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// $Id: G4ForwardXrayTR.hh,v 1.14 2006/06/29 19:55:33 gunter Exp $
// GEANT4 tag $Name: geant4-09-02-ref-02 $
//
// G4ForwardXrayTR -- header file
//
// Class for description of forward X-ray transition radiation generated
// by relativistic charged particle crossed interface between material 1
// and material 2 (1 -> 2)
//
// GEANT 4 class header file --- Copyright CERN 1995
// CERB Geneva Switzerland
//
// for information related to this code, please, contact
// CERN, CN Division, ASD Group
// History:
// 22.09.97, V. Grichine (Vladimir.Grichine@cern.ch)
// 26.01.00, V.Grichine, new constructor and protected DM for fast sim. models
// 10.03.03, V.Ivanchenko migrade to "cut per region"
// 03.06.03, V.Ivanchenko fix compilation warnings

#ifndef G4FORWARDXRAYTR_H
#define G4FORWARDXRAYTR_H


#include "globals.hh"
#include "templates.hh"
#include "geomdefs.hh"
#include "Randomize.hh"
#include "G4Step.hh"
#include "G4VDiscreteProcess.hh"
#include "G4DynamicParticle.hh"
#include "G4Material.hh"
#include "G4LogicalBorderSurface.hh"
#include "G4LogicalSkinSurface.hh"
#include "G4OpticalSurface.hh"
#include "G4OpticalPhoton.hh"
#include "G4TransportationManager.hh"

#include "G4TransitionRadiation.hh"
#include "G4PhysicsTable.hh"
#include "G4Gamma.hh"
#include "G4PhysicsLogVector.hh"

class G4ForwardXrayTR : public G4TransitionRadiation
{
public:

// Constructors

  //     G4ForwardXrayTR() ;


  G4ForwardXrayTR(  const G4String& matName1,    //  G4Material* pMat1,
		    const G4String& matName2,    //  G4Material* pMat2,     
                    const G4String& processName="XrayTR"     ) ;
  
  G4ForwardXrayTR(  const G4String& processName="XrayTR"     ) ;

//  G4ForwardXrayTR(const G4ForwardXrayTR& right) ;

// Destructor //  virtual

 ~G4ForwardXrayTR() ;

// Operators
// G4ForwardXrayTR& operator=(const G4ForwardXrayTR& right) ;
// G4int operator==(const G4ForwardXrayTR& right)const ;
// G4int operator!=(const G4ForwardXrayTR& right)const ;

///////////////////////    Methods    /////////////////////////////////

        void BuildXrayTRtables();

	G4double GetMeanFreePath(const G4Track&,
				 G4double,
				 G4ForceCondition* condition)
        {
          *condition = Forced;
	  return DBL_MAX;      // so TR doesn't limit mean free path
        }

	G4VParticleChange* PostStepDoIt( const G4Track& aTrack,
				         const G4Step&  aStep    )   ;

        G4double GetEnergyTR(G4int iMat, G4int jMat, G4int iTkin) const ;
       
        G4double GetThetaTR(G4int iMat, G4int jMat, G4int iTkin) const ;     


///////////////////// Angle distribution  /////////////////////////////
//

G4double SpectralAngleTRdensity( G4double energy,
                                 G4double varAngle ) const;


G4double AngleDensity( G4double energy,
                       G4double varAngle ) const  ;

G4double EnergyInterval( G4double energy1,
                         G4double energy2,
                         G4double varAngle ) const ;

G4double AngleSum( G4double varAngle1,
                   G4double varAngle2     )   const ;

/////////////////////////  Energy distribution ///////////////////////////////

G4double SpectralDensity( G4double energy,
                          G4double x       ) const ;

G4double AngleInterval( G4double energy,
                        G4double varAngle1,
                        G4double varAngle2   ) const ;

G4double EnergySum( G4double energy1,
                    G4double energy2     )   const ;


///////////////////////////   Access functions  ////////////////////////////

  G4PhysicsTable* GetAngleDistrTable()  { return fAngleDistrTable  ; } ;
  G4PhysicsTable* GetEnergyDistrTable() { return fEnergyDistrTable ; } ;

  static G4int    GetSympsonNumber()       { return fSympsonNumber ;  } ;
  static G4int            GetBinTR()       { return fBinTR ;       } ;

  static G4double GetMinProtonTkin()       { return fMinProtonTkin ; } ;
  static G4double GetMaxProtonTkin()       { return fMaxProtonTkin ; } ;
  static G4int           GetTotBin()       { return fTotBin ;       } ;


protected :  // for access from X-ray TR fast simulation models

  // private :  ///////////////  Data members   ///////////////////////////

G4ParticleDefinition* fPtrGamma ;  // pointer to TR photon

const std::vector<G4double>* fGammaCutInKineticEnergy ;
                                     // TR photon cut in energy array
G4double  fGammaTkinCut ;            // Tkin cut of TR photon in current mat.

G4PhysicsTable* fAngleDistrTable ;
G4PhysicsTable* fEnergyDistrTable ;

static G4PhysicsLogVector* fProtonEnergyVector ;

static G4int fSympsonNumber ;                // Accuracy of Sympson integration 

static G4double fTheMinEnergyTR ;            //  static min TR energy
static G4double fTheMaxEnergyTR ;            //  static max TR energy
       G4double fMinEnergyTR ;               //  min TR energy in material
       G4double fMaxEnergyTR ;               //  max TR energy in material
static G4double  fTheMaxAngle ;               //  max theta of TR quanta
static G4double  fTheMinAngle ;               //  max theta of TR quanta
       G4double  fMaxThetaTR ;               //  max theta of TR quanta
static G4int          fBinTR ;               //  number of bins in TR vectors

static G4double fMinProtonTkin ;             // min Tkin of proton in tables
static G4double fMaxProtonTkin ;             // max Tkin of proton in tables
static G4int    fTotBin        ;             // number of bins in log scale
       G4double fGamma         ;             // current Lorentz factor

static G4double fPlasmaCof ;               // physical consts for plasma energy
static G4double fCofTR ;

G4double fSigma1 ;                       // plasma energy Sq of matter1
G4double fSigma2 ;                       // plasma energy Sq of matter2


} ;    // end of G4ForwardXrayTR class ---------------------------




#endif   // G4FORWARDXRAYTR_H