G4PiMinusStopAl.cc

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//
//      File name:     G4PiMinusStopAl
//
//      Author:        Maria Grazia Pia ([email protected])
// 
//      Creation date: 8 May 1998
//
// -------------------------------------------------------------------
 
#include "G4ios.hh"
 
#include "G4PiMinusStopAl.hh"
 
#include "globals.hh"
#include "Randomize.hh"
#include "G4Proton.hh"
#include "G4Neutron.hh"
#include "G4ParticleTypes.hh"
#include "G4ReactionKinematics.hh"
#include "G4DynamicParticleVector.hh"
#include "G4LorentzVector.hh"
#include "G4PiMinusStopMaterial.hh"
#include "G4DistributionGenerator.hh"
 
// np/pp production ratio
// Experimental values: 
// R(np/pp) = average (E. Gadioli et al., Phys Rev C36 (1987) 741)
G4double G4PiMinusStopAl::npRatio = 4;
 
// Average numbers of final nucleons detected, for N-pair absorption
// (R. Madey  et al., Phys Rev C25 (1982) 3050
G4double G4PiMinusStopAl::nFinalNucleons = 1.67;
 
// Kinetic energy (MeV) distributions measured for coincident nucleon 
// emission
// (R. Madey  et al., Phys Rev C25 (1982) 3050
 
G4int G4PiMinusStopAl::eKinEntries = 10;
 
G4double G4PiMinusStopAl::eKinData[10] = { 0.23, 0.58, 1.24, 1.52,
                                     1.67, 
                     1.52, 1.24, 0.95, 0.58, 0.23};
 
G4double G4PiMinusStopAl::eKin[11] = { 5.2, 15., 27., 41.5,
                                  49.6,
                  57.7, 79.3, 94.4, 114., 125., 140.};
 
 
// Opening angle distributions measured for coincident nucleon emission
// (P.Heusi et al., Nucl. Phys. A407 (1983) 429
 
G4int G4PiMinusStopAl::angleEntries = 7;
 
G4double G4PiMinusStopAl::angleData[7] = 
{ 1.43, 1.67, 2.62, 4.29, 7.62, 11.90, 14.76 };
 
G4double G4PiMinusStopAl::angle[8] = { 1.308997, 1.570796, 1.832596, 2.094395, 
                  2.356194, 2.617994, 2.967060, 3.1415927 };
 
 
 
// Constructor
 
G4PiMinusStopAl::G4PiMinusStopAl()
  
{
  // Cluster size: nucleon pair, alpha, triton etc.
  // First implementation: interaction with nucleon pair only
  _clusterSize = 2;
 
  // R ratio
  theR = 1. / (1. + npRatio);
 
  _definitions = new std::vector<G4ParticleDefinition*>();
  _momenta = new std::vector<G4LorentzVector*>();
 
  std::vector<double> eKinVector;
  std::vector<double> eKinDataVector;
  int i;
  for (i=0; i<eKinEntries; i++)
    {
      eKinVector.push_back(eKin[i]);
      eKinDataVector.push_back(eKinData[i]);
    }
  eKinVector.push_back(eKin[eKinEntries]);
  _distributionE = new G4DistributionGenerator(eKinVector,eKinDataVector);
 
  std::vector<double> angleVector;
  std::vector<double> angleDataVector;
  for (i=0; i<angleEntries; i++)
    {
      angleVector.push_back(angle[i]);
      angleDataVector.push_back(angleData[i]);
    }
  angleVector.push_back(angle[angleEntries]);
  _distributionAngle = new G4DistributionGenerator(angleVector,angleDataVector);
}
 
 
// Destructor
 
G4PiMinusStopAl::~G4PiMinusStopAl()
{}
 
G4double G4PiMinusStopAl::FinalNucleons()
{
  return nFinalNucleons;
}