Geant4 11.2.2
Toolkit for the simulation of the passage of particles through matter
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G4BGGPionElasticXS.cc
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25//
26//
27// -------------------------------------------------------------------
28//
29// GEANT4 Class file
30//
31//
32// File name: G4BGGPionElasticXS
33//
34// Author: Vladimir Ivanchenko
35//
36// Creation date: 01.10.2003
37// Modifications:
38//
39// -------------------------------------------------------------------
40//
41
42#include "G4BGGPionElasticXS.hh"
43#include "G4SystemOfUnits.hh"
46#include "G4HadronNucleonXsc.hh"
47#include "G4NuclearRadii.hh"
48
49#include "G4Proton.hh"
50#include "G4PionPlus.hh"
51#include "G4PionMinus.hh"
52#include "G4NistManager.hh"
54#include "G4Pow.hh"
55
56G4double G4BGGPionElasticXS::theGlauberFacPiPlus[93] = {0.0};
57G4double G4BGGPionElasticXS::theCoulombFacPiPlus[93] = {0.0};
58G4double G4BGGPionElasticXS::theGlauberFacPiMinus[93] = {0.0};
59G4double G4BGGPionElasticXS::theCoulombFacPiMinus[93] = {0.0};
60G4int G4BGGPionElasticXS::theA[93] = {0};
61
62#ifdef G4MULTITHREADED
63G4Mutex G4BGGPionElasticXS::pionElasticXSMutex = G4MUTEX_INITIALIZER;
64#endif
65
66//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
67
69 : G4VCrossSectionDataSet("BarashenkovGlauberGribov")
70{
71 verboseLevel = 0;
72 fGlauberEnergy = 91.*GeV;
73 fLowEnergy = 20.*MeV;
74 fLowestEnergy = 1.*MeV;
75 SetMinKinEnergy(0.0);
77
78 fPion = nullptr;
79 fGlauber = nullptr;
80 fHadron = nullptr;
81
82 fG4pow = G4Pow::GetInstance();
83
84 theProton= G4Proton::Proton();
85 thePiPlus= G4PionPlus::PionPlus();
86 isPiplus = (p == thePiPlus);
87 isMaster = false;
89}
90
91//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
92
94{
95 delete fHadron;
96}
97
98//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
99
100G4bool
102 const G4Material*)
103{
104 return true;
105}
106
107//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
108
110 G4int Z, G4int,
111 const G4Element*, const G4Material*)
112{
113 return (1 == Z);
114}
115
116//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
117
120 G4int ZZ, const G4Material*)
121{
122 // this method should be called only for Z > 1
123 G4double cross = 0.0;
124 G4double ekin = std::max(dp->GetKineticEnergy(), fLowestEnergy);
125 G4int Z = std::min(ZZ, 92);
126 if(1 == Z) {
127 cross = 1.0115*GetIsoCrossSection(dp,1,1);
128 } else {
129 if(ekin <= fLowEnergy) {
130 cross = (isPiplus) ? theCoulombFacPiPlus[Z]*CoulombFactorPiPlus(ekin, Z)
131 : theCoulombFacPiMinus[Z]*FactorPiMinus(ekin);
132 } else if(ekin > fGlauberEnergy) {
133 cross = (isPiplus) ? theGlauberFacPiPlus[Z] : theGlauberFacPiMinus[Z];
134 cross *= fGlauber->GetElasticGlauberGribov(dp, Z, theA[Z]);
135 } else {
136 cross = fPion->GetElasticCrossSection(dp, Z, theA[Z]);
137 }
138 }
139 if(verboseLevel > 1) {
140 G4cout << "G4BGGPionElasticXS::GetElementCrossSection for "
142 << " Ekin(GeV)= " << dp->GetKineticEnergy()
143 << " in nucleus Z= " << Z << " A= " << theA[Z]
144 << " XS(b)= " << cross/barn
145 << G4endl;
146 }
147 return cross;
148}
149
152 G4int Z, G4int A,
153 const G4Isotope*,
154 const G4Element*,
155 const G4Material*)
156{
157 // this method should be called only for Z = 1
158 fHadron->HadronNucleonXscNS(dp->GetDefinition(), theProton,
159 dp->GetKineticEnergy());
160 G4double cross = A*fHadron->GetElasticHadronNucleonXsc();
161
162 if(verboseLevel > 1) {
163 G4cout << "G4BGGPionElasticXS::GetIsoCrossSection for "
165 << " Ekin(GeV)= " << dp->GetKineticEnergy()
166 << " in nucleus Z= " << Z << " A= " << A
167 << " XS(b)= " << cross/barn
168 << G4endl;
169 }
170 return cross;
171}
172
173//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
174
176{
177 if(fPion) { return; }
178 if(verboseLevel > 1) {
179 G4cout << "G4BGGPionElasticXS::BuildPhysicsTable for "
180 << p.GetParticleName() << G4endl;
181 }
182 if(&p == G4PionPlus::PionPlus() || &p == G4PionMinus::PionMinus()) {
183 isPiplus = (&p == G4PionPlus::PionPlus());
184 } else {
186 ed << "This BGG cross section is applicable only to pions and not to "
187 << p.GetParticleName() << G4endl;
188 G4Exception("G4BGGPionElasticXS::BuildPhysicsTable", "had001",
189 FatalException, ed);
190 return;
191 }
192
193 fPion = new G4UPiNuclearCrossSection();
194 fGlauber = new G4ComponentGGHadronNucleusXsc();
195 fHadron = new G4HadronNucleonXsc();
196
197 fPion->BuildPhysicsTable(p);
198
199 if(0 == theA[0]) {
200#ifdef G4MULTITHREADED
201 G4MUTEXLOCK(&pionElasticXSMutex);
202 if(0 == theA[0]) {
203#endif
204 isMaster = true;
205#ifdef G4MULTITHREADED
206 }
207 G4MUTEXUNLOCK(&pionElasticXSMutex);
208#endif
209 } else {
210 return;
211 }
212
213 if(isMaster && 0 == theA[0]) {
214
215 theA[0] = theA[1] = 1;
216 G4ThreeVector mom(0.0,0.0,1.0);
217 G4DynamicParticle dp(thePiPlus, mom, fGlauberEnergy);
218
220
221 G4double csup, csdn;
222 for(G4int iz=2; iz<93; ++iz) {
223
224 G4int A = G4lrint(nist->GetAtomicMassAmu(iz));
225 theA[iz] = A;
226
227 csup = fGlauber->GetElasticGlauberGribov(&dp, iz, A);
228 csdn = fPion->GetElasticCrossSection(&dp, iz, A);
229 theGlauberFacPiPlus[iz] = csdn/csup;
230 }
231
233 for(G4int iz=2; iz<93; ++iz) {
234 csup = fGlauber->GetElasticGlauberGribov(&dp, iz, theA[iz]);
235 csdn = fPion->GetElasticCrossSection(&dp, iz, theA[iz]);
236 theGlauberFacPiMinus[iz] = csdn/csup;
237
238 if(verboseLevel > 0) {
239 G4cout << "Z= " << iz << " A= " << theA[iz]
240 << " factorPiPlus= " << theGlauberFacPiPlus[iz]
241 << " factorPiMinus= " << theGlauberFacPiMinus[iz]
242 << G4endl;
243 }
244 }
245 theCoulombFacPiPlus[1] = 1.0;
246 theCoulombFacPiMinus[1]= 1.0;
247 dp.SetKineticEnergy(fLowEnergy);
248 dp.SetDefinition(thePiPlus);
249 for(G4int iz=2; iz<93; ++iz) {
250 theCoulombFacPiPlus[iz] = fPion->GetElasticCrossSection(&dp, iz, theA[iz])
251 /CoulombFactorPiPlus(fLowEnergy, iz);
252 }
254 for(G4int iz=2; iz<93; ++iz) {
255 theCoulombFacPiMinus[iz] = fPion->GetElasticCrossSection(&dp, iz, theA[iz])
256 /FactorPiMinus(fLowEnergy);
257
258 if(verboseLevel > 0) {
259 G4cout << "Z= " << iz << " A= " << theA[iz]
260 << " CoulombFactorPiPlus= " << theCoulombFacPiPlus[iz]
261 << " CoulombFactorPiMinus= " << theCoulombFacPiMinus[iz]
262 << G4endl;
263 }
264 }
265 }
266}
267
268//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
269
270G4double G4BGGPionElasticXS::CoulombFactorPiPlus(G4double kinEnergy, G4int Z)
271{
272 return (kinEnergy > 0.0) ?
273 G4NuclearRadii::CoulombFactor(Z, theA[Z], thePiPlus, kinEnergy) : 0.0;
274}
275
276//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
277
278G4double G4BGGPionElasticXS::FactorPiMinus(G4double kinEnergy)
279{
280 return 1.0/std::sqrt(kinEnergy);
281}
282
283//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
284
285void
287{
288 outFile << "The Barashenkov-Glauber-Gribov cross section handles elastic\n"
289 << "scattering of pions from nuclei at all energies. The\n"
290 << "Barashenkov parameterization is used below 91 GeV and the\n"
291 << "Glauber-Gribov parameterization is used above 91 GeV.\n";
292}
293
294//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
@ FatalException
void G4Exception(const char *originOfException, const char *exceptionCode, G4ExceptionSeverity severity, const char *description)
std::ostringstream G4ExceptionDescription
#define G4MUTEX_INITIALIZER
#define G4MUTEXLOCK(mutex)
#define G4MUTEXUNLOCK(mutex)
std::mutex G4Mutex
double G4double
Definition G4Types.hh:83
bool G4bool
Definition G4Types.hh:86
int G4int
Definition G4Types.hh:85
const G4double A[17]
#define G4endl
Definition G4ios.hh:67
G4GLOB_DLL std::ostream G4cout
G4double GetIsoCrossSection(const G4DynamicParticle *, G4int Z, G4int A, const G4Isotope *iso=nullptr, const G4Element *elm=nullptr, const G4Material *mat=nullptr) final
G4bool IsElementApplicable(const G4DynamicParticle *, G4int Z, const G4Material *) final
G4BGGPionElasticXS(const G4ParticleDefinition *)
G4double GetElementCrossSection(const G4DynamicParticle *, G4int Z, const G4Material *mat) final
void CrossSectionDescription(std::ostream &) const final
G4bool IsIsoApplicable(const G4DynamicParticle *, G4int Z, G4int A, const G4Element *elm, const G4Material *mat) final
void BuildPhysicsTable(const G4ParticleDefinition &) final
G4double GetElasticGlauberGribov(const G4DynamicParticle *, G4int Z, G4int A)
void SetDefinition(const G4ParticleDefinition *aParticleDefinition)
G4ParticleDefinition * GetDefinition() const
G4double GetKineticEnergy() const
void SetKineticEnergy(G4double aEnergy)
G4double GetElasticHadronNucleonXsc() const
G4double HadronNucleonXscNS(const G4ParticleDefinition *theParticle, const G4ParticleDefinition *nucleon, G4double ekin)
static G4HadronicParameters * Instance()
static G4NistManager * Instance()
G4double GetAtomicMassAmu(const G4String &symb) const
static G4double CoulombFactor(const G4ParticleDefinition *theParticle, const G4ParticleDefinition *nucleon, G4double ekin)
const G4String & GetParticleName() const
static G4PionMinus * PionMinus()
static G4PionPlus * PionPlus()
Definition G4PionPlus.cc:93
static G4Pow * GetInstance()
Definition G4Pow.cc:41
static G4Proton * Proton()
Definition G4Proton.cc:90
G4double GetElasticCrossSection(const G4DynamicParticle *aParticle, G4int Z, G4int A) const
void BuildPhysicsTable(const G4ParticleDefinition &) final
void SetMaxKinEnergy(G4double value)
void SetMinKinEnergy(G4double value)
void SetForAllAtomsAndEnergies(G4bool val)
int G4lrint(double ad)
Definition templates.hh:134