91 if(t0 >= tm)
return 0.0;
94 Shell(Z, shell)->BindingEnergy();
96 if(e <= bindingEnergy)
return 0.0;
103 if(
verbose > 1 || (Z==4 && e>= 1.0 && e<= 0.0)) {
104 G4cout <<
"G4RDeIonisationSpectrum::Probability: Z= " << Z
105 <<
"; shell= " << shell
106 <<
"; E(keV)= " << e/
keV
107 <<
"; Eb(keV)= " << bindingEnergy/
keV
124 if(p[3] > 0.5) p[3] = 0.5;
126 G4double g = energy/electron_mass_c2 + 1.;
127 p.push_back((2.0*g - 1.0)/(g*g));
131 if(e >= 1. && e <= 0. && Z == 4) p.push_back(0.0);
138 if(
verbose > 1 || (Z==4 && e>= 1.0 && e<= 0.0)) {
139 G4cout <<
"tcut= " << tMin
140 <<
"; tMax= " << tMax
156 if(nor > 0.0) val /= nor;
177 if(t0 >= tm)
return 0.0;
180 Shell(Z, shell)->BindingEnergy();
182 if(e <= bindingEnergy)
return 0.0;
190 G4cout <<
"G4RDeIonisationSpectrum::AverageEnergy: Z= " << Z
191 <<
"; shell= " << shell
192 <<
"; E(keV)= " << e/
keV
193 <<
"; bindingE(keV)= " << bindingEnergy/
keV
209 if(p[3] > 0.5) p[3] = 0.5;
211 G4double g = energy/electron_mass_c2 + 1.;
212 p.push_back((2.0*g - 1.0)/(g*g));
223 <<
"; tMax(MeV)= " << tMax/
MeV
238 if(nor > 0.0) val /= nor;
256 if(t0 > tm)
return tDelta;
259 Shell(Z, shell)->BindingEnergy();
261 if(e <= bindingEnergy)
return 0.0;
267 if(x1 >= x2)
return tDelta;
270 G4cout <<
"G4RDeIonisationSpectrum::SampleEnergy: Z= " << Z
271 <<
"; shell= " << shell
272 <<
"; E(keV)= " << e/
keV
287 if(p[3] > 0.5) p[3] = 0.5;
289 G4double g = energy/electron_mass_c2 + 1.;
290 p.push_back((2.0*g - 1.0)/(g*g));
304 G4double amaj, fun, q, x, z1, z2, dx, dx1;
312 if(p[j] > amaj) amaj = p[j];
324 dx = (p[2] - p[1]) / 3.0;
325 dx1= std::exp(std::log(p[3]/p[2]) / 16.0);
326 for (i=4; i<iMax-1; i++) {
330 }
else if(iMax-2 == i) {
336 if(x >= z1 && x <= z2)
break;
339 fun = p[i] + (x - z1) * (p[i+1] - p[i])/(z2 - z1);
342 G4cout <<
"WARNING in G4RDeIonisationSpectrum::SampleEnergy:"
343 <<
" Majoranta " << amaj
345 <<
" in the first aria at x= " << x
367 G4cout <<
"WARNING in G4RDeIonisationSpectrum::SampleEnergy:"
368 <<
" Majoranta " << amaj
370 <<
" in the second aria at x= " << x
386 <<
"; tMax(MeV)= " << tMax/
MeV
392 <<
"; be= " << bindingEnergy
394 <<
"; tDelta= " << tDelta
409 if(xMin >= xMax)
return sum;
411 G4double x1, x2, xs1, xs2, y1, y2, ys1, ys2, q;
420 G4double dx1= std::exp(std::log(p[3]/p[2]) / 16.0);
422 for (
size_t i=0; i<19; i++) {
437 }
else if (xMin < x2) {
447 ys1 += (xs1 - x1)*(y2 - y1)/(x2 - x1);
451 ys2 += (xs2 - x2)*(y1 - y2)/(x1 - x2);
454 q = (ys1*xs2 - ys2*xs1)/(xs1*xs2)
455 + std::log(xs2/xs1)*(ys2 - ys1)/(xs2 - xs1);
457 if(p.size() == 26)
G4cout <<
"i= " << i <<
" q= " << q <<
" sum= " << sum <<
G4endl;
469 if(x1 >= xMax)
return sum;
474 q = (xs1 - xs2)*(1.0 - p[0])
475 - p[
iMax]*std::log(x2/x1)
476 + (1. - p[
iMax])*(x2 - x1)
477 + 1./(1. - x2) - 1./(1. - x1)
478 + p[
iMax]*std::log((1. - x2)/(1. - x1))
479 + 0.25*p[0]*(xs1*xs1 - xs2*xs2);
481 if(p.size() == 26)
G4cout <<
"param... q= " << q <<
" sum= " << sum <<
G4endl;
492 if(xMin >= xMax)
return sum;
494 G4double x1, x2, xs1, xs2, y1, y2, ys1, ys2;
503 G4double dx1= std::exp(std::log(p[3]/p[2]) / 16.0);
505 for (
size_t i=0; i<19; i++) {
519 }
else if (xMin < x2) {
529 ys1 += (xs1 - x1)*(y2 - y1)/(x2 - x1);
533 ys2 += (xs2 - x2)*(y1 - y2)/(x1 - x2);
536 sum += std::log(xs2/xs1)*(ys1*xs2 - ys2*xs1)/(xs2 - xs1)
550 if(x1 >= xMax)
return sum;
556 sum += std::log(x2/x1)*(1.0 - p[0])
557 + 0.5*(1. - p[
iMax])*(x2*x2 - x1*x1)
558 + 1./(1. - x2) - 1./(1. - x1)
559 + (1. + p[iMax])*std::log((1. - x2)/(1. - x1))
560 + 0.5*p[0]*(xs1 - xs2);
575 return 0.5 * kineticEnergy;
G4RDeIonisationSpectrum()
~G4RDeIonisationSpectrum()
G4double IntSpectrum(G4double xMin, G4double xMax, const G4DataVector &p) const
static G4RDAtomicTransitionManager * Instance()
G4double SampleEnergy(G4int Z, G4double tMin, G4double tMax, G4double kineticEnergy, G4int shell, const G4ParticleDefinition *pd=0) const
G4GLOB_DLL std::ostream G4cout
static const G4double factor
T max(const T t1, const T t2)
brief Return the largest of the two arguments
G4double energy(const ThreeVector &p, const G4double m)
T min(const T t1, const T t2)
brief Return the smallest of the two arguments
G4double MaxEnergyOfSecondaries(G4double kineticEnergy, G4int Z=0, const G4ParticleDefinition *pd=0) const
G4RDeIonisationParameters * theParam
G4double Parameter(G4int Z, G4int shellIndex, G4int parameterIndex, G4double e) const
G4double AverageValue(G4double xMin, G4double xMax, const G4DataVector &p) const
G4double Probability(G4int Z, G4double tMin, G4double tMax, G4double kineticEnergy, G4int shell, const G4ParticleDefinition *pd=0) const
G4double bindingEnergy(G4int A, G4int Z)
G4double Function(G4double x, const G4DataVector &p) const
G4double AverageEnergy(G4int Z, G4double tMin, G4double tMax, G4double kineticEnergy, G4int shell, const G4ParticleDefinition *pd=0) const