G4MaterialPropertiesIndex.hh

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// File:        G4MaterialPropertiesIndex.hh
// Description: Indices and Names for G4MaterialProperties
// Created:     29-06-2017
// Author:      Soon Yung Jun
////////////////////////////////////////////////////////////////////////
 
#ifndef G4MaterialPropertiesIndex_h
#define G4MaterialPropertiesIndex_h 1
 
#include <vector>
#include "G4String.hh"
 
enum G4MaterialPropertyIndex   {
  kNullPropertyIndex = -1,     // the number of G4MaterialPropertyIndex
  kRINDEX,                     // index of refraction                  
  kREFLECTIVITY,               // reflectivity         
  kREALRINDEX,                 // real part of the refractive index
  kIMAGINARYRINDEX,            // imaginary part of the refractive index
  kEFFICIENCY,                 // efficiency 
  kTRANSMITTANCE,              // transmittance of a dielectric surface
  kSPECULARLOBECONSTANT,       // reflection probability about the normal of a micro facet. 
  kSPECULARSPIKECONSTANT,      // reflection probability about the average surface normal
  kBACKSCATTERCONSTANT,        // for the case of several reflections within a deep groove
  kGROUPVEL,                   // group velocity
  kMIEHG,                      // Mie scattering length
  kRAYLEIGH,                   // Rayleigh scattering attenuation length
  kWLSCOMPONENT,               // the relative emission spectrum of the material as a function of the photon's momentum
  kWLSABSLENGTH,               // the absorption length of the material as a function of the photon's momentum
  kWLSCOMPONENT2,               // the relative emission spectrum of the material as a function of the photon's momentum
  kWLSABSLENGTH2,               // the absorption length of the material as a function of the photon's momentum
  kABSLENGTH,                  // the absorption length
  kPROTONSCINTILLATIONYIELD,   // scintillation light yield by protons  
  kDEUTERONSCINTILLATIONYIELD, // scintillation light yield by deuterons
  kTRITONSCINTILLATIONYIELD,   // scintillation light yield by tritons
  kALPHASCINTILLATIONYIELD,    // scintillation light yield by alphas
  kIONSCINTILLATIONYIELD,      // scintillation light yield by ions
  kELECTRONSCINTILLATIONYIELD, // scintillation light yield by electrons
  kSCINTILLATIONCOMPONENT1,    // scintillation light yield vectors for 
  kSCINTILLATIONCOMPONENT2,    //   3 channels
  kSCINTILLATIONCOMPONENT3,    // "
  kCOATEDRINDEX,               // real part of the refractive index of the thin layer in case of coated surface
  kNumberOfPropertyIndex       // the number of G4MaterialPropertyIndex
} ;
 
enum G4MaterialConstPropertyIndex 
{ 
  kNullConstPropertyIndex = -1, // the number of G4MaterialPropertyIndex
  kSURFACEROUGHNESS,            // surface microroughness      
  kISOTHERMAL_COMPRESSIBILITY,  // isothermal compressibility
  kRS_SCALE_FACTOR,             // Rayleigh scattering scale factor
  kWLSMEANNUMBERPHOTONS,        // WLS mean number of photons
  kWLSTIMECONSTANT,             // any time delay which may occur between absorption and re-emission of the photon
  kWLSMEANNUMBERPHOTONS2,        // WLS mean number of photons
  kWLSTIMECONSTANT2,             // any time delay which may occur between absorption and re-emission of the photon
  kMIEHG_FORWARD,               // forward angle of Mie scattering based on Henyey-Greenstein phase function
  kMIEHG_BACKWARD,              // backward angle of Mie scattering based on Henyey-Greenstein phase function
  kMIEHG_FORWARD_RATIO,         // ratio of the MIEHG forward scattering 
  kSCINTILLATIONYIELD,          // scintillation light yield
  kRESOLUTIONSCALE,             // resolution scale
  kFERMIPOT,                    // the Fermi potential (in neV)
  kDIFFUSION,                   // diffusion
  kSPINFLIP,                        // spin flip
  kLOSS,                            // loss
  kLOSSCS,                        // loss cross-section
  kABSCS,                           // 1/v energy dependent absorption cross section
  kSCATCS,                      // incoherent elastic scattering cross-section
  kMR_NBTHETA,                  // number of theta bins of microroughness (MR)
  kMR_NBE,                      // number of energy bins 
  kMR_RRMS,                     // RMS of roughness
  kMR_CORRLEN,                  // correlation length
  kMR_THETAMIN,                 // minimum value of theta
  kMR_THETAMAX,                 // maximum value of theta
  kMR_EMIN,                     // mininum value of energy
  kMR_EMAX,                     // maximum value of energy
  kMR_ANGNOTHETA,               // number of theta angles in the look-up table
  kMR_ANGNOPHI,                 // number of phi angles in the look-up table
  kMR_ANGCUT,                   // angular cut
  kSCINTILLATIONTIMECONSTANT1,  // three scintillation decay time constants
  kSCINTILLATIONTIMECONSTANT2,  // "
  kSCINTILLATIONTIMECONSTANT3,  // "
  kSCINTILLATIONRISETIME1,      // three scintillation rise times
  kSCINTILLATIONRISETIME2,      // "
  kSCINTILLATIONRISETIME3,      // "
  kSCINTILLATIONYIELD1,         // relative yields for 3 scintillation channels
  kSCINTILLATIONYIELD2,         // "
  kSCINTILLATIONYIELD3,         // "
  kPROTONSCINTILLATIONYIELD1,   // scintillation light yield by protons  
  kPROTONSCINTILLATIONYIELD2,   //   for 3 channels
  kPROTONSCINTILLATIONYIELD3,   // "
  kDEUTERONSCINTILLATIONYIELD1, // scintillation light yield by deuterons
  kDEUTERONSCINTILLATIONYIELD2, //   for 3 channels
  kDEUTERONSCINTILLATIONYIELD3, // "
  kTRITONSCINTILLATIONYIELD1,   // scintillation light yield by tritons
  kTRITONSCINTILLATIONYIELD2,   //   for 3 channels
  kTRITONSCINTILLATIONYIELD3,   // "
  kALPHASCINTILLATIONYIELD1,    // scintillation light yield by alphas
  kALPHASCINTILLATIONYIELD2,    //   for 3 channels
  kALPHASCINTILLATIONYIELD3,    // "
  kIONSCINTILLATIONYIELD1,      // scintillation light yield by ions
  kIONSCINTILLATIONYIELD2,      //   for 3 channels
  kIONSCINTILLATIONYIELD3,      // "
  kELECTRONSCINTILLATIONYIELD1, // scintillation light yield by electrons
  kELECTRONSCINTILLATIONYIELD2, //   for 3 channels
  kELECTRONSCINTILLATIONYIELD3, // "
  kCOATEDTHICKNESS,             // thickness of the thin layer in case of coated
  kCOATEDFRUSTRATEDTRANSMISSION,// for incident angle superior to limit angle, use frustrated transmission (if true)
                                // or total reflection (if false)
 
  kNumberOfConstPropertyIndex   // the number of G4MaterialConstPropertyIndex
};
 
#endif /* G4MaterialPropertiesIndex_h */