ANASEN_analysis/Armory/constant.h

/***********************************************************************
 * 
 *  This is constant.h, to provide various physical constants.
 * 
 *-------------------------------------------------------
 *  created by Ryan (Tsz Leung) Tang, Nov-18, 2018
 *  email: goluckyryan@gmail.com
 * ********************************************************************/


#ifndef constant
#define constant
#include <cmath>

const double pi   = acos(-1.0);
const double E    = 2.718281828459 ;
const double hbar_SI = 1.054571628e-34;   //Js
const double kB   = 1.3806504e-23;     //JK^-1
const double e    = 1.602176487e-19;       //C
const double c_SI    = 299792458;         //ms^-1
const double me_SI   = 9.10938215e-31 ;   //kg
const double mp_SI   = 1.672621637e-27 ;  //kg
const double mn_SI   = 1.67492729e-27 ;   //kg
const double NA   = 6.022141e+23 ;     //mol^-1

const double deg2rad = pi/180 ;
const double rad2deg = 180/pi ;

//======================================================================
const double amu  = 931.49432; // MeV/c^2
const double hbarc = 197.326979; // MeV fm;
const double c = 299.792458; // mm/ns; 
const double ee = 1.439964454; // MeV.fm

//======================================================================
double kg2MeV(double m){
    return m*c_SI*c_SI/e/1e6;
}

double T2Brho(double mass, int Z, int A, double T){
    //mass in MeV
    // Z in e
    // T in MeV/A
    double gamma = (T*A + mass)/mass;
    double beta = sqrt(1-1/gamma/gamma);
    return mass*beta*gamma/Z/c;
}

double Brho2T(double mass, int Z, int A, double Brho){
    //mass in MeV
    // Z in e
    return (sqrt(pow(Brho*Z*c,2)+mass*mass)-mass)/A;
}

double T2beta(double mass, int A, double T){
	double gamma = 1.0 + T*A/mass;
	return sqrt(1-1/gamma/gamma);
}

double ev2nm(double eV){
  // photon energy to nm
  return hbarc/2/pi/eV;
}

//======================================================================
const double mp = kg2MeV(mp_SI);
const double mn = kg2MeV(mn_SI);
const double hbar = 197.326979;


//======================================================================
std::vector<std::string> SplitStr(std::string tempLine, std::string splitter, int shift = 0){

  std::vector<std::string> output;

  size_t pos;
  do{
    pos = tempLine.find(splitter); /// fine splitter
    if( pos == 0 ){ ///check if it is splitter again
      tempLine = tempLine.substr(pos+1);
      continue;
    }

    std::string secStr;
    if( pos == std::string::npos ){
      secStr = tempLine;
    }else{
      secStr = tempLine.substr(0, pos+shift);
      tempLine = tempLine.substr(pos+shift);
    }

    ///check if secStr is begin with space
    while( secStr.substr(0, 1) == " ") secStr = secStr.substr(1);
    
    ///check if secStr is end with space
    while( secStr.back() == ' ') secStr = secStr.substr(0, secStr.size()-1);

    output.push_back(secStr);
    ///printf(" |%s---\n", secStr.c_str());
    
  }while(pos != std::string::npos );

  return output;
}

#endif
added Monte Carlo simulation 2024-02-01 18:47:10 -05:00			`/***********************************************************************`
			`*`
			`* This is constant.h, to provide various physical constants.`
			`*`
			`*-------------------------------------------------------`
			`* created by Ryan (Tsz Leung) Tang, Nov-18, 2018`
			`* email: goluckyryan@gmail.com`
			`* ********************************************************************/`


			`#ifndef constant`
			`#define constant`
			`#include <cmath>`

			`const double pi = acos(-1.0);`
			`const double E = 2.718281828459 ;`
			`const double hbar_SI = 1.054571628e-34; //Js`
			`const double kB = 1.3806504e-23; //JK^-1`
			`const double e = 1.602176487e-19; //C`
			`const double c_SI = 299792458; //ms^-1`
			`const double me_SI = 9.10938215e-31 ; //kg`
			`const double mp_SI = 1.672621637e-27 ; //kg`
			`const double mn_SI = 1.67492729e-27 ; //kg`
			`const double NA = 6.022141e+23 ; //mol^-1`

			`const double deg2rad = pi/180 ;`
			`const double rad2deg = 180/pi ;`

			`//======================================================================`
			`const double amu = 931.49432; // MeV/c^2`
			`const double hbarc = 197.326979; // MeV fm;`
			`const double c = 299.792458; // mm/ns;`
			`const double ee = 1.439964454; // MeV.fm`

			`//======================================================================`
			`double kg2MeV(double m){`
			`return mc_SIc_SI/e/1e6;`
			`}`

			`double T2Brho(double mass, int Z, int A, double T){`
			`//mass in MeV`
			`// Z in e`
			`// T in MeV/A`
			`double gamma = (T*A + mass)/mass;`
			`double beta = sqrt(1-1/gamma/gamma);`
			`return massbetagamma/Z/c;`
			`}`

			`double Brho2T(double mass, int Z, int A, double Brho){`
			`//mass in MeV`
			`// Z in e`
			`return (sqrt(pow(BrhoZc,2)+mass*mass)-mass)/A;`
			`}`

			`double T2beta(double mass, int A, double T){`
			`double gamma = 1.0 + T*A/mass;`
			`return sqrt(1-1/gamma/gamma);`
			`}`

			`double ev2nm(double eV){`
			`// photon energy to nm`
			`return hbarc/2/pi/eV;`
			`}`

			`//======================================================================`
			`const double mp = kg2MeV(mp_SI);`
			`const double mn = kg2MeV(mn_SI);`
			`const double hbar = 197.326979;`


			`//======================================================================`
			`std::vector<std::string> SplitStr(std::string tempLine, std::string splitter, int shift = 0){`

			`std::vector<std::string> output;`

			`size_t pos;`
			`do{`
			`pos = tempLine.find(splitter); /// fine splitter`
			`if( pos == 0 ){ ///check if it is splitter again`
			`tempLine = tempLine.substr(pos+1);`
			`continue;`
			`}`

			`std::string secStr;`
			`if( pos == std::string::npos ){`
			`secStr = tempLine;`
			`}else{`
			`secStr = tempLine.substr(0, pos+shift);`
			`tempLine = tempLine.substr(pos+shift);`
			`}`

			`///check if secStr is begin with space`
			`while( secStr.substr(0, 1) == " ") secStr = secStr.substr(1);`

			`///check if secStr is end with space`
			`while( secStr.back() == ' ') secStr = secStr.substr(0, secStr.size()-1);`

			`output.push_back(secStr);`
			`///printf(" \|%s---\n", secStr.c_str());`

			`}while(pos != std::string::npos );`

			`return output;`
			`}`

			`#endif`