G4INCLNuclearPotentialEnergyIsospinSmooth.cc

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//
// INCL++ intra-nuclear cascade model
// Pekka Kaitaniemi, CEA and Helsinki Institute of Physics
// Davide Mancusi, CEA
// Alain Boudard, CEA
// Sylvie Leray, CEA
// Joseph Cugnon, University of Liege
//
#define INCLXX_IN_GEANT4_MODE 1

#include "globals.hh"

#include "G4INCLNuclearPotentialEnergyIsospinSmooth.hh"
#include "G4INCLParticleTable.hh"
#include "G4INCLGlobals.hh"

namespace G4INCL {

  namespace NuclearPotential {

    const G4double NuclearPotentialEnergyIsospinSmooth::alpha= 0.223;
    const G4double NuclearPotentialEnergyIsospinSmooth::deltaE= 25.;

    // Constructors
    NuclearPotentialEnergyIsospinSmooth::NuclearPotentialEnergyIsospinSmooth(const G4int A, const G4int Z, const G4bool aPionPotential)
      : NuclearPotentialIsospin(A,Z,aPionPotential)
    {}

    // Destructor
    NuclearPotentialEnergyIsospinSmooth::~NuclearPotentialEnergyIsospinSmooth() {}

    G4double NuclearPotentialEnergyIsospinSmooth::computePotentialEnergy(const Particle *particle) const {

      const G4double v0 = NuclearPotentialIsospin::computePotentialEnergy(particle);

      if(particle->isNucleon()) {
        const G4double t = particle->getKineticEnergy();
        const G4double tf = getFermiEnergy(particle);
        // Constant potential for T<Tf
        if(t < tf)
          return v0;

        // Linear function for Tf<T<T0, exponential function for T>T0
        const G4double t0 = tf + v0*(1.-alpha)/alpha - deltaE; // deltaE before the linear potential vanishes
        G4double v;
        if(t<t0) {
          v = v0 - alpha*(t-tf)/(1.-alpha);
        } else {
          const G4double v_at_t0 = v0 - alpha*(t0-tf)/(1.-alpha);
          const G4double kappa = alpha / (v_at_t0 * (1.-alpha));
          v = v_at_t0 * std::exp(kappa * (t0-t));
        }
        return (v>0.0) ? v : 0.0;
      } else
        return v0;
    }

  }
}