const G4AdjointPhotoElectricModel& right)  <<  72   virtual void SampleSecondaries(const G4Track& aTrack,
 72                                                <<  73                                 G4bool IsScatProjToProjCase,
 73  protected:                                    <<  74         G4ParticleChange* fParticleChange);
 74   void CorrectPostStepWeight(G4ParticleChange* <<  75   virtual G4double AdjointCrossSection(const G4MaterialCutsCouple* aCouple,
 75                              G4double old_weig <<  76         G4double primEnergy,
 76                              G4double projecti <<  77         G4bool IsScatProjToProjCase);
 77                              G4bool isScatProj <<  78   virtual G4double GetAdjointCrossSection(const G4MaterialCutsCouple* aCouple,
 78                                                <<  79         G4double primEnergy,
 79  private:                                      <<  80         G4bool IsScatProjToProjCase);
 80   void DefineCurrentMaterialAndElectronEnergy( <<  81           
 81     const G4MaterialCutsCouple* aCouple, G4dou <<  82   G4double AdjointCrossSectionPerAtom(const G4Element*  anElement,G4double electronEnergy);
 82                                                <<  83   
 83   G4double fShellProb[40][40];                 <<  84   
 84   G4double fXsec[40];                          <<  85   
 85   G4double fTotAdjointCS      = 0.;            <<  86   inline void SetTheDirectPEEffectModel(G4PEEffectFluoModel* aModel){theDirectPEEffectModel = aModel; 
 86   G4double fFactorCSBiasing   = 1.;            <<  87                      DefineDirectEMModel(aModel);}              
 87   G4double fPreStepAdjointCS  = 0.;            <<  88   
 88   G4double fPostStepAdjointCS = 0.;            <<  89   virtual void CorrectPostStepWeight(G4ParticleChange* fParticleChange, 
 89   G4double fCurrenteEnergy    = 0.;            <<  90                G4double old_weight, 
 90                                                <<  91              G4double adjointPrimKinEnergy, 
 91   size_t fIndexElement = 0;                    <<  92              G4double projectileKinEnergy,
                                                   >>  93              G4bool IsScatProjToProjCase);
                                                   >>  94   
                                                   >>  95   
                                                   >>  96 private:
                                                   >>  97   G4double  xsec[40];
                                                   >>  98   G4double  totAdjointCS;
                                                   >>  99   G4double  totBiasedAdjointCS;
                                                   >> 100   G4double  factorCSBiasing;
                                                   >> 101   G4double  pre_step_AdjointCS;
                                                   >> 102   G4double  post_step_AdjointCS;
                                                   >> 103   
                                                   >> 104   
                                                   >> 105   G4double  shell_prob[40][40];
                                                   >> 106  
                                                   >> 107   
                                                   >> 108   G4PEEffectFluoModel* theDirectPEEffectModel;
                                                   >> 109   size_t index_element;
                                                   >> 110   G4double current_eEnergy;
                                                   >> 111   
                                                   >> 112   
                                                   >> 113 private:  
                                                   >> 114   void DefineCurrentMaterialAndElectronEnergy(const G4MaterialCutsCouple* aCouple,
                                                   >> 115         G4double eEnergy);
                                                   >> 116     
 92 };                                                117 };
 93                                                   118 
 94 #endif                                            119 #endif
 95                                                   120