source: trunk/source/processes/hadronic/models/pre_equilibrium/exciton_model/include/G4PreCompoundEmission.hh @ 1340

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// $Id: G4PreCompoundEmission.hh,v 1.9 2010/09/01 14:51:21 vnivanch Exp $
// GEANT4 tag $Name: geant4-09-03-ref-09 $
//
// Hadronic Process: Nuclear Preequilibrium
// by V. Lara 
//
// Modif (03 September 2008) by J. M. Quesada for external choice of inverse 
// cross section option
// JMQ (06 September 2008) Also external choice has been added for:
//                      - superimposed Coulomb barrier (if useSICB=true) 
// 20.08.2010 V.Ivanchenko added G4Pow and G4PreCompoundParameters pointers
//                         use int Z and A and cleanup; 
//                         inline methods moved from icc file to hh

#ifndef G4PreCompoundEmission_h
#define G4PreCompoundEmission_h 1

#include "G4VPreCompoundFragment.hh"
#include "G4ReactionProduct.hh"
#include "G4Fragment.hh"
#include "G4PreCompoundFragmentVector.hh"

class G4VPreCompoundEmissionFactory;

class G4Pow;
class G4PreCompoundParameters;

class G4PreCompoundEmission
{
public:

  G4PreCompoundEmission();

  ~G4PreCompoundEmission();

  void SetDefaultModel();

  void SetHETCModel();

  G4ReactionProduct * PerformEmission(G4Fragment & aFragment);

  inline G4double GetTotalProbability(const G4Fragment & aFragment);

  inline void Initialize(const G4Fragment & aFragment);

  inline void SetOPTxs(G4int);

  inline void UseSICB(G4bool);

private:

  void AngularDistribution(G4VPreCompoundFragment * theFragment,
                           const G4Fragment& aFragment,
                           G4double KineticEnergy);
                
  G4double rho(G4int p, G4int h, G4double g, G4double E, G4double Ef) const;

  G4PreCompoundEmission(const G4PreCompoundEmission &right);
  const G4PreCompoundEmission& operator=(const G4PreCompoundEmission &right);
  G4bool operator==(const G4PreCompoundEmission &right) const;
  G4bool operator!=(const G4PreCompoundEmission &right) const;

  //==============
  // Data Members
  //==============

  G4Pow* g4pow;
  G4PreCompoundParameters* theParameters;

  // A vector with the allowed emission fragments 
  G4PreCompoundFragmentVector * theFragmentsVector;
  G4VPreCompoundEmissionFactory * theFragmentsFactory;

  // Momentum of emitted fragment
  G4ThreeVector theFinalMomentum;
};

inline G4double 
G4PreCompoundEmission::GetTotalProbability(const G4Fragment& aFragment) 
{
  return theFragmentsVector->CalculateProbabilities(aFragment);
}

inline void 
G4PreCompoundEmission::Initialize(const G4Fragment& aFragment) 
{
  theFragmentsVector->Initialize(aFragment);
}

inline void G4PreCompoundEmission::SetOPTxs(G4int opt)
{
  theFragmentsVector->SetOPTxs(opt);
}

inline void G4PreCompoundEmission::UseSICB(G4bool use)
{
  theFragmentsVector->UseSICB(use);
}

#endif