G4StatMFMicroManager.hh

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// Hadronic Process: Nuclear De-excitations
// by V. Lara
 
 
#ifndef G4StatMFMicroManager_h
#define G4StatMFMicroManager_h 1
 
#include "G4StatMFMicroPartition.hh"
#include "G4StatMFParameters.hh"
#include "G4StatMFChannel.hh"
 
#include "G4Fragment.hh"
#include "Randomize.hh"
 
 
class G4StatMFMicroManager {
 
public:
 
  // G4StatMFMicroManager class must be initialized with a G4Fragment, multiplicity,
  // free internal energy and the entropy of the compund nucleus.
  G4StatMFMicroManager(const G4Fragment& theFragment, G4int multiplicity,
               G4double FreeIntE, G4double SCompNuc);
 
  ~G4StatMFMicroManager();
 
  // copy constructor
  G4StatMFMicroManager(const G4StatMFMicroManager& right) = delete;
  G4StatMFMicroManager & operator=(const G4StatMFMicroManager& right) = delete;
  G4bool operator==(const G4StatMFMicroManager & right) const = delete;
  G4bool operator!=(const G4StatMFMicroManager & right) const = delete;
 
  // Choice of fragment atomic numbers and charges.
  G4StatMFChannel* ChooseChannel(G4int A0, G4int Z0, G4double MeanT);
    
  G4double GetProbability(void) const {return _WW;}
 
  void Normalize(G4double Norm);
    
  G4double GetMeanMultiplicity(void) const {return _MeanMultiplicity; }
 
  G4double GetMeanTemperature(void) const {return _MeanTemperature; }
 
  G4double GetMeanEntropy(void) const {return _MeanEntropy; }
 
private:
 
  // Initailization method
  void Initialize(const G4Fragment & theFragment, G4int m,
          G4double FreeIntE, G4double SCompNuc);
 
  G4bool MakePartition(G4int k, G4int* ANumbers); 
                                
  // Partitions vector
  std::vector<G4StatMFMicroPartition*> _Partition;
 
  G4double _WW;
  G4double _Normalization;
  G4double _MeanMultiplicity;
  G4double _MeanTemperature;
  G4double _MeanEntropy;
};
 
#endif