G4MuPairProduction.cc

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// $Id: G4MuPairProduction.cc 72942 2013-08-14 13:37:37Z gcosmo $
//
// -------------------------------------------------------------------
//
// GEANT4 Class file
//
//
// File name:     G4MuPairProduction
//
// Author:        Laszlo Urban
//
// Creation date: 30.05.1998
//
// Modifications:
//
// 04-06-98 in DoIt,secondary production condition:
//          range>std::min(threshold,safety)
// 26-10-98 new stuff from R. Kokoulin + cleanup , L.Urban
// 06-05-99 bug fixed , L.Urban
// 10-02-00 modifications+bug fix , new e.m. structure, L.Urban
// 29-05-01 V.Ivanchenko minor changes to provide ANSI -wall compilation
// 10-08-01 new methods Store/Retrieve PhysicsTable (mma)
// 17-09-01 migration of Materials to pure STL (mma)
// 20-09-01 (L.Urban) in ComputeMicroscopicCrossSection, remove:
//          if(MaxPairEnergy<CutInPairEnergy) MaxPairEnergy=CutInPairEnergy
// 26-09-01 completion of store/retrieve PhysicsTable
// 28-09-01 suppression of theMuonPlus ..etc..data members (mma)
// 29-10-01 all static functions no more inlined (mma)
// 07-11-01 particleMass becomes a local variable (mma)
// 19-08-02 V.Ivanchenko update to new design
// 23-12-02 Change interface in order to move to cut per region (V.Ivanchenko)
// 26-12-02 Secondary production moved to derived classes (V.Ivanchenko)
// 13-02-03 SubCutoff regime is assigned to a region (V.Ivanchenko)
// 08-08-03 STD substitute standard  (V.Ivanchenko)
// 27-09-03 e+ set to be a secondary particle (V.Ivanchenko)
// 12-11-03 G4EnergyLossSTD -> G4EnergyLossProcess (V.Ivanchenko)
// 10-02-04 Add lowestKinEnergy (V.Ivanchenko)
// 17-08-04 Utilise mu+ tables for mu- (V.Ivanchenko)
// 08-11-04 Migration to new interface of Store/Retrieve tables (V.Ivantchenko)
// 08-04-05 Major optimisation of internal interfaces (V.Ivantchenko)
//
// -------------------------------------------------------------------
//
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#include "G4MuPairProduction.hh"
#include "G4SystemOfUnits.hh"
#include "G4Positron.hh"
#include "G4VEmModel.hh"
#include "G4MuPairProductionModel.hh"
#include "G4ElementData.hh"

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using namespace std;

G4MuPairProduction::G4MuPairProduction(const G4String& name)
  : G4VEnergyLossProcess(name),
    theParticle(0),
    lowestKinEnergy(1.*GeV),
    isInitialised(false)
{
  SetProcessSubType(fPairProdByCharged);
  SetSecondaryParticle(G4Positron::Positron());
  SetIonisation(false);
}

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G4MuPairProduction::~G4MuPairProduction()
{}

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G4bool G4MuPairProduction::IsApplicable(const G4ParticleDefinition& p)
{
  return (p.GetPDGCharge() != 0.0 && p.GetPDGMass() > 10.0*MeV);
}

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G4double G4MuPairProduction::MinPrimaryEnergy(const G4ParticleDefinition*,
                          const G4Material*,
                          G4double)
{
  return lowestKinEnergy;
}

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void G4MuPairProduction::InitialiseEnergyLossProcess(
                         const G4ParticleDefinition* part,
             const G4ParticleDefinition*)
{
  if (!isInitialised) {
    isInitialised = true;

    theParticle = part;

    if (!EmModel()) { SetEmModel(new G4MuPairProductionModel(part)); }

    G4double limit = part->GetPDGMass()*8;
    if(limit > lowestKinEnergy) { lowestKinEnergy = limit; }

    G4VEmFluctuationModel* fm = 0;
    EmModel()->SetLowEnergyLimit(MinKinEnergy());
    EmModel()->SetHighEnergyLimit(MaxKinEnergy());
    AddEmModel(1, EmModel(), fm);
  }
}

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void G4MuPairProduction::PrintInfo()
{
  G4ElementData* ed = EmModel()->GetElementData();
  if(ed) {
    for(G4int Z=1; Z<93; ++Z) {
      G4Physics2DVector* pv = ed->GetElement2DData(Z);
      if(pv) {
        G4cout << "      Sampling table " << pv->GetLengthY()
           << "x" << pv->GetLengthX() << "; from "
           << exp(pv->GetY(0))/GeV << " GeV to " 
           << exp(pv->GetY(pv->GetLengthY()-1))/TeV 
           << " TeV " << G4endl;
    break;
      }
    }
  }
}

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