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catima/constants.h
2018-01-15 15:11:51 +01:00

50 lines
1.6 KiB
C++

#ifndef CONSTANTS_H
#define CONSTANTS_H
namespace catima {
constexpr double Ezero = 1E-3; // lowest E to calculate, below taken as 0
constexpr double logEmin = -3; // log of minimum energy
constexpr double logEmax = 5.0; // log of max energy
constexpr int max_datapoints = 500; // how many datapoints between logEmin and logEmax
constexpr int max_storage_data = 50; // number of datapoints which can be stored in cache
/// required integration precision (relative units)
/*
constexpr double int_eps_range = 0.001;
constexpr double int_eps_range_str = 0.001;
constexpr double int_eps_ang_str = 0.01;
constexpr double int_eps_tof = 0.01;
*/
constexpr double thin_target_limit = 1 - 1e-3;
constexpr double Avogadro = 6.022140857; // 10^23
constexpr double electron_mass = 0.510998928; // MeV/c^2
constexpr double atomic_mass_unit = 931.4940954; // MeV/c^2
constexpr double classical_electron_radius = 2.8179403227; //fm
constexpr double fine_structure = 1/137.035999139;
constexpr double fine_structure_inverted = 1/fine_structure;
constexpr double c_light = 299.792458; //Mm/s
constexpr double bohr_velocity = 2.19 / c_light; // in c unit
constexpr double dedx_constant = 0.3070749187; //4*pi*Na*me*c^2*r_e^2 //MeV cm^2
constexpr double domega2dx_constant = dedx_constant*electron_mass; //4*pi*Na*me*c^2*r_e^2 //MeV^2 cm^2
// units //
namespace units{
constexpr double g = 1.0;
constexpr double mg = 1000.0;
constexpr double cm3 = 1.0;
constexpr double cm = 1.0;
constexpr double mm = 10.;
constexpr double keV = 1000.0;
constexpr double ns = 1.0;
}
}
#endif