G4ChannelingMaterialData.cc

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#include "G4ChannelingMaterialData.hh"

#include "G4SystemOfUnits.hh"
#include "G4PhysicalConstants.hh"

#include "G4ChannelingECHARM.hh"
#include "G4LogicalCrystalVolume.hh"
#include "G4TouchableHistory.hh"

G4ChannelingMaterialData::G4ChannelingMaterialData(const G4String& name):
G4VMaterialExtension(name),
fPotential(0),
fElectricFieldX(0),
fElectricFieldY(0),
fNucleiDensity(0),
fElectronDensity(0),
fVectorR(0),
bIsBent(false){;}

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void G4ChannelingMaterialData::SetFilename(const G4String& fileName){
    G4String filePot = fileName + "_pot.txt";
    G4String fileEFX = fileName + "_efx.txt";
    G4String fileEFY = fileName + "_efy.txt";
    G4String fileAtD = fileName + "_atd.txt";
    G4String fileElD = fileName + "_eld.txt";

    fPotential = new G4ChannelingECHARM(filePot,CLHEP::eV);
    fElectricFieldX =  new G4ChannelingECHARM(fileEFX,CLHEP::eV/CLHEP::m);
    fElectricFieldY =  new G4ChannelingECHARM(fileEFY,CLHEP::eV/CLHEP::m);
    fNucleiDensity =   new G4ChannelingECHARM(fileAtD,1.);
    fElectronDensity = new G4ChannelingECHARM(fileElD,1.);

    G4cout <<  filePot << G4endl;
    G4cout <<  fileEFX << G4endl;
    G4cout <<  fileEFY << G4endl;
    G4cout <<  fileAtD << G4endl;
    G4cout <<  fileElD << G4endl;
}

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void G4ChannelingMaterialData::SetFilenameElement(const G4String& fileName,std::string elementName){
    G4String filePot = fileName + "_pot.txt";
    G4String fileEFX = fileName + "_efx.txt";
    G4String fileEFY = fileName + "_efy.txt";
    G4String fileAtD = fileName + "_atd.txt";
    G4String fileElD = fileName + "_eld.txt";
    
    fPotentialElement[elementName] = new G4ChannelingECHARM(filePot,CLHEP::eV);
    fElectricFieldXElement[elementName] =  new G4ChannelingECHARM(fileEFX,CLHEP::eV/CLHEP::m);
    fElectricFieldYElement[elementName] =  new G4ChannelingECHARM(fileEFY,CLHEP::eV/CLHEP::m);
    fNucleiDensityElement[elementName] =   new G4ChannelingECHARM(fileAtD,1.);
    fElectronDensityElement[elementName] = new G4ChannelingECHARM(fileElD,1.);
    
    G4cout <<  filePot << G4endl;
    G4cout <<  fileEFX << G4endl;
    G4cout <<  fileEFY << G4endl;
    G4cout <<  fileAtD << G4endl;
    G4cout <<  fileElD << G4endl;
}


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void G4ChannelingMaterialData::SetBR(G4double val){
    fVectorR = new G4PhysicsLinearVector(0,DBL_MAX,2);
    fVectorR->PutValue(0,val);
    fVectorR->PutValue(1,val);
    bIsBent = true;
}

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void G4ChannelingMaterialData::SetBR(const G4String& filename){
    std::ifstream vFileIn;
    int points;
    float maximum;
    vFileIn.open(filename);
    vFileIn >> points >> maximum;
    
    fVectorR = new G4PhysicsLinearVector(0,maximum * CLHEP::millimeter,points);
    double vTempX;
    double maximumY = -DBL_MAX;
    double minimumY = +DBL_MAX;
    for(G4int i0=0;i0<points; i0++){
        vFileIn >> vTempX;
        if(vTempX>maximumY) maximumY = vTempX;
        if(vTempX<minimumY) minimumY = vTempX;
        fVectorR->PutValue(i0,vTempX * CLHEP::meter);
    }
    G4cout << "G4ChannelingMaterialData::SetBR()" << G4endl;
    G4cout << "Filename: " << filename << G4endl;
    G4cout << "Point: " << points << " - Length [mm]: " << maximum << G4endl;
    G4cout << "Maximum Radius [m]: " << maximumY << " - Minimum Radius [m]: " << minimumY << G4endl;
    bIsBent = true;
}

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G4ChannelingMaterialData::~G4ChannelingMaterialData(){;}

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