G4AdjointComptonModel.hh

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// $Id$
//
/////////////////////////////////////////////////////////////////////////////////
//      Class:      G4AdjointComptonModel
//  Author:         L. Desorgher
//  Organisation:   SpaceIT GmbH
//  Contract:   ESA contract 21435/08/NL/AT
//  Customer:       ESA/ESTEC
/////////////////////////////////////////////////////////////////////////////////
//
// CHANGE HISTORY
// --------------
//      ChangeHistory: 
//      1 September 2007 creation by L. Desorgher 
//      11 November 2009 Implement the use of approximated diffCS as an alternative of CSMatrix.        
//
//-------------------------------------------------------------
//  Documentation:
//      Model for the adjoint compton scattering.
//
 
#ifndef G4AdjointComptonModel_h
#define G4AdjointComptonModel_h 1
 
 
#include "globals.hh"
#include "G4VEmAdjointModel.hh"
#include "G4VEmProcess.hh"
class G4AdjointComptonModel: public G4VEmAdjointModel
 
{
public:
 
  G4AdjointComptonModel();
  ~G4AdjointComptonModel(); 
  
  
  virtual void SampleSecondaries(const G4Track& aTrack,
                                G4bool IsScatProjToProjCase,
                G4ParticleChange* fParticleChange);
  void RapidSampleSecondaries(const G4Track& aTrack,
                                G4bool IsScatProjToProjCase,
                G4ParticleChange* fParticleChange);
  
  virtual G4double DiffCrossSectionPerAtomPrimToScatPrim( 
                                      G4double kinEnergyProj,  // kinetic energy of the primary particle before the interaction 
                                      G4double kinEnergyScatProj, // kinetic energy of the primary particle after the interaction 
                      G4double Z, 
                                      G4double A = 0.); 
  virtual G4double DiffCrossSectionPerAtomPrimToSecond(
                                      G4double kinEnergyProj,  // kinetic energy of the primary particle before the interaction 
                                      G4double kinEnergyProd, // kinetic energy of the secondary particle 
                      G4double Z, 
                                      G4double A = 0.);
 
  virtual G4double GetSecondAdjEnergyMaxForScatProjToProjCase(G4double PrimAdjEnergy);
  virtual G4double GetSecondAdjEnergyMinForProdToProjCase(G4double PrimAdjEnergy);
  
  
  virtual G4double AdjointCrossSection(const G4MaterialCutsCouple* aCouple,
                             G4double primEnergy,
                             G4bool IsScatProjToProjCase);
  
  virtual G4double GetAdjointCrossSection(const G4MaterialCutsCouple* aCouple,
                             G4double primEnergy,
                             G4bool IsScatProjToProjCase);
 
  
  
  inline void SetDirectProcess(G4VEmProcess* aProcess){theDirectEMProcess = aProcess;};               
  
private:
  G4VEmProcess* theDirectEMProcess;
  G4double G4direct_CS;
  
    
};
 
#endif