G4MolecularDissociationChannel.hh

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// Contact: Mathieu Karamitros (kara (AT) cenbg . in2p3 . fr)
//
// WARNING : This class is released as a prototype.
// It might strongly evolve or even disapear in the next releases.
//
// The code is developed in the framework of the ESA AO7146
//
// We would be very happy hearing from you, send us your feedback! :)
//
// In order for Geant4-DNA to be maintained and still open-source,
// article citations are crucial. 
// If you use Geant4-DNA chemistry and you publish papers about your software, 
// in addition to the general paper on Geant4-DNA:
//
// Int. J. Model. Simul. Sci. Comput. 1 (2010) 157–178
//
// we ask that you please cite the following reference papers on chemistry:
//
// J. Comput. Phys. 274 (2014) 841-882
// Prog. Nucl. Sci. Tec. 2 (2011) 503-508 
//
// ----------------------------------------------------------------
//      GEANT 4 class header file
//
//      History: first implementation, Alfonso Mantero 6 Mar 2009
// ----------------------------------------------------------------
//

#ifndef G4MolecularDecayChannel_h
#define G4MolecularDecayChannel_h 1

#include <vector>
#include <map>
#include "G4VMolecularDissociationDisplacer.hh"

// -----------------------------------------------------------------------------
// ###                       MolecularDecayChannel                           ###
// -----------------------------------------------------------------------------

class G4Molecule;
class G4MolecularConfiguration;

struct CompMoleculePointer;

/* Stored data for one dissociation channel :
 * products, energy, time of decay and probability.
 */
class G4MolecularDissociationChannel
{
public:
  G4MolecularDissociationChannel();
  G4MolecularDissociationChannel(G4String);
  ~G4MolecularDissociationChannel();
  G4MolecularDissociationChannel(const G4MolecularDissociationChannel&);
  G4MolecularDissociationChannel&
    operator=(const G4MolecularDissociationChannel &right);

public:
  //____________________________________________________________________________
  // Construct

  void AddProduct(const G4Molecule*, G4double = 0);
  void AddProduct(G4MolecularConfiguration*, G4double = 0);
  void AddProduct(const G4String& molecule, G4double displacement = 0);

  //____________________________________________________________________________

  inline void SetName(const G4String&);
  inline void SetEnergy(G4double);
  inline void SetProbability(G4double);
  inline void SetDecayTime(G4double);
  inline void SetRMSMotherMoleculeDisplacement(G4double);
  inline void SetDisplacementType(DisplacementType);

  //____________________________________________________________________________

  inline const G4String& GetName() const;
  G4int GetNbProducts() const;
  G4MolecularConfiguration* GetProduct(int) const;
  inline const std::vector<G4double>& GetRMSProductsDisplacement() const;
  inline G4double GetEnergy() const;
  inline G4double GetProbability() const;
  inline G4double GetDecayTime() const;
  inline G4double GetRMSMotherMoleculeDisplacement() const;
  inline DisplacementType GetDisplacementType() const;

  //____________________________________________________________________________
  //Root Mean Square radial distance thermalisation of a product
  G4double GetRMSRadialDisplacementOfProduct(const G4Molecule*);

private:

  DisplacementType fDisplacementType;
  G4String fName;
//  std::vector<const G4Molecule*>* fProductsVector;
  std::vector<G4MolecularConfiguration*>* fProductsVector;
  G4double fReleasedEnergy;
  G4double fProbability;
  G4double fDecayTime; // To be taken into account in the next releases

  //Root Mean Square radial distance jump of the MotherMolecule molecule
  G4double fRMSMotherMoleculeDisplacement;
  std::vector<G4double> fRMSProductsDisplacementVector;
};

//______________________________________________________________________________

inline void G4MolecularDissociationChannel::SetName(const G4String& value)
{
  fName = value;
}

//______________________________________________________________________________

inline void G4MolecularDissociationChannel::SetEnergy(G4double value)
{
  fReleasedEnergy = value;
}

//______________________________________________________________________________

inline void G4MolecularDissociationChannel::SetProbability(G4double value)
{
  fProbability = value;
}

//______________________________________________________________________________

inline void G4MolecularDissociationChannel::SetDecayTime(G4double value)
{

  fDecayTime = value;
}

//______________________________________________________________________________

inline void G4MolecularDissociationChannel::
  SetRMSMotherMoleculeDisplacement(G4double value)
{
  fRMSMotherMoleculeDisplacement = value;
}

//______________________________________________________________________________

inline const G4String& G4MolecularDissociationChannel::GetName() const
{
  return fName;
}

//______________________________________________________________________________

inline const std::vector<G4double>&
  G4MolecularDissociationChannel::GetRMSProductsDisplacement() const
{
  return fRMSProductsDisplacementVector;
}

//______________________________________________________________________________

inline G4double G4MolecularDissociationChannel::GetEnergy() const
{
  return fReleasedEnergy;
}

//______________________________________________________________________________

inline G4double G4MolecularDissociationChannel::GetProbability() const
{
  return fProbability;
}

//______________________________________________________________________________

inline G4double G4MolecularDissociationChannel::GetDecayTime() const
{
  return fDecayTime;
}

//______________________________________________________________________________

inline G4double G4MolecularDissociationChannel::
  GetRMSMotherMoleculeDisplacement() const
{
  return fRMSMotherMoleculeDisplacement;
}

//______________________________________________________________________________

inline void G4MolecularDissociationChannel::
  SetDisplacementType(DisplacementType aDisplacementType)
{
  fDisplacementType = aDisplacementType;
}

//______________________________________________________________________________

inline DisplacementType G4MolecularDissociationChannel::
  GetDisplacementType() const
{
  return fDisplacementType;
}
#endif