mirror of
https://github.com/gwm17/catima.git
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199 lines
6.6 KiB
C++
199 lines
6.6 KiB
C++
/*
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* Author: Andrej Prochazka
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* Copyright(C) 2017
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU Affero General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Affero General Public License for more details.
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* You should have received a copy of the GNU Affero General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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/// \file calculations.h
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#ifndef CALCULATIONS_H
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#define CALCULATIONS_H
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#include <complex>
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#include "catima/structures.h"
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#include "catima/config.h"
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namespace catima{
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/**
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* returns nuclear stopping power for projectile-target combination
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*/
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double dedx_n(const Projectile &p, const Target &t);
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double dedx_n(const Projectile &p, const Material &mat);
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/**
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* returns energy loss straggling
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*/
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double dedx_variance(const Projectile &p, const Target &t, const Config &c=default_config);
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/**
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* returns reduced energy loss unit for projectile-target combination
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*/
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double reduced_energy_loss_unit(const Projectile &p, const Target &t);
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/**
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* @brief bethek_dedx_e - electronics stopping power
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* @return stopping power
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*/
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double bethek_dedx_e(const Projectile &p,const Target &t, const Config &c=default_config, double I=0.0);
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double bethek_dedx_e(const Projectile &p,const Material &mat, const Config &c=default_config);
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/**
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* calculates barkas effect
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*/
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double bethek_barkas(double zp_eff,double eta, double zt);
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/**
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* calculates density effect
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*/
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double bethek_density_effect(double beta, int zt);
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/**
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* calculates lindhard correction for energy loss calculation
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*/
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double bethek_lindhard(const Projectile &p);
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/**
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* calculates lindhard correction for energy loss straggling calculation
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*/
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double bethek_lindhard_X(const Projectile &p);
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/**
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* calculates pair production stopping power
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*/
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double pair_production(const Projectile &p, const Target &t);
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/**
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* calculates bremsstrahlung stopping power
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*/
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double bremsstrahlung(const Projectile &p, const Target &t);
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/**
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* returns linhard correction (L) calulated from tabulated precalculated data
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* if energy is less than minimal calculated energy the LS coefficient of at minimal
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* calculated energy is returned and similar for highest caclulated energy limit
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*/
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double precalculated_lindhard(const Projectile &p);
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/**
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* returns linhard energy loss straggling correction (X) calulated from tabulated precalculated data
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* if energy is less than minimal calculated energy the X coefficient of at minimal
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* calculated energy is returned and similar for highest caclulated energy limit
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*/
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double precalculated_lindhard_X(const Projectile &p);
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/**
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* this function is not used and is not tested
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*/
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double energy_straggling_firsov(double z1,double energy, double z2, double m2);
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/**
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* electronic energy loss for low energy, should be like SRIM
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*/
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double sezi_dedx_e(const Projectile &p, const Material &mat, const Config &c=default_config);
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double angular_scattering_variance(const Projectile &p, const Target &t);
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/**
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* returns radiation length of the (M,Z) material
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* for certain z the radiation length is tabulated, otherwise calculated
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* @param z - proton number of target
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* @param m - weight of the target
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* @return radiation length in g/cm^2
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*/
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double radiation_length(int z, double m);
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/** returns effective Z of the projectile
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* @param c - Configuration, the z effective will be calculated according to c.z_effective value
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* @return - z effective
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*/
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double z_effective(const Projectile &p, const Target &t, const Config &c=default_config);
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/**
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* calculates effective charge
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* @param z - proton number of projectile
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* @param beta - velocity of projectile
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* @return effective charge
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*/
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double z_eff_Pierce_Blann(double z, double beta);
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/**
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* calculates effective charge
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* @param pz - proton number of projectile
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* @param beta - velocity of projectile
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* @param tz - proton number of target material
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* @return effective charge
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*/
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double z_eff_Anthony_Landford(double pz, double beta, double tz);
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/**
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* calculates effective charge
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* @param pz - proton number of projectile
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* @param beta - velocity of projectile
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* @param tz - proton number of target material
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* @return effective charge
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*/
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double z_eff_Hubert(double pz, double E, double tz);
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/**
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* calculates effective charge
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* @param pz - proton number of projectile
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* @param beta - velocity of projectile
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* @param tz - proton number of target material
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* @return effective charge
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*/
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double z_eff_Winger(double pz, double beta, double tz);
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/**
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* calculates effective charge
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* @param pz - proton number of projectile
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* @param beta - velocity of projectile
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* @param tz - proton number of target material
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* @return effective charge
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*/
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double z_eff_global(double pz, double E, double tz);
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/**
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* calculates effective charge
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* @param pz - proton number of projectile
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* @param beta - velocity of projectile
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* @param tz - proton number of target material
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* @return effective charge
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*/
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double z_eff_Schiwietz(double pz, double beta, double tz);
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/**
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* calculates effective charge
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* @param pz - proton number of projectile
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* @param beta - velocity of projectile
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* @param tz - proton number of target material
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* @return effective charge
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*/
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double z_eff_atima14(double pz, double beta, double tz);
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//helper
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double gamma_from_T(double T);
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double beta_from_T(double T);
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double p_from_T(double T, double M);
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std::complex<double> lngamma( const std::complex<double> &z );
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std::complex<double> hyperg(const std::complex<double> &a,
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const std::complex<double> &b,
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const std::complex<double> &z);
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inline double power(double x, double y){
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return exp(log(x)*y);
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}
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}
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#endif
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