G4ChipsAntiBaryonElasticXS.hh

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// GEANT4 tag $Name: not supported by cvs2svn $
//
//
// GEANT4 physics class: G4ChipsAntiBaryonElasticXS -- header file
// M.V. Kossov, ITEP(Moscow), 5-Feb-2010
// The last update: M.V. Kossov, CERN/ITEP (Moscow) 5-Feb-2010
//
//
// -------------------------------------------------------------------------------
// Short description: Interaction cross-sections for the elastic process. 
// Class extracted from CHIPS and integrated in Geant4 by W.Pokorski
// -------------------------------------------------------------------------------

#ifndef G4ChipsAntiBaryonElasticXS_h
#define G4ChipsAntiBaryonElasticXS_h 1

#include <vector>
#include "Randomize.hh"
#include "G4VCrossSectionDataSet.hh"

class G4ChipsAntiBaryonElasticXS  : public G4VCrossSectionDataSet
{

public:

  G4ChipsAntiBaryonElasticXS();               // Constructor

  ~G4ChipsAntiBaryonElasticXS();

  static const char* Default_Name() {return "ChipsAntiBaryonElasticXS";}

  virtual G4bool IsIsoApplicable(const G4DynamicParticle* Pt, G4int Z, G4int A,    
                 const G4Element* elm,
                 const G4Material* mat );

  // At present momentum (pMom) in MeV/c, CS in mb (@@ Units)
  virtual G4double GetIsoCrossSection(const G4DynamicParticle*, G4int tgZ, G4int A,  
                      const G4Isotope* iso = 0,
                      const G4Element* elm = 0,
                      const G4Material* mat = 0);

  virtual G4double GetChipsCrossSection(G4double momentum, G4int Z, G4int N, G4int pdg);

  G4double GetExchangeT(G4int tZ, G4int tN, G4int pPDG); // Randomizes -t=Q2 (in IU=MeV^2)

private:

  G4double CalculateCrossSection(G4bool CS, G4int F, G4int I, G4int pPDG, G4int Z, G4int N,
                                                                              G4double pP);
  G4double GetSlope(G4int tZ, G4int tN, G4int pPDG);     // Slope of the 1st diff. maximum
  G4double GetHMaxT();                   // Currrent Max(-t=Q2)/2. (in IU=MeV^2)

  G4double GetPTables(G4double lpP, G4double lPm, G4int PDG, G4int tZ, G4int tN); // newLP
  G4double GetTabValues(G4double lp, G4int pPDG, G4int tgZ, G4int tgN); // return CS(Si/Bi)
  G4double GetQ2max(G4int pPDG, G4int tgZ, G4int tgN, G4double pP); // return -t=Q2

// Body
private:

  // --- Data formating AMDB (define the precalculated table structure) ---
   const G4int nPoints;// #of points in the AMDB tables     
   const G4int nLast;  // the Last element in the table
   G4double    lPMin;  // Min tabulated logarithmic Momentum  
   G4double    lPMax;  // Max tabulated logarithmic Momentum  
   G4double    dlnP;   // Log step in the table     
  // ---- Local (for particular pP, pPDG, tZ, tN) -----
   G4bool    onlyCS;   // flag to calculate only CS (not S1/B1,S2/B2,S3/B3)
   G4double  lastSIG;  // Last calculated cross section
   G4double  lastLP;   // Last log(mom_of_the_incident_hadron in GeV)
   G4double  lastTM;   // Last t_maximum                       
   G4int     lastN;    // The last N of calculated nucleus
   G4int     lastZ;    // The last Z of calculated nucleus
   G4double  lastP;    // Last used in the cross section Momentum
   G4double  lastTH;   // Last value of the Momentum Threshold
   G4double  lastCS;   // Last value of the Cross Section
   G4int     lastI;    // The last position in the DAMDB
   G4double  theSS;    // The Last squared slope of first diffruction 
   G4double  theS1;    // The Last mantissa of first diffruction 
   G4double  theB1;    // The Last slope of first diffruction    
   G4double  theS2;    // The Last mantissa of second diffruction
   G4double  theB2;    // The Last slope of second diffruction   
   G4double  theS3;    // The Last mantissa of third diffruction 
   G4double  theB3;    // The Last slope of third diffruction    
   G4double  theS4;    // The Last mantissa of 4-th diffruction 
   G4double  theB4;    // The Last slope of 4-th diffruction    
  // ---- Global (AMBD of P-dependent tables for pPDG,tZ,tN) -----
   G4int     lastTZ;   // Last atomic number of the target
   G4int     lastTN;   // Last number of neutrons of the target
   G4double  lastPIN;  // Last initialized max momentum
   G4double* lastCST;  // Last cross-section table
   G4double* lastPAR;  // Last parameters for functional calculation
   G4double* lastSST;  // E-dep of squared slope of the first difruction 
   G4double* lastS1T;  // E-dep of mantissa of the first difruction 
   G4double* lastB1T;  // E-dep of the slope of the first difruction
   G4double* lastS2T;  // E-dep of mantissa of the second difruction
   G4double* lastB2T;  // E-dep of the slope of theSecond difruction
   G4double* lastS3T;  // E-dep of mantissa of the third difruction 
   G4double* lastB3T;  // E-dep of the slope of the third difruction
   G4double* lastS4T;  // E-dep of mantissa of the 4-th difruction 
   G4double* lastB4T;  // E-dep of the slope of the 4-th difruction

   std::vector <G4double*> PAR;   // Vector of parameters for functional calculations
   std::vector <G4double*> CST;   // Vector of cross-section table
   std::vector <G4double*> SST;   // Vector of the first squared slope
   std::vector <G4double*> S1T;   // Vector of the first mantissa
   std::vector <G4double*> B1T;   // Vector of the first slope
   std::vector <G4double*> S2T;   // Vector of the secon mantissa
   std::vector <G4double*> B2T;   // Vector of the second slope
   std::vector <G4double*> S3T;   // Vector of the third mantissa
   std::vector <G4double*> B3T;   // Vector of the third slope
   std::vector <G4double*> S4T;   // Vector of the 4-th mantissa (gloria)
   std::vector <G4double*> B4T;   // Vector of the 4-th slope    (gloria)
 };
#endif