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Geant4/processes/electromagnetic/xrays/include/G4XTRGammaRadModel.hh

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Diff markup

Differences between /processes/electromagnetic/xrays/include/G4XTRGammaRadModel.hh (Version 11.3.0) and /processes/electromagnetic/xrays/include/G4XTRGammaRadModel.hh (Version 10.4.p1)


  1 //                                                  1 //
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 19 // * technical work of the GEANT4 collaboratio     19 // * technical work of the GEANT4 collaboration.                      *
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 25 //                                                 25 //
 26 ////////////////////////////////////////////// << 
 27 //                                                 26 //
 28 // Rough model describing a gamma function dis <<  27 // 
 29 // transition radiation. XTR is considered to  <<  28 ///////////////////////////////////////////////////////////////////////////
 30 // Thicknesses of plates and gas gaps are dist <<  29 // 
                                                   >>  30 // Rough model describing a gamma function distributed radiator of X-ray 
                                                   >>  31 // transition radiation. XTR is considered to flux after radiator!  
                                                   >>  32 // Thicknesses of plates and gas gaps are distributed according to gamma 
 31 // distribution. x are thicknesses of plates o     33 // distribution. x are thicknesses of plates or gas gaps:
 32 //                                                 34 //
 33 // p(x) = (alpha/<x>)^alpha * x^(alpha-1) * st     35 // p(x) = (alpha/<x>)^alpha * x^(alpha-1) * std::exp(-alpha*x/<x>) / G(alpha)
 34 //                                                 36 //
 35 // G(alpha) is Euler's gamma function.             37 // G(alpha) is Euler's gamma function.
 36 // Plates have mean <x> = fPlateThick > 0 and      38 // Plates have mean <x> = fPlateThick > 0 and power alpha = fAlphaPlate > 0 :
 37 // Gas gaps have mean <x> = fGasThick > 0 and      39 // Gas gaps have mean <x> = fGasThick > 0 and power alpha = fAlphaGas > 0 :
 38 // We suppose that:                                40 // We suppose that:
 39 // formation zone ~ mean thickness << absorpti     41 // formation zone ~ mean thickness << absorption length
 40 // for each material and in the range 1-100 ke     42 // for each material and in the range 1-100 keV. This allows us to simplify
 41 // interference effects in radiator stack (Get     43 // interference effects in radiator stack (GetStackFactor method).
 42 //                                             <<  44 // 
                                                   >>  45 // 
 43 // History:                                        46 // History:
 44 //                                                 47 //
 45 // 03.10.05 V. Grichine, first version         <<  48 // 03.10.05 V. Grichine, first version 
 46 //                                                 49 //
 47                                                    50 
 48 #ifndef G4XTRGammaRadModel_h                       51 #ifndef G4XTRGammaRadModel_h
 49 #define G4XTRGammaRadModel_h 1                     52 #define G4XTRGammaRadModel_h 1
 50                                                    53 
 51 #include "G4LogicalVolume.hh"                  << 
 52 #include "G4Material.hh"                       << 
 53 #include "G4VXTRenergyLoss.hh"                     54 #include "G4VXTRenergyLoss.hh"
 54                                                    55 
 55 class G4XTRGammaRadModel : public G4VXTRenergy     56 class G4XTRGammaRadModel : public G4VXTRenergyLoss
 56 {                                                  57 {
 57  public:                                       <<  58 public:
 58   explicit G4XTRGammaRadModel(G4LogicalVolume* << 
 59                               G4Material*, G4M << 
 60                               G4int,           << 
 61                               const G4String&  << 
 62   ~G4XTRGammaRadModel();                       << 
 63                                                    59 
 64   void ProcessDescription(std::ostream&) const <<  60   explicit G4XTRGammaRadModel (G4LogicalVolume *anEnvelope,
 65   void DumpInfo() const override { ProcessDesc <<  61           G4double,G4double,
                                                   >>  62           G4Material*,G4Material*,
                                                   >>  63           G4double,G4double,G4int,
                                                   >>  64           const G4String & processName = "XTRgammaRadiator"   );
                                                   >>  65   virtual ~G4XTRGammaRadModel ();
 66                                                    66 
 67   G4double GetStackFactor(G4double energy, G4d <<  67   // Pure virtual function from base class
                                                   >>  68 
                                                   >>  69   G4double GetStackFactor(G4double energy, G4double gamma, 
 68                           G4double varAngle) o     70                           G4double varAngle) override;
                                                   >>  71 
                                                   >>  72 private:
                                                   >>  73 
                                                   >>  74   //  G4double fAlphaPlate, fAlphaGas ;
 69 };                                                 75 };
 70                                                    76 
 71 #endif                                             77 #endif
 72                                                    78