G4MicroElecElasticModel.hh

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//
// G4MicroElecElasticModel.hh, 2011/08/29 A.Valentin, M. Raine
//
// Based on the following publications
//      - Geant4 physics processes for microdosimetry simulation:
//      very low energy electromagnetic models for electrons in Si,
//       NIM B, vol. 288, pp. 66 - 73, 2012.
//
//
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#ifndef G4MicroElecElasticModel_h
#define G4MicroElecElasticModel_h 1

#include <map>
#include <CLHEP/Units/SystemOfUnits.h>

#include "G4MicroElecCrossSectionDataSet.hh"
#include "G4VEmModel.hh"
#include "G4Electron.hh"
#include "G4ParticleChangeForGamma.hh"
#include "G4LogLogInterpolation.hh"
#include "G4ProductionCutsTable.hh"
#include "G4NistManager.hh"

class G4MicroElecElasticModel : public G4VEmModel
{

public:

  G4MicroElecElasticModel(const G4ParticleDefinition* p = 0, 
                  const G4String& nam = "MicroElecElasticModel");

  virtual ~G4MicroElecElasticModel();

  virtual void Initialise(const G4ParticleDefinition*, const G4DataVector&);

  virtual G4double CrossSectionPerVolume(const G4Material* material,
                       const G4ParticleDefinition* p,
                       G4double ekin,
                       G4double emin,
                       G4double emax);

  virtual void SampleSecondaries(std::vector<G4DynamicParticle*>*,
                 const G4MaterialCutsCouple*,
                 const G4DynamicParticle*,
                 G4double tmin,
                 G4double maxEnergy);

  inline void SetKillBelowThreshold (G4double threshold);        
  G4double GetKillBelowThreshold () { return killBelowEnergy; } 

protected:

  G4ParticleChangeForGamma* fParticleChangeForGamma;

private:

  G4Material* nistSi;
  G4double killBelowEnergy;  
  G4double lowEnergyLimit;  
  G4double lowEnergyLimitOfModel;  
  G4double highEnergyLimit; 
  G4bool isInitialised;
  G4int verboseLevel;
  
  // Cross section
  
  typedef std::map<G4String,G4String,std::less<G4String> > MapFile;
  MapFile tableFile;

  typedef std::map<G4String,G4MicroElecCrossSectionDataSet*,std::less<G4String> > MapData;
  MapData tableData;
  
  // Final state

  G4double Theta(G4ParticleDefinition * aParticleDefinition, G4double k, G4double integrDiff);

  G4double LogLogInterpolate(G4double e1, G4double e2, G4double e, G4double xs1, G4double xs2);
   
  G4double LinLogInterpolate(G4double e1, G4double e2, G4double e, G4double xs1, G4double xs2);
   
  G4double QuadInterpolator(G4double e11, 
                    G4double e12, 
                G4double e21, 
                G4double e22, 
                G4double x11,
                G4double x12, 
                G4double x21, 
                G4double x22, 
                G4double t1, 
                G4double t2, 
                G4double t, 
                G4double e);

  typedef std::map<double, std::map<double, double> > TriDimensionMap;

  TriDimensionMap eDiffCrossSectionData;
  std::vector<double> eTdummyVec;

  typedef std::map<double, std::vector<double> > VecMap;
  VecMap eVecm;
   
  G4double RandomizeCosTheta(G4double k);
   
  //
   
  G4MicroElecElasticModel & operator=(const  G4MicroElecElasticModel &right);
  G4MicroElecElasticModel(const  G4MicroElecElasticModel&);

};

inline void G4MicroElecElasticModel::SetKillBelowThreshold (G4double threshold) 
{ 
    killBelowEnergy = threshold; 
    
    if (threshold < 5*CLHEP::eV)
    {
       G4Exception ("*** WARNING : the G4MicroElecElasticModel class is not validated below 5 eV !","",JustWarning,"") ;
       threshold = 0.025*CLHEP::eV;
    }
             
}        


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#endif