source: trunk/source/processes/electromagnetic/standard/src/G4alphaIonisation.cc@ 1199

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// $Id: G4alphaIonisation.cc,v 1.1 2009/11/10 11:50:30 vnivanch Exp $
// GEANT4 tag $Name: geant4-09-03-cand-01 $
//
// -------------------------------------------------------------------
//
// GEANT4 Class file
//
//
// File name:     G4alphaIonisation
//
// Author:        Vladimir Ivanchenko
//
// Creation date: 28.10.2009 created from G4ionIonisation
//
// Modifications:
//
//
//
// -------------------------------------------------------------------
//
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#include "G4alphaIonisation.hh"
#include "G4Electron.hh"
#include "G4Alpha.hh"
#include "G4BraggIonModel.hh"
#include "G4BetheBlochModel.hh"
#include "G4UnitsTable.hh"
#include "G4LossTableManager.hh"
#include "G4IonFluctuations.hh"
#include "G4UniversalFluctuation.hh"

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using namespace std;

G4alphaIonisation::G4alphaIonisation(const G4String& name)
  : G4VEnergyLossProcess(name),
    theParticle(0),
    isInitialised(false),
    nuclearStopping(true)
{
  //  SetLinearLossLimit(0.15);
  SetStepFunction(0.2, 0.1*mm);
  //  SetIntegral(true);
  SetProcessSubType(fIonisation);
  //  SetVerboseLevel(1);
  mass = 0.0;
  ratio = 0.0;
}

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G4alphaIonisation::~G4alphaIonisation()
{}

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G4bool G4alphaIonisation::IsApplicable(const G4ParticleDefinition& p)
{
  return (p.GetPDGCharge() == 2*eplus);
}

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G4double G4alphaIonisation::MinPrimaryEnergy(const G4ParticleDefinition*, 
                                             const G4Material*, 
                                             G4double cut)
{
  G4double x = 0.5*cut/electron_mass_c2;
  G4double g = x*ratio + std::sqrt((1. + x)*(1. + x*ratio*ratio));
  return mass*(g - 1.0);
}

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void G4alphaIonisation::InitialiseEnergyLossProcess(
                      const G4ParticleDefinition* part,
                      const G4ParticleDefinition* bpart)
{
  if(!isInitialised) {

    theParticle = part;
    G4String pname = part->GetParticleName();

    // define base particle
    const G4ParticleDefinition* theBaseParticle = 0;
    if(bpart == 0) { 
      if(pname != "alpha") { theBaseParticle = G4Alpha::Alpha(); }
    } else { theBaseParticle = bpart; }

    mass  = part->GetPDGMass();
    ratio = electron_mass_c2/mass;

    SetBaseParticle(theBaseParticle);
    SetSecondaryParticle(G4Electron::Electron());

    if (!EmModel(1)) SetEmModel(new G4BraggIonModel(), 1);
    EmModel(1)->SetLowEnergyLimit(MinKinEnergy());

    // model limit defined for alpha
    eth = (EmModel(1)->HighEnergyLimit())*mass/proton_mass_c2;
    EmModel(1)->SetHighEnergyLimit(eth);

    if (!FluctModel()) SetFluctModel(new G4UniversalFluctuation());
    AddEmModel(1, EmModel(1), new G4IonFluctuations());

    if (!EmModel(2)) SetEmModel(new G4BetheBlochModel(),2);  
    EmModel(2)->SetLowEnergyLimit(eth);
    EmModel(2)->SetHighEnergyLimit(MaxKinEnergy());
    AddEmModel(2, EmModel(2), FluctModel());    

    isInitialised = true;
  }
  // reinitialisation of corrections for the new run
  EmModel(1)->ActivateNuclearStopping(nuclearStopping);
  EmModel(2)->ActivateNuclearStopping(nuclearStopping);
}

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void G4alphaIonisation::PrintInfo()
{
  if (G4Alpha::Alpha() == theParticle) {
    if(EmModel(1) && EmModel(2)) {
      G4cout << "      NuclearStopping= " << nuclearStopping
             << G4endl;
    }
  }
}

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