G4GammaNuclearXS.hh

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//
// GEANT4 Class header file
//
//
// File name:    G4GammaNuclearXS
//
// Authors  V.Ivantchenko, Geant4, 20 October 2020
//          B.Kutsenko, BINP/NSU, 10 August 2021
//
// Modification 
 
 
// Class Description:
// This is a base class for gamma-nuclear cross section based on
// data files from IAEA Evaluated Photonuclear Data Library (IAEA/PD-2019) 
// https://www-nds.iaea.org/photonuclear/
// Database review - https://www.sciencedirect.com/science/article/pii/S0090375219300699?via%3Dihub
// Class Description - End
 
#ifndef G4GammaNuclearXS_h
#define G4GammaNuclearXS_h 1
 
#include "G4VCrossSectionDataSet.hh"
#include "globals.hh"
#include "G4ElementData.hh"
#include "G4PhysicsVector.hh"
#include "G4Threading.hh"
#include "G4IsotopeList.hh"
#include <vector>
 
class G4DynamicParticle;
class G4ParticleDefinition;
class G4Element;
class G4VComponentCrossSection;
 
class G4GammaNuclearXS final : public G4VCrossSectionDataSet
{
public: 
 
  explicit G4GammaNuclearXS();
 
  ~G4GammaNuclearXS() final;
    
  static const char* Default_Name() {return "GammaNuclearXS";}
 
  G4bool IsElementApplicable(const G4DynamicParticle*, 
                 G4int Z, const G4Material*) final;
 
  G4bool IsIsoApplicable(const G4DynamicParticle*, G4int Z, G4int A,
             const G4Element*, const G4Material* mat) final;
 
  G4double GetElementCrossSection(const G4DynamicParticle*, 
                      G4int Z, 
                                  const G4Material* mat = nullptr) final; 
 
  G4double GetIsoCrossSection(const G4DynamicParticle*, G4int Z, G4int A,
                              const G4Isotope* iso = nullptr,
                              const G4Element* elm = nullptr,
                              const G4Material* mat = nullptr) final;
 
  const G4Isotope* SelectIsotope(const G4Element*, 
                                 G4double kinEnergy, G4double logE) final;
 
  void BuildPhysicsTable(const G4ParticleDefinition&) final;
 
  G4double IsoCrossSection(G4double ekin, G4int Z, G4int A);
 
  G4double ElementCrossSection(G4double ekin, G4int Z);
 
  void CrossSectionDescription(std::ostream&) const final;
      
  G4GammaNuclearXS & operator=(const G4GammaNuclearXS &right) = delete;
  G4GammaNuclearXS(const G4GammaNuclearXS&) = delete;
  
private: 
 
  void Initialise(G4int Z);
 
  void InitialiseOnFly(G4int Z);
 
  const G4String& FindDirectoryPath();
 
  inline G4PhysicsVector* GetPhysicsVector(G4int Z);
 
  G4PhysicsVector* RetrieveVector(std::ostringstream& in, G4bool isElement, G4int Z);
  
  G4VCrossSectionDataSet* ggXsection = nullptr;
 
  std::vector<G4double> temp;
  const G4ParticleDefinition* gamma;
  
  G4bool isMaster = false;
 
  static const G4int MAXZGAMMAXS = 95;
  static G4ElementData* data;
  // Upper limit of the linear transition between IAEA database and CHIPS model
  static const G4int rTransitionBound = 150.*CLHEP::MeV; 
  // The list of elements with non-linear parametrisation for better precision 
  const G4int freeVectorException[11] = {4, 6, 7, 8, 27, 39, 45, 65, 67, 69, 73}; 
  // CHIPS photonuclear model had a problem with high energy parametrisation 
  // for isotopes of H and He, coefficient is needed to connect isotope cross 
  // section with element cross-section on high energies.
  static G4double coeff[3][3]; 
  static G4double xs150[MAXZGAMMAXS];
  static G4String gDataDirectory;
  
#ifdef G4MULTITHREADED
  static G4Mutex gNuclearXSMutex;
#endif
};
 
inline
G4PhysicsVector* G4GammaNuclearXS::GetPhysicsVector(G4int Z)
{
  G4PhysicsVector* pv = data->GetElementData(Z);
  if(pv == nullptr) { 
    InitialiseOnFly(Z);
    pv = data->GetElementData(Z);
  }
  return pv;
}
 
#endif