source: trunk/source/processes/electromagnetic/lowenergy/include/G4PenelopeCrossSection.hh @ 1350

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// $Id: G4PenelopeCrossSection.hh,v 1.1 2010/07/26 09:56:42 pandola Exp $
// GEANT4 tag $Name: geant4-09-04-ref-00 $
//
// Author: Luciano Pandola
//
// History:
// -----------
// 18 Mar 2010   L. Pandola   1st implementation. 
//
// -------------------------------------------------------------------
//
// Class description:
// This class is a container for cross sections and transport momenta 
// calculated by Penelope models (ionisation, bremsstrahlung). It stores 
// PhysicsTables/PhysicsVectors of
// a) the "hard quantities" (above the threshold), 0-th order (cross section) 
//     1-st order (= stopping XS), 2-nd order (= straggling XS)
// b) the "soft quantities" (below threshold), 0-th order (cross section) 
//     1-st order (= stopping XS), 2-nd order (= straggling XS)
// c) total hard cross sections for individual oscillators
// vs. energy.
// 
// The interface *always* uses energy and cross sections, while internally 
// log(energy) and log(XS) are used.
//
// One instance per each cut-material couple should be created by the 
// calling class. 
//
// Public method to retrieve hard cross section, soft stopping power, 
// total cross section and hard shell cross sections.
//
// The method NormalizeShellCrossSections() normalizes the 
// shell cross sections by retrieving the total hard cross section. 
// Used for sampling.
//
// Notice: all quantities stored here are *per molecule*
//
// -------------------------------------------------------------------

#ifndef G4PENELOPECROSSSECTION_HH
#define G4PENELOPECROSSSECTION_HH 1

#include "globals.hh"

class G4PhysicsTable;
class G4DataVector;

class G4PenelopeCrossSection
{

public:
  //constructor: one has to give the number of points in each PhysicsVector 
  //(= dimension of the energy grid) and the number of shells (0 is the 
  //default).
  G4PenelopeCrossSection(size_t nOfEnergyPoints,size_t nOfShells=0);
  //
  ~G4PenelopeCrossSection();

  G4double GetTotalCrossSection(G4double energy);
  G4double GetHardCrossSection(G4double energy);
  G4double GetSoftStoppingPower(G4double energy);
  G4double GetShellCrossSection(size_t shellID,G4double energy);

  size_t GetNumberOfShells(){return numberOfShells;};

  void AddCrossSectionPoint(size_t binNumber, 
                            G4double energy,G4double XH0, G4double XH1, 
                            G4double XH2,
                            G4double XS0, G4double XS1, G4double XS2);

  void AddShellCrossSectionPoint(size_t binNumber,
                                 size_t shellID,G4double energy,G4double xs);

  void NormalizeShellCrossSections();

private:
  G4PenelopeCrossSection & operator=(const G4PenelopeCrossSection &right);
  G4PenelopeCrossSection(const G4PenelopeCrossSection&);

  G4bool isNormalized;

  size_t numberOfEnergyPoints;
  size_t numberOfShells;

  //all tables are log. XS vs. log E

  //XS0, XS1, XS2 in Penelope nomenclature
  G4PhysicsTable* softCrossSections;

  //XH0, XH1, XH2 in Penelope nomenclature
  G4PhysicsTable* hardCrossSections;
  
  //XS for individual shells
  G4PhysicsTable* shellCrossSections;

};

#endif