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Please see the license in the file LICENSE and URL above * 16 // * for the full disclaimer and the limitatio 16 // * for the full disclaimer and the limitation of liability. * 17 // * 17 // * * 18 // * This code implementation is the result 18 // * This code implementation is the result of the scientific and * 19 // * technical work of the GEANT4 collaboratio 19 // * technical work of the GEANT4 collaboration. * 20 // * By using, copying, modifying or distri 20 // * By using, copying, modifying or distributing the software (or * 21 // * any work based on the software) you ag 21 // * any work based on the software) you agree to acknowledge its * 22 // * use in resulting scientific publicati 22 // * use in resulting scientific publications, and indicate your * 23 // * acceptance of all terms of the Geant4 Sof 23 // * acceptance of all terms of the Geant4 Software license. * 24 // ******************************************* 24 // ******************************************************************** 25 // 25 // >> 26 // $Id: G4PenelopeIonisationXSHandler.hh 74626 2013-10-17 07:00:59Z gcosmo $ 26 // 27 // 27 // Author: Luciano Pandola 28 // Author: Luciano Pandola 28 // 29 // 29 // History: 30 // History: 30 // ----------- 31 // ----------- 31 // 09 Mar 2012 L. Pandola 1st implementati 32 // 09 Mar 2012 L. Pandola 1st implementation. 32 // 33 // 33 // ------------------------------------------- 34 // ------------------------------------------------------------------- 34 // 35 // 35 //! Class description: 36 //! Class description: 36 //! This class is meant to calculate, store a 37 //! This class is meant to calculate, store and provide the shell-per-shell 37 //! and the total ionisation cross section ca 38 //! and the total ionisation cross section calculated by the Penelope model. 38 //! The information is provided to other physi 39 //! The information is provided to other physics models, notably: Penelope 39 //! ionisation model and Penelope "PIXE" model 40 //! ionisation model and Penelope "PIXE" model. Cross sections are calculated 40 //! per material-cut couple and stored as G4Pe 41 //! per material-cut couple and stored as G4PenelopeCrossSection objects. 41 //! 42 //! 42 // ------------------------------------------- 43 // ------------------------------------------------------------------- 43 44 44 #ifndef G4PENELOPEIONISATIONXSHANDLER_HH 45 #ifndef G4PENELOPEIONISATIONXSHANDLER_HH 45 #define G4PENELOPEIONISATIONXSHANDLER_HH 1 46 #define G4PENELOPEIONISATIONXSHANDLER_HH 1 46 47 47 #include "globals.hh" 48 #include "globals.hh" 48 #include "G4DataVector.hh" 49 #include "G4DataVector.hh" 49 #include "G4Material.hh" 50 #include "G4Material.hh" 50 #include <map> 51 #include <map> 51 52 52 class G4PhysicsFreeVector; 53 class G4PhysicsFreeVector; 53 class G4PhysicsLogVector; 54 class G4PhysicsLogVector; 54 class G4ParticleDefinition; 55 class G4ParticleDefinition; 55 class G4PenelopeOscillatorManager; 56 class G4PenelopeOscillatorManager; 56 class G4PenelopeOscillator; 57 class G4PenelopeOscillator; 57 class G4PenelopeCrossSection; 58 class G4PenelopeCrossSection; 58 59 59 class G4PenelopeIonisationXSHandler 60 class G4PenelopeIonisationXSHandler 60 { 61 { >> 62 61 public: 63 public: 62 //! Constructor. nBins is the number of inte 64 //! Constructor. nBins is the number of intervals in the 63 //! energy grid. By default the energy grid 65 //! energy grid. By default the energy grid goes from 100 eV 64 //! to 100 GeV. 66 //! to 100 GeV. 65 explicit G4PenelopeIonisationXSHandler(size_ << 67 G4PenelopeIonisationXSHandler(size_t nBins=200); 66 68 67 //! Destructor. Clean all tables. 69 //! Destructor. Clean all tables. 68 virtual ~G4PenelopeIonisationXSHandler(); 70 virtual ~G4PenelopeIonisationXSHandler(); 69 71 70 //!Returns the density coeection for the mat 72 //!Returns the density coeection for the material at the given energy 71 G4double GetDensityCorrection(const G4Materi 73 G4double GetDensityCorrection(const G4Material*,const G4double energy) const; 72 //! Returns the table of cross sections for 74 //! Returns the table of cross sections for the given particle, given 73 //! material and given cut as a G4PenelopeCr 75 //! material and given cut as a G4PenelopeCrossSection* pointer. 74 const G4PenelopeCrossSection* GetCrossSectio 76 const G4PenelopeCrossSection* GetCrossSectionTableForCouple(const G4ParticleDefinition*, 75 const G4Material*,const G4 77 const G4Material*,const G4double cut) const; 76 //!Setter for the verbosity level 78 //!Setter for the verbosity level 77 void SetVerboseLevel(G4int vl){fVerboseLevel << 79 void SetVerboseLevel(G4int vl){verboseLevel = vl;}; 78 80 79 //! This can be inkoved only by the master 81 //! This can be inkoved only by the master 80 void BuildXSTable(const G4Material*,G4double 82 void BuildXSTable(const G4Material*,G4double cut, 81 const G4ParticleDefinition*,G4bool isM 83 const G4ParticleDefinition*,G4bool isMaster=true); 82 84 83 G4PenelopeIonisationXSHandler & operator=(co << 84 G4PenelopeIonisationXSHandler(const G4Penelo << 85 << 86 private: 85 private: >> 86 G4PenelopeIonisationXSHandler & operator=(const G4PenelopeIonisationXSHandler &right); >> 87 G4PenelopeIonisationXSHandler(const G4PenelopeIonisationXSHandler&); >> 88 87 void BuildDeltaTable(const G4Material*); 89 void BuildDeltaTable(const G4Material*); 88 90 89 G4DataVector* ComputeShellCrossSectionsElect 91 G4DataVector* ComputeShellCrossSectionsElectron(G4PenelopeOscillator* , 90 G4double energy,G4double cut, 92 G4double energy,G4double cut, 91 G4double delta); 93 G4double delta); 92 94 93 G4DataVector* ComputeShellCrossSectionsPosit 95 G4DataVector* ComputeShellCrossSectionsPositron(G4PenelopeOscillator* , 94 G4double energy,G4double cut, 96 G4double energy,G4double cut, 95 G4double 97 G4double delta); 96 98 97 //Oscillator manager 99 //Oscillator manager 98 G4PenelopeOscillatorManager* fOscManager; << 100 G4PenelopeOscillatorManager* oscManager; 99 101 100 //G4PenelopeCrossSection takes care of the l 102 //G4PenelopeCrossSection takes care of the logs 101 std::map< std::pair<const G4Material*,G4doub << 103 std::map< std::pair<const G4Material*,G4double>, G4PenelopeCrossSection*> *XSTableElectron; 102 std::map< std::pair<const G4Material*,G4doub << 104 std::map< std::pair<const G4Material*,G4double>, G4PenelopeCrossSection*> *XSTablePositron; 103 105 104 //delta vs. log(energy) 106 //delta vs. log(energy) 105 std::map<const G4Material*,G4PhysicsFreeVect << 107 std::map<const G4Material*,G4PhysicsFreeVector*> *theDeltaTable; 106 108 107 //energy grid 109 //energy grid 108 G4PhysicsLogVector* fEnergyGrid; << 110 G4PhysicsLogVector* energyGrid; 109 << 111 size_t nBins; 110 G4int fVerboseLevel; << 112 111 size_t fNBins; << 113 G4int verboseLevel; >> 114 112 }; 115 }; 113 116 114 #endif 117 #endif 115 118 116 119