G4ParticleHPNBodyPhaseSpace.hh

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// P. Arce, June-2014 Conversion neutron_hp to particle_hp
//
#ifndef G4ParticleHPNBodyPhaseSpace_h
#define G4ParticleHPNBodyPhaseSpace_h 1

#include <fstream>
#include <CLHEP/Units/PhysicalConstants.h>

#include "globals.hh"
#include "G4ios.hh"
#include "G4Neutron.hh"
#include "G4VParticleHPEnergyAngular.hh"
#include "G4ReactionProduct.hh"

class G4ParticleHPNBodyPhaseSpace : public G4VParticleHPEnergyAngular
{
  public:
  
  G4ParticleHPNBodyPhaseSpace(){}
  ~G4ParticleHPNBodyPhaseSpace(){}
  
  public:
  
  void Init(G4double aMass, G4int aCount)
  {
    theTotalMass=aMass;
    theTotalCount=aCount;
  }

  void Init(std::istream & aDataFile)
  {
    aDataFile >> theTotalMass >> theTotalCount;
    theTotalMass *= G4Neutron::Neutron()->GetPDGMass();
  }
   
  G4ReactionProduct * Sample(G4double anEnergy, G4double massCode, G4double mass);
    
  private:
  
  inline G4double Prob(G4double anEnergy, G4double eMax, G4int n)
  {
    G4double result;
    result = std::sqrt(anEnergy)*std::pow(eMax-anEnergy, 3.*n/2.-4.);
    return result;
  }
  
  inline G4double C(G4double anEnergy, G4double mass)
  {
    G4double result(0);
    if(theTotalCount==3) result = 4./CLHEP::pi/std::pow(GetEmax(anEnergy, mass),2);
    if(theTotalCount==4) result = 105./32./std::pow(GetEmax(anEnergy, mass), 3.5);
    if(theTotalCount==5) result = 256./14./CLHEP::pi/std::pow(GetEmax(anEnergy, mass), 5.);
    return result;
  }
  
  inline G4double GetEmax(G4double anEnergy, G4double mass)
  {
    G4double result;
    G4double tMass = GetTarget()->GetMass();
    G4double pMass = GetProjectileRP()->GetMass();
    G4double availableEnergy = GetQValue() + anEnergy*tMass/(pMass+tMass);
    result = availableEnergy*(theTotalMass-mass)/theTotalMass;
    return result;
  }
  
  G4double MeanEnergyOfThisInteraction() {return -1; }
  
  private:
  
  G4double theTotalMass; 
  G4int theTotalCount;
  
};
#endif