mirror of
https://github.com/gwm17/catima.git
synced 2024-11-23 02:38:51 -05:00
Andrej Prochazka
GitHub
commit
bb133397c2
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@ -532,8 +532,6 @@ double beta_from_T(double T){
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return sqrt(1.0-1.0/(gamma*gamma));
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}
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double energy_straggling_firsov(double z1,double energy, double z2, double m2){
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double gamma = gamma_from_T(energy);
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double beta2=1.0-1.0/(gamma*gamma);
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@ -615,8 +613,9 @@ double precalculated_lindhard_X(const Projectile &p){
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double T = p.T;
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int z = (int)p.Z ;
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if(z>LS_MAX_Z)z=LS_MAX_Z;
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//if(p.T<ls_coefficients::ls_energy_points[0])T=ls_coefficients::ls_energy_points[0];
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if(p.T<ls_coefficients::ls_energy_table(0))T=ls_coefficients::ls_energy_table(0);
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//if(p.T<ls_coefficients::ls_energy_table(0))T=ls_coefficients::ls_energy_table(0);
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if(p.T<ls_coefficients::ls_energy_table(0))
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return 1.0;
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double da = (p.A - element_atomic_weight(z))/element_atomic_weight(z);
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z = z-1;
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@ -634,10 +633,20 @@ double precalculated_lindhard_X(const Projectile &p){
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double dedx_variance(Projectile &p, Target &t, const Config &c){
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double zp_eff = z_effective(p,t,c);
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double gamma = gamma_from_T(p.T);
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double f = domega2dx_constant*pow(zp_eff,2)*t.Z*gamma*gamma;
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double f = domega2dx_constant*pow(zp_eff,2)*t.Z/t.A;
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double cor;
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double beta2 = pow(beta_from_T(p.T),2);
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cor = 24.89 * pow(t.Z,1.2324)/(electron_mass*1e6 * beta2)*
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log( 2.0*electron_mass*1e6*beta2/(33.05*pow(t.Z,1.6364)));
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cor = std::max(cor, 0.0 );
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//double X = bethek_lindhard_X(p);
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double X = precalculated_lindhard_X(p);
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return f*X/t.A;
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X *= gamma*gamma;
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if(p.T<1.0)
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return std::min(f*(X+cor), energy_straggling_firsov(p.Z, p.T, t.Z,t.A));
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else
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return f*(X+cor);
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}
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double z_effective(const Projectile &p,const Target &t, const Config &c){
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17
catima.cpp
17
catima.cpp
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@ -336,15 +336,16 @@ DataPoint calculate_DataPoint(Projectile p, const Material &t, const Config &c){
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double res;
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//calculate 1st point to have i-1 element ready for loop
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res = integrator.integrate(fdedx,Ezero,energy_table(0));
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res = p.A*res;
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dp.range[0] = res;
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res = da2dx(p,energy_table(0),t)*res;
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dp.angular_variance[0] = res;
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//res = integrator.integrate(fdedx,Ezero,energy_table(0));
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//res = p.A*res;
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dp.range[0] = 0.0;
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res = integrator.integrate(fomega,Ezero,energy_table(0));
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res = p.A*res;
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dp.range_straggling[0]=res;
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//res = da2dx(p,energy_table(0),t)*res;
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dp.angular_variance[0] = 0.0;
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//res = integrator.integrate(fomega,Ezero,energy_table(0));
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//res = p.A*res;
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dp.range_straggling[0]=0.0;
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for(int i=1;i<max_datapoints;i++){
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res = p.A*integrator.integrate(fdedx,energy_table(i-1),energy_table(i));
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@ -3,7 +3,7 @@
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namespace catima {
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constexpr double Ezero = 9E-4; // lowest E to calculate, below taken as 0
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constexpr double Ezero = 1E-3; // lowest E to calculate, below taken as 0
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constexpr double logEmin = -3; // log of minimum energy
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constexpr double logEmax = 5.0; // log of max energy
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constexpr int max_datapoints = 500; // how many datapoints between logEmin and logEmax
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