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G4ecpssrFormFactorLixsModel.cc
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1 //
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25 //
26 // History:
27 // -----------
28 // 01 Oct 2011 A.M., S.I. - 1st implementation
29 //
30 // Class description
31 // ----------------
32 // Computation of K, L & M shell ECPSSR ionisation cross sections for protons and alphas
33 // Based on the work of A. Taborda et al.
34 // X-Ray Spectrom. 2011, 40, 127-134
35 // ---------------------------------------------------------------------------------------
36 
37 #include <fstream>
38 #include <iomanip>
39 
41 
42 #include "globals.hh"
43 #include "G4SystemOfUnits.hh"
44 #include "G4ios.hh"
45 
46 #include "G4EMDataSet.hh"
47 #include "G4LinInterpolation.hh"
48 #include "G4Proton.hh"
49 #include "G4Alpha.hh"
50 
51 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
52 
54 {
56 
57  for (G4int i=11; i<93; i++)
58  {
60  protonL1DataSetMap[i]->LoadData("pixe/ecpssr/proton/l1-i01m001c01-");
61 
63  protonL2DataSetMap[i]->LoadData("pixe/ecpssr/proton/l2-i01m001c01-");
64 
66  protonL3DataSetMap[i]->LoadData("pixe/ecpssr/proton/l3-i01m001c01-");
67  }
68 
69  for (G4int i=11; i<93; i++)
70  {
72  alphaL1DataSetMap[i]->LoadData("pixe/ecpssr/alpha/l1-i02m004c02-");
73 
75  alphaL2DataSetMap[i]->LoadData("pixe/ecpssr/alpha/l2-i02m004c02-");
76 
78  alphaL3DataSetMap[i]->LoadData("pixe/ecpssr/alpha/l3-i02m004c02-");
79  }
80 
81 }
82 
83 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
84 
86 {
87  protonL1DataSetMap.clear();
88  alphaL1DataSetMap.clear();
89 
90  protonL2DataSetMap.clear();
91  alphaL2DataSetMap.clear();
92 
93  protonL3DataSetMap.clear();
94  alphaL3DataSetMap.clear();
95 
96  delete interpolation;
97 }
98 
99 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
100 
102 {
103  G4Proton* aProton = G4Proton::Proton();
104  G4Alpha* aAlpha = G4Alpha::Alpha();
105  G4double sigma = 0;
106 
107  if (energyIncident > 0.1*MeV && energyIncident < 100.*MeV && zTarget < 93 && zTarget > 10) {
108 
109  if (massIncident == aProton->GetPDGMass())
110  {
111  sigma = protonL1DataSetMap[zTarget]->FindValue(energyIncident/MeV);
112  if (sigma !=0 && energyIncident > protonL1DataSetMap[zTarget]->GetEnergies(0).back()*MeV) return 0.;
113  }
114  else if (massIncident == aAlpha->GetPDGMass())
115  {
116  sigma = alphaL1DataSetMap[zTarget]->FindValue(energyIncident/MeV);
117  if (sigma !=0 && energyIncident > alphaL1DataSetMap[zTarget]->GetEnergies(0).back()*MeV) return 0.;
118  }
119  else
120  {
121  sigma = 0.;
122  }
123  }
124 
125  // sigma is in internal units: it has been converted from
126  // the input file in barns bt the EmDataset
127  return sigma;
128 }
129 
130 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
131 
133 {
134  G4Proton* aProton = G4Proton::Proton();
135  G4Alpha* aAlpha = G4Alpha::Alpha();
136  G4double sigma = 0;
137 
138  if (energyIncident > 0.1*MeV && energyIncident < 100.*MeV && zTarget < 93 && zTarget > 10) {
139 
140  if (massIncident == aProton->GetPDGMass())
141  {
142  sigma = protonL2DataSetMap[zTarget]->FindValue(energyIncident/MeV);
143  if (sigma !=0 && energyIncident > protonL2DataSetMap[zTarget]->GetEnergies(0).back()*MeV) return 0.;
144  }
145  else if (massIncident == aAlpha->GetPDGMass())
146  {
147  sigma = alphaL2DataSetMap[zTarget]->FindValue(energyIncident/MeV);
148  if (sigma !=0 && energyIncident > alphaL2DataSetMap[zTarget]->GetEnergies(0).back()*MeV) return 0.;
149  }
150  else
151  {
152  sigma = 0.;
153  }
154  }
155 
156  // sigma is in internal units: it has been converted from
157  // the input file in barns bt the EmDataset
158  return sigma;
159 }
160 
161 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
162 
164 {
165  G4Proton* aProton = G4Proton::Proton();
166  G4Alpha* aAlpha = G4Alpha::Alpha();
167  G4double sigma = 0;
168 
169  if (energyIncident > 0.1*MeV && energyIncident < 100.*MeV && zTarget < 93 && zTarget > 10) {
170 
171  if (massIncident == aProton->GetPDGMass())
172  {
173  sigma = protonL3DataSetMap[zTarget]->FindValue(energyIncident/MeV);
174  if (sigma !=0 && energyIncident > protonL3DataSetMap[zTarget]->GetEnergies(0).back()*MeV) return 0.;
175  }
176  else if (massIncident == aAlpha->GetPDGMass())
177  {
178  sigma = alphaL3DataSetMap[zTarget]->FindValue(energyIncident/MeV);
179  if (sigma !=0 && energyIncident > alphaL3DataSetMap[zTarget]->GetEnergies(0).back()*MeV) return 0.;
180  }
181  else
182  {
183  sigma = 0.;
184  }
185  }
186 
187  // sigma is in internal units: it has been converted from
188  // the input file in barns bt the EmDataset
189  return sigma;
190 }
std::map< G4int, G4VEMDataSet * > alphaL2DataSetMap
static constexpr double MeV
Definition: G4SIunits.hh:214
std::map< G4int, G4VEMDataSet * > protonL3DataSetMap
std::map< G4int, G4VEMDataSet * > protonL2DataSetMap
static G4Proton * Proton()
Definition: G4Proton.cc:93
G4double GetPDGMass() const
std::map< G4int, G4VEMDataSet * > alphaL3DataSetMap
double G4double
Definition: G4Types.hh:76
static G4Alpha * Alpha()
Definition: G4Alpha.cc:89
G4double CalculateL3CrossSection(G4int zTarget, G4double massIncident, G4double energyIncident)
int G4int
Definition: G4Types.hh:78
G4double CalculateL2CrossSection(G4int zTarget, G4double massIncident, G4double energyIncident)
std::map< G4int, G4VEMDataSet * > alphaL1DataSetMap
std::map< G4int, G4VEMDataSet * > protonL1DataSetMap
G4double CalculateL1CrossSection(G4int zTarget, G4double massIncident, G4double energyIncident)