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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: G4AugerData.hh >> 27 // GEANT4 tag $Name: geant4-09-01 $ 26 // 28 // 27 // Author: Alfonso Mantero (Alfonso.Mantero@ge 29 // Author: Alfonso Mantero (Alfonso.Mantero@ge.infn.it) 28 // 30 // 29 // History: 31 // History: 30 // ----------- 32 // ----------- 31 // 2 June 2002 First committed to cvs 33 // 2 June 2002 First committed to cvs 32 // 34 // 33 // ------------------------------------------- 35 // ------------------------------------------------------------------- >> 36 34 // Class description: 37 // Class description: 35 // Low Energy Electromagnetic Physics 38 // Low Energy Electromagnetic Physics 36 // This Class loads and stores all the informa 39 // This Class loads and stores all the information of auger effect (shellIds, 37 // probabilities and energies of the electron 40 // probabilities and energies of the electrons emitted) >> 41 // Further documentation available from http://www.ge.infn.it/geant4/lowE >> 42 38 // ------------------------------------------- 43 // ------------------------------------------------------------------- 39 44 40 #ifndef G4AUGERDATA_HH 45 #ifndef G4AUGERDATA_HH 41 #define G4AUGERDATA_HH 1 46 #define G4AUGERDATA_HH 1 42 47 43 #include "globals.hh" 48 #include "globals.hh" 44 #include <vector> 49 #include <vector> 45 #include <map> 50 #include <map> 46 #include "G4AugerTransition.hh" 51 #include "G4AugerTransition.hh" 47 52 48 class G4DataVector; 53 class G4DataVector; 49 54 50 class G4AugerData 55 class G4AugerData 51 { 56 { 52 public: 57 public: 53 58 54 explicit G4AugerData(); << 59 G4AugerData(); 55 ~G4AugerData() = default; << 60 >> 61 ~G4AugerData(); 56 62 57 /// The method returns the number of shells << 63 // The method returns the number of shells in wich a 58 /// vacancy can be filled by a NON-radiative << 64 // vacancy can be filled by a NON-radiative transition, given the atomic number 59 size_t NumberOfVacancies(G4int Z) const; 65 size_t NumberOfVacancies(G4int Z) const; 60 66 61 /// Given the index of the vacancy (and the << 67 // Given the index of the vacancy (and the atomic number Z) returns its identity 62 G4int VacancyId(G4int Z, G4int vacancyIndex) 68 G4int VacancyId(G4int Z, G4int vacancyIndex) const; 63 69 64 /// Given the index of a vacancy in the atom << 70 // Given the index of a vacancy in the atom with the atomc number Z, returns the number of 65 /// shells starting from wich an electron ca << 71 //shells starting from wich an electron can fill the vacancy 66 size_t NumberOfTransitions(G4int Z, G4int va 72 size_t NumberOfTransitions(G4int Z, G4int vacancyIndex) const; 67 73 68 /// Given the atomic number Z, the Index of << 74 // Given the atomic number Z, the Index of the initial vacancy shell 69 /// and the index of the starting shell for << 75 // and the index of the starting shell for the 70 /// transition, returns the identity of the << 76 // transition, returns the identity of the shell originating the electron transition 71 G4int StartShellId(G4int Z, G4int initialVac 77 G4int StartShellId(G4int Z, G4int initialVacancyIndex, G4int transitionShellIndex) const; 72 78 73 /// Given the atomic number , the indexes of << 79 // Given the atomic number , the indexes of the starting, the auger originating shell, 74 /// and the transition shell Id, returns the << 80 // and the transition shell Id, returns the transition energy 75 G4double StartShellEnergy(G4int Z, G4int vac 81 G4double StartShellEnergy(G4int Z, G4int vacancyIndex, G4int transitionId, G4int augerIndex) const; 76 82 77 /// Given the atomic number, the index of t << 83 // Given the atomic number, the index of the starting shell, the auger originating shells, 78 /// and the transition shell Id, returns the << 84 // and the transition shell Id, returns the transition probability 79 G4double StartShellProb(G4int Z, G4int vacan 85 G4double StartShellProb(G4int Z, G4int vacancyIndex,G4int transitionId,G4int augerIndex) const; 80 86 81 /// Given the atomic number, the index of th << 87 // Given the atomic number, the index of the starting vacancy shell and the transition shell Id, 82 /// returns the number of shells wich an aug << 88 // returns the number of shells wich an auger electron can come from. 83 size_t NumberOfAuger(G4int Z, G4int initInde 89 size_t NumberOfAuger(G4int Z, G4int initIndex, G4int vacancyId) const; 84 90 85 /// Given the atomic number, th index of the << 91 // Given the atomic number, th index of the starting and the auger originating shell, 86 /// and the transition shell Id, returns the << 92 // and the transition shell Id, returns the ager originating shell Id 87 size_t AugerShellId(G4int Z, G4int vacancyIn 93 size_t AugerShellId(G4int Z, G4int vacancyIndex, G4int transId, G4int augerIndex) const; 88 94 89 std::vector<G4AugerTransition> LoadData(G4in 95 std::vector<G4AugerTransition> LoadData(G4int Z); >> 96 90 void BuildAugerTransitionTable(); 97 void BuildAugerTransitionTable(); >> 98 91 void PrintData(G4int Z); 99 void PrintData(G4int Z); 92 100 93 /// Given the atomic number and the vacancy << 101 94 /// the AugerTransition object related to th << 102 >> 103 // Given the atomic number and the vacancy intial shell index returns >> 104 // the AugerTransition object related to that shell >> 105 95 G4AugerTransition* GetAugerTransition(G4int 106 G4AugerTransition* GetAugerTransition(G4int Z, G4int vacancyShellIndex); 96 107 97 /// Given the atomic number returns a vector << 108 // Given the atomic number returns a vector of possible AugerTransition objects 98 std::vector<G4AugerTransition>* GetAugerTran 109 std::vector<G4AugerTransition>* GetAugerTransitions(G4int Z); 99 110 100 private: 111 private: >> 112 >> 113 // std::map<G4int,G4DataVector*,std::less<G4int> > idMap; >> 114 101 typedef std::map<G4int,std::vector<G4AugerTr 115 typedef std::map<G4int,std::vector<G4AugerTransition>,std::less<G4int> > trans_Table; 102 trans_Table augerTransitionTable; << 116 trans_Table augerTransitionTable; >> 117 >> 118 /* >> 119 std::map<G4int,std::map<G4Int,G4DataVector*,std::less<G4int> >,std::less<G4int> > transProbabilityMap; >> 120 std::map<G4int,std::map<G4Int,G4DataVector*,std::less<G4int> >,std::less<G4int> > transAugerIdMap; >> 121 */ 103 122 104 std::vector<G4int> nInitShells; 123 std::vector<G4int> nInitShells; 105 std::vector<G4int> numberOfVacancies; 124 std::vector<G4int> numberOfVacancies; 106 125 107 }; 126 }; 108 127 109 #endif 128 #endif 110 129 111 130 112 131 113 132 114 133 115 134