69 G4double G4MuBetheBlochModel::xgi[]={ 0.0199, 0.1017, 0.2372, 0.4083, 0.5917,
70 0.7628, 0.8983, 0.9801 };
72 G4double G4MuBetheBlochModel::wgi[]={ 0.0506, 0.1112, 0.1569, 0.1813, 0.1813,
73 0.1569, 0.1112, 0.0506 };
83 limitKinEnergy(100.*
keV),
84 logLimitKinEnergy(
G4Log(limitKinEnergy)),
85 twoln10(2.0*
G4Log(10.0)),
92 fParticleChange =
nullptr;
96 mass = massSquare = ratio = 1.0;
98 if(p) { SetParticle(p); }
121 (1. + 2.0*(tau + 1.)*ratio + ratio*ratio);
130 if(p) { SetParticle(p); }
145 if(cutEnergy < maxEnergy) {
147 G4double totEnergy = kineticEnergy + mass;
148 G4double energy2 = totEnergy*totEnergy;
149 G4double beta2 = kineticEnergy*(kineticEnergy + 2.0*mass)/energy2;
151 cross = 1.0/cutEnergy - 1.0/maxEnergy - beta2*
G4Log(maxEnergy/cutEnergy)/tmax
152 + 0.5*(maxEnergy - cutEnergy)/energy2;
155 if (maxEnergy > limitKinEnergy) {
159 G4double logstep = logtmax - logtmin;
162 for (
G4int ll=0; ll<8; ll++)
166 G4double a3 =
G4Log(4.0*totEnergy*(totEnergy - ep)/massSquare);
167 dcross += wgi[ll]*(1.0/ep - beta2/tmax + 0.5*ep/energy2)*a1*(a3 - a1);
170 cross += dcross*logstep*alphaprime;
193 (p,kineticEnergy,cutEnergy,maxEnergy);
208 (p,kineticEnergy,cutEnergy,maxEnergy);
232 -(1.0 + cutEnergy/tmax)*beta2;
234 G4double totEnergy = kineticEnergy + mass;
235 G4double del = 0.5*cutEnergy/totEnergy;
247 if (dedx < 0.0) dedx = 0.0 ;
250 if (cutEnergy > limitKinEnergy) {
253 G4double logstep = logtmax - logLimitKinEnergy;
255 G4double ftot2= 0.5/(totEnergy*totEnergy);
257 for (
G4int ll=0; ll<8; ll++)
261 G4double a3 =
G4Log(4.0*totEnergy*(totEnergy - ep)/massSquare);
262 dloss += wgi[ll]*(1.0 - beta2*ep/tmax + ep*ep*ftot2)*a1*(a3 - a1);
264 dedx += dloss*logstep*alphaprime;
285 if(minKinEnergy >= maxKinEnergy) {
return; }
288 G4double totEnergy = kineticEnergy + mass;
289 G4double etot2 = totEnergy*totEnergy;
290 G4double beta2 = kineticEnergy*(kineticEnergy + 2.0*mass)/etot2;
293 if(tmax > limitKinEnergy) {
295 grej += alphaprime*a0*
a0;
303 deltaKinEnergy = minKinEnergy*maxKinEnergy
304 /(minKinEnergy*(1.0 - q) + maxKinEnergy*q);
307 f = 1.0 - beta2*deltaKinEnergy/tmax
308 + 0.5*deltaKinEnergy*deltaKinEnergy/etot2;
310 if(deltaKinEnergy > limitKinEnergy) {
312 G4double a3 =
G4Log(4.0*totEnergy*(totEnergy - deltaKinEnergy)/massSquare);
313 f *= (1. + alphaprime*a1*(a3 - a1));
317 G4cout <<
"G4MuBetheBlochModel::SampleSecondary Warning! "
318 <<
"Majorant " << grej <<
" < "
319 << f <<
" for edelta= " << deltaKinEnergy
320 <<
" tmin= " << minKinEnergy <<
" max= " << maxKinEnergy
328 G4double totalMomentum = totEnergy*sqrt(beta2);
330 (deltaMomentum * totalMomentum);
332 G4double sint = sqrt(1.0 - cost*cost);
336 G4ThreeVector deltaDirection(sint*cos(phi),sint*sin(phi), cost) ;
341 kineticEnergy -= deltaKinEnergy;
342 G4ThreeVector dir = totalMomentum*direction - deltaMomentum*deltaDirection;
343 direction = dir.
unit();
349 deltaDirection,deltaKinEnergy);
350 vdp->push_back(delta);
G4double MaxSecondaryKinEnergy(const G4DynamicParticle *dynParticle)
G4IonisParamMat * GetIonisation() const
G4double HighOrderCorrections(const G4ParticleDefinition *, const G4Material *, G4double kineticEnergy, G4double cutEnergy)
static G4LossTableManager * Instance()
G4ParticleChangeForLoss * GetParticleChangeForLoss()
virtual G4double MinEnergyCut(const G4ParticleDefinition *, const G4MaterialCutsCouple *) override
G4MuBetheBlochModel(const G4ParticleDefinition *p=nullptr, const G4String &nam="MuBetheBloch")
G4double GetKineticEnergy() const
static constexpr double twopi_mc2_rcl2
virtual G4double ComputeDEDXPerVolume(const G4Material *, const G4ParticleDefinition *, G4double kineticEnergy, G4double cutEnergy) override
virtual G4double ComputeCrossSectionPerElectron(const G4ParticleDefinition *, G4double kineticEnergy, G4double cutEnergy, G4double maxEnergy)
virtual G4double MaxSecondaryEnergy(const G4ParticleDefinition *, G4double kinEnergy) override
static constexpr double twopi
static constexpr double electron_mass_c2
virtual void Initialise(const G4ParticleDefinition *, const G4DataVector &) override
G4GLOB_DLL std::ostream G4cout
G4double GetElectronDensity() const
G4EmCorrections * EmCorrections()
const G4ThreeVector & GetMomentumDirection() const
Hep3Vector & rotateUz(const Hep3Vector &)
void SetProposedKineticEnergy(G4double proposedKinEnergy)
void SetProposedMomentumDirection(const G4ThreeVector &dir)
G4double G4Log(G4double x)
G4double G4Exp(G4double initial_x)
Exponential Function double precision.
virtual G4double ComputeCrossSectionPerAtom(const G4ParticleDefinition *, G4double kineticEnergy, G4double Z, G4double A, G4double cutEnergy, G4double maxEnergy) override
G4double ShellCorrection(const G4ParticleDefinition *, const G4Material *, G4double kineticEnergy)
G4double DensityCorrection(G4double x)
T max(const T t1, const T t2)
brief Return the largest of the two arguments
virtual G4double CrossSectionPerVolume(const G4Material *, const G4ParticleDefinition *, G4double kineticEnergy, G4double cutEnergy, G4double maxEnergy) override
T min(const T t1, const T t2)
brief Return the smallest of the two arguments
virtual void SampleSecondaries(std::vector< G4DynamicParticle * > *, const G4MaterialCutsCouple *, const G4DynamicParticle *, G4double tmin, G4double maxEnergy) override
G4double GetMeanExcitationEnergy() const
static G4Electron * Electron()
static constexpr double fine_structure_const
static constexpr double keV
virtual ~G4MuBetheBlochModel()
const G4Material * GetMaterial() const