ExtBesEmcGeometry Class Reference

#include <ExtBesEmcGeometry.h>

Public Member Functions
	ExtBesEmcGeometry ()
	~ExtBesEmcGeometry ()
void	ReadEMCParameters ()
void	ComputeEMCParameters ()
void	ModifyForCasing ()
void	PrintEMCParameters ()
void	SetVerboseLevel (G4int val)
void	SetBSCRmin (G4double val)
void	SetBSCDz (G4double val)
void	SetBSCNbPhi (G4int val)
void	SetBSCNbTheta (G4int val)
void	SetBSCCrystalLength (G4double val)
void	SetBSCYFront0 (G4double val)
void	SetBSCYFront (G4double val)
void	SetBSCPosition0 (G4double val)
void	SetBSCPosition1 (G4double val)
void	SetBSCAngleRotat (G4double val)
void	SetCasingThickness (G4ThreeVector)
G4int	GetVerboseLevel ()
G4double	GetBSCRmin ()
G4double	GetBSCDz ()
G4int	GetBSCNbPhi ()
G4int	GetBSCNbTheta ()
G4double	GetBSCCryLength ()
G4double	GetBSCYFront ()
G4double	GetBSCYFront0 ()
G4double	GetBSCPositon0 ()
G4double	GetBSCPositon1 ()
G4double	GetBSCAngleRotat ()
G4ThreeVector	GetCasingThickness ()
G4double	GetXPosition (G4int NbCrystal)
G4double	GetYPosition (G4int NbCrystal)
G4double	GetZPosition (G4int NbCrystal)
G4double	GetThetaPosition (G4int NbCrystal)
G4double	GetZHalfLength (G4int NbCrystal)
G4double	GetThetaAxis (G4int NbCrystal)
G4double	GetPhiAxis (G4int NbCrystal)
G4double	GetYHalfLength1 (G4int NbCrystal)
G4double	GetXHalfLength1 (G4int NbCrystal)
G4double	GetXHalfLength2 (G4int NbCrystal)
G4double	GetTanAlpha1 (G4int NbCrystal)
G4double	GetYHalfLength2 (G4int NbCrystal)
G4double	GetXHalfLength3 (G4int NbCrystal)
G4double	GetXHalfLength4 (G4int NbCrystal)
G4double	GetTanAlpha2 (G4int NbCrystal)
G4VPhysicalVolume *	GetPhysiBSCCrystal (G4int NbCrystal)
G4double	GetRearBoxLength (G4int NbCrystal)
G4double	GetRearBoxDz (G4int NbCrystal)
G4double	GetRearBoxPosX (G4int NbCrystal)
G4double	GetRearBoxPosY (G4int NbCrystal)
G4double	GetRearBoxPosZ (G4int NbCrystal)
G4double	GetRearBoxPosTheta (G4int NbCrystal)

Friends
class	ExtBesEmcConstruction

Detailed Description

Definition at line 19 of file ExtBesEmcGeometry.h.

Constructor & Destructor Documentation

ExtBesEmcGeometry()

ExtBesEmcGeometry::ExtBesEmcGeometry

(

)

Definition at line 16 of file ExtBesEmcGeometry.cxx.

{
  verboseLevel = 0;
}

~ExtBesEmcGeometry()

ExtBesEmcGeometry::~ExtBesEmcGeometry

(

)

Definition at line 21 of file ExtBesEmcGeometry.cxx.

{;}

Member Function Documentation

ComputeEMCParameters()

void ExtBesEmcGeometry::ComputeEMCParameters

(

)

Definition at line 121 of file ExtBesEmcGeometry.cxx.

{
  ReadEMCParameters();
  
  // Compute derived parameters of the calorimeter
  G4double theta0;
  G4int i;
  //for debug
  //G4Exception("ExtBesEmcGeometry::ComputeEMCParameters() starting.......");
  //
  //support frame
  //
  const G4double delta=1.*mm; //for opening-cut girder
  TaperRingRmin1 = BSCRmax1-TaperRingThickness1;
  TaperRingRmin2 = TaperRingRmin1+TaperRingDz*tan(TaperRingTheta);
  TaperRingDr = TaperRingThickness2/cos(TaperRingTheta);
  TaperRingOuterLength1 = TaperRingOuterLength+TaperRingThickness3*tan(TaperRingTheta);
  
  BSCRmax2 = TaperRingRmin2+TaperRingDr-TaperRingThickness3*tan(TaperRingTheta);
  BSCRmax = BSCRmin+33.8*cm;
  BSCPhiDphi= 360.*deg/BSCNbPhi;
  BSCPhiSphi= -BSCPhiDphi/2.;
  BSCPhiDz  = BSCDz;
  BSCPhiRmax= BSCRmax-0.5*cm;
  BSCPhiRmin= BSCRmin/sin(90.*deg+BSCPhiDphi/2.)
    *sin(90.*deg+BSCPhiDphi/2.-BSCAngleRotat); //Rmin after rotate
  SPBarDphi=2*atan(SPBarwidth/(2*BSCRmax));
 
  //crystal No.1(from z=0 to big)
  zHalfLength[0] = BSCCryLength/2.;
  yHalfLength1[0]= BSCYFront0/2.;
  xHalfLength1[0]= BSCPhiRmin*tan(BSCPhiDphi)/2.;
  xHalfLength2[0]= xHalfLength1[0];
  G4double rminprojected=BSCRmin*cos(BSCAngleRotat);
  //  rminprojected=BSCRmin;//according to hardware design
  yHalfLength2[0]= yHalfLength1[0]
    +(BSCYFront0-BSCPosition0)/rminprojected*BSCCryLength/2.;
  xHalfLength3[0]= xHalfLength1[0]*(BSCPhiRmin+BSCCryLength)/BSCPhiRmin;
  xHalfLength4[0]= xHalfLength2[0]*(BSCPhiRmin+BSCCryLength)/BSCPhiRmin;
 
  thetaPosition[0]= 90.*deg;
  xPosition[0]    = BSCPhiRmin+BSCCryLength/2.;
  yPosition[0]    = 
    -(xHalfLength1[0]+xHalfLength3[0]+xHalfLength2[0]+xHalfLength4[0])/4.;
  zPosition[0]    = (yHalfLength1[0]+yHalfLength2[0])/2.;
  
  theta0= 90.*deg-atan((BSCYFront0-BSCPosition0)/rminprojected);
  if(verboseLevel>1)
    {
      G4cout << "------------------------------------>1"<< G4endl
         << "The direction of crystal is:"
         << theta0/deg <<"(deg)."<< G4endl;
    }
 
  rearBoxPosX[0] = xPosition[0]+BSCCryLength/2.+rearBoxDz/2.;
  rearBoxPosY[0] = -(xHalfLength3[0]+xHalfLength4[0])/2.;
  rearBoxPosZ[0] = yHalfLength2[0];
 
  OCGirderRmin1[0] = rearBoxPosX[0]+rearBoxDz/2.+delta;
  OCGirderRmin2[0] = rearBoxPosX[0]+rearBoxDz/2.+delta;
  OCGirderDz[0] = rearBoxLength;
  OCGirderPosZ[0] = rearBoxLength/2;
 
  cableLength[0] = BSCDz-rearBoxPosZ[0];
  cablePosX[0] = BSCPhiRmax-cableDr-2.*mm;
  cablePosY[0] = rearBoxPosY[0]-3*cableDr;
  cablePosZ[0] = BSCDz-cableLength[0]/2;
 
  //crystal No.2
  zHalfLength[1]= BSCCryLength/2.;
  yHalfLength1[1]= BSCYFront0/2.;
  G4double deltaR= BSCYFront0*cos(theta0);
  xHalfLength1[1]= xHalfLength1[0];
  xHalfLength2[1]= xHalfLength1[1]*(BSCPhiRmin+deltaR)/BSCPhiRmin;
  yHalfLength2[1]= yHalfLength1[1]
    +tan(theta0-atan(rminprojected/(BSCYFront0*(1.+1./sin(theta0))-
                    BSCPosition1)))*BSCCryLength/2.;
  deltaR=deltaR+BSCCryLength*sin(theta0);
  xHalfLength4[1]= xHalfLength1[1]*(BSCPhiRmin+deltaR)/BSCPhiRmin;
  deltaR=deltaR-yHalfLength2[1]*2.*cos(theta0);
  xHalfLength3[1]= xHalfLength1[1]*(BSCPhiRmin+deltaR)/BSCPhiRmin;
 
  thetaPosition[1]= theta0;
  xPosition[1]    = BSCPhiRmin+BSCCryLength/2.*sin(theta0)
                  + (3.*yHalfLength1[1]-yHalfLength2[1])/2.*cos(theta0);
  yPosition[1]    = 
    -(xHalfLength1[1]+xHalfLength3[1]+xHalfLength2[1]+xHalfLength4[1])/4.;
  zPosition[1]    = yHalfLength1[0]*2.
    + (yHalfLength1[1]*2./tan(theta0)+BSCCryLength/2.)*cos(theta0)
    + (yHalfLength1[1]+yHalfLength2[1])/2.*sin(theta0);
 
  rearBoxPosX[1] = xPosition[1]+(BSCCryLength/2.+rearBoxDz/2.)*sin(theta0);
  rearBoxPosY[1] = -(xHalfLength3[1]+xHalfLength4[1])/2.;
  rearBoxPosZ[1] = zPosition[1]+(BSCCryLength/2.+rearBoxDz/2.)*cos(theta0);
 
  OCGirderRmin1[1] = rearBoxPosX[1]+rearBoxDz*sin(theta0)/2.+rearBoxLength*cos(theta0)/2+delta;
  OCGirderRmin2[1] = rearBoxPosX[1]+rearBoxDz*sin(theta0)/2.-rearBoxLength*cos(theta0)/2+delta;
  OCGirderDz[1] = rearBoxLength*sin(theta0);
  OCGirderPosZ[1] = rearBoxPosZ[1]+rearBoxDz*cos(theta0)/2.;
 
  cableLength[1] = BSCDz-rearBoxPosZ[1];
  cablePosX[1] = cablePosX[0];
  cablePosY[1] = cablePosY[0]+2*cableDr;
  cablePosZ[1] = BSCDz-cableLength[1]/2;
 
  theta0= theta0-atan((yHalfLength2[1]-yHalfLength1[1])*2./BSCCryLength);
 
  for(i=2;i<BSCNbTheta;i++)
    {
      if(verboseLevel>1)
    {
      G4cout << "------------------------------------>"<<i<< G4endl
         << "The direction of crystal is:"
         << theta0/deg <<"(deg)." << G4endl;
    }
      //crystal No.i+1
      zHalfLength[i]=zHalfLength[0];
      yHalfLength1[i]=BSCYFront/2.;
      if(i==BSCNbTheta-1)
    {yHalfLength1[i]=BSCYFront1/2.;} //the rightest crystal
      deltaR=yHalfLength1[i]*2.*cos(theta0);
      xHalfLength1[i]=xHalfLength1[0];
      xHalfLength2[i]=xHalfLength1[i]/BSCPhiRmin*(BSCPhiRmin+deltaR);
      yHalfLength2[i]=yHalfLength1[i]
    *(1.+BSCCryLength/(rminprojected/sin(theta0)
               +yHalfLength1[i]*2./tan(theta0)));
      deltaR=deltaR+BSCCryLength*sin(theta0);
      xHalfLength4[i]=xHalfLength1[i]/BSCPhiRmin*(BSCPhiRmin+deltaR);
      deltaR=deltaR-yHalfLength2[i]*2.*cos(theta0);
      xHalfLength3[i]=xHalfLength1[i]/BSCPhiRmin*(BSCPhiRmin+deltaR);
 
      thetaPosition[i]=theta0;
      xPosition[i]=BSCPhiRmin+zHalfLength[i]*sin(theta0)
                  + (3.*yHalfLength1[i]-yHalfLength2[i])/2.*cos(theta0);
      yPosition[i]=
    -(xHalfLength1[i]+xHalfLength3[i]+xHalfLength2[i]+xHalfLength4[i])/4.;
      zPosition[i]=BSCPosition1+rminprojected/tan(theta0)
    +(2.*yHalfLength1[i]/tan(theta0)+zHalfLength[i])*cos(theta0)
    +(yHalfLength1[i]+yHalfLength2[i])/2.*sin(theta0);
 
      rearBoxPosX[i] = xPosition[i]+(BSCCryLength/2.+rearBoxDz/2.)*sin(theta0);
      rearBoxPosY[i] = -(xHalfLength3[i]+xHalfLength4[i])/2.;
      rearBoxPosZ[i] = zPosition[i]+(BSCCryLength/2.+rearBoxDz/2.)*cos(theta0);
      
      OCGirderRmin1[i] = rearBoxPosX[i]+rearBoxDz*sin(theta0)/2.+rearBoxLength*cos(theta0)/2+delta;
      OCGirderRmin2[i] = rearBoxPosX[i]+rearBoxDz*sin(theta0)/2.-rearBoxLength*cos(theta0)/2+delta;
      OCGirderDz[i] = rearBoxLength*sin(theta0);
      OCGirderPosZ[i] = rearBoxPosZ[i]+rearBoxDz*cos(theta0)/2.;
 
     G4int xCable,yCable;
      xCable = i/4;
      yCable = i-4*(G4int)(i/4);
      cableLength[i] = BSCDz-(rearBoxPosZ[i]+rearBoxDz/2.*cos(theta0));
      cablePosX[i] = cablePosX[0]-xCable*2*cableDr;
      cablePosY[i] = cablePosY[0]+yCable*2*cableDr;
      cablePosZ[i] = BSCDz-cableLength[i]/2;
 
      theta0=theta0-atan(2.*yHalfLength1[i]/(rminprojected/sin(theta0)
                         +2.*yHalfLength1[i]/tan(theta0)));
      
    }
  thetaPosition[BSCNbTheta]=theta0;
    if(verboseLevel>1)
    {
      G4cout << "------------------------------------>"<<i<< G4endl
         << "The direction of crystal is:"
         << theta0/deg <<"(deg)." << G4endl;
    }
   
  G4double oop;
  for(i=0;i<BSCNbTheta;i++)
    {
      oop=sqrt((yHalfLength2[i]-yHalfLength1[i])*(yHalfLength2[i]
                          -yHalfLength1[i])
           +(xHalfLength3[i]+xHalfLength4[i]-xHalfLength1[i]
         -xHalfLength2[i])*(xHalfLength3[i]+xHalfLength4[i]
                    -xHalfLength1[i]-xHalfLength2[i])/4);
      thetaAxis[i]=atan(oop/BSCCryLength);
      phiAxis[i]  =180.*deg+atan((yHalfLength2[i]-yHalfLength1[i])
             /(xHalfLength3[i]+xHalfLength4[i]
               -xHalfLength1[i]-xHalfLength2[i])*2.);
      tanAlpha2[i]=-(xHalfLength4[i]-xHalfLength3[i])/yHalfLength2[i]/2.;
      tanAlpha1[i]=-(xHalfLength2[i]-xHalfLength1[i])/yHalfLength1[i]/2.;
      //G4cout <<thetaAxis[i]<<",  "
      //     <<phiAxis[i]<<",  "
      //     <<tanAlpha1[i]<<",  "
      //     <<tanAlpha2[i]<<G4endl;
    }
    
}

GetBSCAngleRotat()

G4double ExtBesEmcGeometry::GetBSCAngleRotat ( )

inline

Definition at line 60 of file ExtBesEmcGeometry.h.

{return BSCAngleRotat;};

GetBSCCryLength()

G4double ExtBesEmcGeometry::GetBSCCryLength ( )

inline

Definition at line 55 of file ExtBesEmcGeometry.h.

{return BSCCryLength;};

GetBSCDz()

G4double ExtBesEmcGeometry::GetBSCDz ( )

inline

Definition at line 52 of file ExtBesEmcGeometry.h.

{return BSCDz;};

GetBSCNbPhi()

G4int ExtBesEmcGeometry::GetBSCNbPhi ( )

inline

Definition at line 53 of file ExtBesEmcGeometry.h.

{return BSCNbPhi;};

GetBSCNbTheta()

G4int ExtBesEmcGeometry::GetBSCNbTheta ( )

inline

Definition at line 54 of file ExtBesEmcGeometry.h.

{return BSCNbTheta;};

Referenced by ExtBesCrystalParameterisation::ComputeMaterial().

GetBSCPositon0()

G4double ExtBesEmcGeometry::GetBSCPositon0 ( )

inline

Definition at line 58 of file ExtBesEmcGeometry.h.

{return BSCPosition0;};

GetBSCPositon1()

G4double ExtBesEmcGeometry::GetBSCPositon1 ( )

inline

Definition at line 59 of file ExtBesEmcGeometry.h.

{return BSCPosition1;};

GetBSCRmin()

G4double ExtBesEmcGeometry::GetBSCRmin ( )

inline

Definition at line 51 of file ExtBesEmcGeometry.h.

{return BSCRmin;};

GetBSCYFront()

G4double ExtBesEmcGeometry::GetBSCYFront ( )

inline

Definition at line 56 of file ExtBesEmcGeometry.h.

{return BSCYFront;};

GetBSCYFront0()

G4double ExtBesEmcGeometry::GetBSCYFront0 ( )

inline

Definition at line 57 of file ExtBesEmcGeometry.h.

{return BSCYFront0;};

GetCasingThickness()

G4ThreeVector ExtBesEmcGeometry::GetCasingThickness ( )

inline

Definition at line 62 of file ExtBesEmcGeometry.h.

{return G4ThreeVector(fTyvekThickness,fAlThickness,fMylarThickness);};

GetPhiAxis()

G4double ExtBesEmcGeometry::GetPhiAxis

(

G4int

NbCrystal

)

Definition at line 642 of file ExtBesEmcGeometry.cxx.

{
  if(NbCrystal>=0&&NbCrystal<BSCNbTheta*6)
    {
      return phiAxis[NbCrystal];
    }
  else
    {
      return 0.;
    }
}

Referenced by ExtBesCrystalParameterisation::ComputeDimensions().

GetPhysiBSCCrystal()

G4VPhysicalVolume * ExtBesEmcGeometry::GetPhysiBSCCrystal

(

G4int

NbCrystal

)

Definition at line 750 of file ExtBesEmcGeometry.cxx.

{
  if(NbCrystal>=0&&NbCrystal<BSCNbTheta*6)
    {
      return physiBSCCrystal[NbCrystal];
    }
  else
    {
      return NULL;
    }
}

Referenced by ExtBesCrystalParameterisation::ComputeIDAndSide().

GetRearBoxDz()

G4double ExtBesEmcGeometry::GetRearBoxDz

(

G4int

NbCrystal

)

GetRearBoxLength()

G4double ExtBesEmcGeometry::GetRearBoxLength

(

G4int

NbCrystal

)

GetRearBoxPosTheta()

G4double ExtBesEmcGeometry::GetRearBoxPosTheta

(

G4int

NbCrystal

)

GetRearBoxPosX()

G4double ExtBesEmcGeometry::GetRearBoxPosX

(

G4int

NbCrystal

)

GetRearBoxPosY()

G4double ExtBesEmcGeometry::GetRearBoxPosY

(

G4int

NbCrystal

)

GetRearBoxPosZ()

G4double ExtBesEmcGeometry::GetRearBoxPosZ

(

G4int

NbCrystal

)

GetTanAlpha1()

G4double ExtBesEmcGeometry::GetTanAlpha1

(

G4int

NbCrystal

)

Definition at line 690 of file ExtBesEmcGeometry.cxx.

{
  if(NbCrystal>=0&&NbCrystal<BSCNbTheta*6)
    {
      return tanAlpha1[NbCrystal];
    }
  else
    {
      return 0.;
    }
}

Referenced by ExtBesCrystalParameterisation::ComputeDimensions().

GetTanAlpha2()

G4double ExtBesEmcGeometry::GetTanAlpha2

(

G4int

NbCrystal

)

Definition at line 738 of file ExtBesEmcGeometry.cxx.

{
  if(NbCrystal>=0&&NbCrystal<BSCNbTheta*6)
    {
      return tanAlpha2[NbCrystal];
    }
  else
    {
      return 0.;
    }
}

Referenced by ExtBesCrystalParameterisation::ComputeDimensions().

GetThetaAxis()

G4double ExtBesEmcGeometry::GetThetaAxis

(

G4int

NbCrystal

)

Definition at line 630 of file ExtBesEmcGeometry.cxx.

{
  if(NbCrystal>=0&&NbCrystal<BSCNbTheta*6)
    {
      return thetaAxis[NbCrystal];
    }
  else
    {
      return 0.;
    }
}

Referenced by ExtBesCrystalParameterisation::ComputeDimensions().

GetThetaPosition()

G4double ExtBesEmcGeometry::GetThetaPosition

(

G4int

NbCrystal

)

Definition at line 606 of file ExtBesEmcGeometry.cxx.

{
  if(NbCrystal>=0&&NbCrystal<BSCNbTheta*6)
    {
      return thetaPosition[NbCrystal];
    }
  else
    {
      return 0.;
    }
}

GetVerboseLevel()

G4int ExtBesEmcGeometry::GetVerboseLevel ( )

inline

Definition at line 49 of file ExtBesEmcGeometry.h.

{return verboseLevel;};

GetXHalfLength1()

G4double ExtBesEmcGeometry::GetXHalfLength1

(

G4int

NbCrystal

)

Definition at line 666 of file ExtBesEmcGeometry.cxx.

{
  if(NbCrystal>=0&&NbCrystal<BSCNbTheta*6)
    {
      return xHalfLength1[NbCrystal];
    }
  else
    {
      return 0.;
    }
}

Referenced by ExtBesCrystalParameterisation::ComputeDimensions().

GetXHalfLength2()

G4double ExtBesEmcGeometry::GetXHalfLength2

(

G4int

NbCrystal

)

Definition at line 678 of file ExtBesEmcGeometry.cxx.

{
  if(NbCrystal>=0&&NbCrystal<BSCNbTheta*6)
    {
      return xHalfLength2[NbCrystal];
    }
  else
    {
      return 0.;
    }
}

Referenced by ExtBesCrystalParameterisation::ComputeDimensions().

GetXHalfLength3()

G4double ExtBesEmcGeometry::GetXHalfLength3

(

G4int

NbCrystal

)

Definition at line 714 of file ExtBesEmcGeometry.cxx.

{
  if(NbCrystal>=0&&NbCrystal<BSCNbTheta*6)
    {
      return xHalfLength3[NbCrystal];
    }
  else
    {
      return 0.;
    }
}

Referenced by ExtBesCrystalParameterisation::ComputeDimensions().

GetXHalfLength4()

G4double ExtBesEmcGeometry::GetXHalfLength4

(

G4int

NbCrystal

)

Definition at line 726 of file ExtBesEmcGeometry.cxx.

{
  if(NbCrystal>=0&&NbCrystal<BSCNbTheta*6)
    {
      return xHalfLength4[NbCrystal];
    }
  else
    {
      return 0.;
    }
}

Referenced by ExtBesCrystalParameterisation::ComputeDimensions().

GetXPosition()

G4double ExtBesEmcGeometry::GetXPosition

(

G4int

NbCrystal

)

Definition at line 570 of file ExtBesEmcGeometry.cxx.

{
  if(NbCrystal>=0&&NbCrystal<BSCNbTheta*6)
    {
      return xPosition[NbCrystal];
    }
  else
    {
      return 0.;
    }
}

Referenced by ExtBesCrystalParameterisation::ComputeTransformation().

GetYHalfLength1()

G4double ExtBesEmcGeometry::GetYHalfLength1

(

G4int

NbCrystal

)

Definition at line 654 of file ExtBesEmcGeometry.cxx.

{
  if(NbCrystal>=0&&NbCrystal<BSCNbTheta*6)
    {
      return yHalfLength1[NbCrystal];
    }
  else
    {
      return 0.;
    }
}

Referenced by ExtBesCrystalParameterisation::ComputeDimensions().

GetYHalfLength2()

G4double ExtBesEmcGeometry::GetYHalfLength2

(

G4int

NbCrystal

)

Definition at line 702 of file ExtBesEmcGeometry.cxx.

{
  if(NbCrystal>=0&&NbCrystal<BSCNbTheta*6)
    {
      return yHalfLength2[NbCrystal];
    }
  else
    {
      return 0.;
    }
}

Referenced by ExtBesCrystalParameterisation::ComputeDimensions().

GetYPosition()

G4double ExtBesEmcGeometry::GetYPosition

(

G4int

NbCrystal

)

Definition at line 582 of file ExtBesEmcGeometry.cxx.

{
  if(NbCrystal>=0&&NbCrystal<BSCNbTheta*6)
    {
      return yPosition[NbCrystal];
    }
  else
    {
      return 0.;
    }
}

Referenced by ExtBesCrystalParameterisation::ComputeTransformation().

GetZHalfLength()

G4double ExtBesEmcGeometry::GetZHalfLength

(

G4int

NbCrystal

)

Definition at line 618 of file ExtBesEmcGeometry.cxx.

{
  if(NbCrystal>=0&&NbCrystal<BSCNbTheta*6)
    {
      return zHalfLength[NbCrystal];
    }
  else
    {
      return 0.;
    }
}

Referenced by ExtBesCrystalParameterisation::ComputeDimensions().

GetZPosition()

G4double ExtBesEmcGeometry::GetZPosition

(

G4int

NbCrystal

)

Definition at line 594 of file ExtBesEmcGeometry.cxx.

{
  if(NbCrystal>=0&&NbCrystal<BSCNbTheta*6)
    {
      return zPosition[NbCrystal];
    }
  else
    {
      return 0.;
    }
}

Referenced by ExtBesCrystalParameterisation::ComputeTransformation().

ModifyForCasing()

void ExtBesEmcGeometry::ModifyForCasing

(

)

Definition at line 312 of file ExtBesEmcGeometry.cxx.

{
  // Compute the sizes of the naked crystals and the casing
  // Casing size
  // BSCNbTheta---->2*BSCNbTheta-1 : before crystal
  // 2*BSCNbTheta-->3*BSCNbTheta-1 : a side of crystal
  // 3*BSCNbTheta-->4*BSCNbTheta-1 : b side of crystal
  // 4*BSCNbTheta-->5*BSCNbTheta-1 : c side of crystal
  // 5*BSCNbTheta-->6*BSCNbTheta-1 : d side of crystal
  //                         d
  //                    ----------
  //                   |          |
  //                   |          |  
  //               c   |          |    a
  //                   |          |
  //                   |          |
  //                   |         / 
  //                   |     /
  //                   | / 
  //                         b   
  G4double totalThickness=fTyvekThickness+fAlThickness+fMylarThickness;//
  G4double delta=0.,angle1=0.*deg,angle2=0.*deg;
  G4double oop; //the distance of the centers of the two parallel plane
 
  G4double rminprojected=BSCRmin*cos(BSCAngleRotat);
  rminprojected=BSCRmin;//accord with hardware design
 
  G4int i;
  for(i=0;i<BSCNbTheta;i++)
    {
      zHalfLength[BSCNbTheta+i]=totalThickness/2.;
      yHalfLength1[BSCNbTheta+i]=yHalfLength1[i];
      yHalfLength2[BSCNbTheta+i]=yHalfLength1[i]
    +(yHalfLength2[i]-yHalfLength1[i])*totalThickness/BSCCryLength;
      xHalfLength1[BSCNbTheta+i]=xHalfLength1[i];
      xHalfLength2[BSCNbTheta+i]=xHalfLength2[i];
      xHalfLength1[BSCNbTheta*2+i]=xHalfLength3[BSCNbTheta+i]=
    xHalfLength1[i]*(BSCCryLength-totalThickness)/BSCCryLength
    +xHalfLength3[i]*totalThickness/BSCCryLength;
      xHalfLength2[BSCNbTheta*4+i]=xHalfLength4[BSCNbTheta+i]=
    xHalfLength2[i]*(BSCCryLength-totalThickness)/BSCCryLength
    +xHalfLength4[i]*totalThickness/BSCCryLength;
      
      zHalfLength[BSCNbTheta*5+i]=zHalfLength[BSCNbTheta*4+i]=
      zHalfLength[BSCNbTheta*3+i]=zHalfLength[BSCNbTheta*2+i]=
    zHalfLength[i]-totalThickness/2.;
      
      yHalfLength2[BSCNbTheta*2+i]=yHalfLength1[BSCNbTheta*2+i]=
    totalThickness/cos(thetaPosition[i+1]-thetaPosition[i])/2.;
      xHalfLength3[BSCNbTheta*2+i]=xHalfLength3[i];
      xHalfLength4[BSCNbTheta*2+i]=xHalfLength3[i]
    +(xHalfLength4[i]-xHalfLength3[i])*yHalfLength2[BSCNbTheta*2+i]
    /yHalfLength2[i];
      xHalfLength2[BSCNbTheta*2+i]=xHalfLength3[BSCNbTheta+i]
    +(xHalfLength4[BSCNbTheta+i]-xHalfLength3[BSCNbTheta+i])
    *yHalfLength1[BSCNbTheta*2+i]/yHalfLength2[BSCNbTheta*1+i];
      
      yHalfLength2[BSCNbTheta*4+i]=yHalfLength1[BSCNbTheta*4+i]=
    totalThickness/2.;
      xHalfLength4[BSCNbTheta*4+i]=xHalfLength4[i];
      xHalfLength3[BSCNbTheta*4+i]=xHalfLength4[i]
    -(xHalfLength4[i]-xHalfLength3[i])*yHalfLength2[BSCNbTheta*4+i]
    /yHalfLength2[i];
      xHalfLength1[BSCNbTheta*4+i]=xHalfLength4[BSCNbTheta+i]
    -(xHalfLength4[BSCNbTheta+i]-xHalfLength3[BSCNbTheta+i])
    *yHalfLength1[BSCNbTheta*4+i]/yHalfLength2[BSCNbTheta*1+i];
      
      delta=totalThickness/2.+yHalfLength1[BSCNbTheta*2+i];
      angle1=atan(yHalfLength2[i]/(xHalfLength4[i]-xHalfLength3[i]));
      angle2=atan(2.*(xHalfLength4[i]-xHalfLength2[i])*sin(angle1)
          /BSCCryLength);
      
      yHalfLength1[BSCNbTheta*5+i]=yHalfLength1[BSCNbTheta*3+i]=
    yHalfLength1[i]-delta;
      yHalfLength2[BSCNbTheta*5+i]=yHalfLength2[BSCNbTheta*3+i]=
    yHalfLength2[i]-delta;
      xHalfLength4[BSCNbTheta*3+i]=xHalfLength3[BSCNbTheta*3+i]=
      xHalfLength2[BSCNbTheta*3+i]=xHalfLength1[BSCNbTheta*3+i]=
    totalThickness/cos(angle2)/sin(angle1)/2.;
      xHalfLength4[BSCNbTheta*5+i]=xHalfLength3[BSCNbTheta*5+i]=
      xHalfLength2[BSCNbTheta*5+i]=xHalfLength1[BSCNbTheta*5+i]=
    totalThickness/2.;
      
      zHalfLength[i]=zHalfLength[i]-totalThickness/2.;
      yHalfLength1[i]=yHalfLength1[i]-delta;
      yHalfLength2[i]=yHalfLength2[i]-delta;
      delta=totalThickness*(1.+1./cos(angle2)/sin(angle1))/2.;
      xHalfLength1[i]=xHalfLength1[i]-delta;
      xHalfLength2[i]=xHalfLength2[i]-delta;
      xHalfLength3[i]=xHalfLength3[i]-delta;
      xHalfLength4[i]=xHalfLength4[i]-delta;
 
      oop=sqrt((yHalfLength2[i]-yHalfLength1[i])*(yHalfLength2[i]
                          -yHalfLength1[i])
           +(xHalfLength3[i]+xHalfLength4[i]-xHalfLength1[i]
         -xHalfLength2[i])*(xHalfLength3[i]+xHalfLength4[i]
                    -xHalfLength1[i]-xHalfLength2[i])/4);
      thetaAxis[i]=atan(oop/BSCCryLength);
      // -phi  --->180+phi 
      phiAxis[i]  =180.*deg+atan((yHalfLength2[i]-yHalfLength1[i])
                 /(xHalfLength3[i]+xHalfLength4[i]
                   -xHalfLength1[i]-xHalfLength2[i])*2.);
 
      oop=sqrt((yHalfLength2[BSCNbTheta+i]-yHalfLength1[BSCNbTheta+i])
           *(yHalfLength2[BSCNbTheta+i]-yHalfLength1[BSCNbTheta+i])
           +(xHalfLength3[BSCNbTheta+i]+xHalfLength4[BSCNbTheta+i]
         -xHalfLength1[BSCNbTheta+i]-xHalfLength2[BSCNbTheta+i])
           *(xHalfLength3[BSCNbTheta+i]+xHalfLength4[BSCNbTheta+i]
         -xHalfLength1[BSCNbTheta+i]-xHalfLength2[BSCNbTheta+i])/4);
      thetaAxis[BSCNbTheta+i]=atan(oop/totalThickness);
      phiAxis  [BSCNbTheta+i]=
    -atan((yHalfLength2[BSCNbTheta+i]-yHalfLength1[BSCNbTheta+i])
          /(xHalfLength3[BSCNbTheta+i]+xHalfLength4[BSCNbTheta+i]
        -xHalfLength1[BSCNbTheta+i]-xHalfLength2[BSCNbTheta+i])*2.);
 
      oop=sqrt((yHalfLength2[i]-yHalfLength1[i])*(yHalfLength2[i]
                          -yHalfLength1[i])*4
           +(xHalfLength3[BSCNbTheta*2+i]+xHalfLength4[BSCNbTheta*2+i]
         -xHalfLength1[BSCNbTheta*2+i]-xHalfLength2[BSCNbTheta*2+i])
           *(xHalfLength3[BSCNbTheta*2+i]+xHalfLength4[BSCNbTheta*2+i]
         -xHalfLength1[BSCNbTheta*2+i]-xHalfLength2[BSCNbTheta*2+i])
           /4);
      thetaAxis[BSCNbTheta*2+i]=atan(oop/(zHalfLength[BSCNbTheta*2+i]*2));
      phiAxis  [BSCNbTheta*2+i]=
    -atan((yHalfLength2[i]-yHalfLength1[i])
          /(xHalfLength3[BSCNbTheta*2+i]+xHalfLength4[BSCNbTheta*2+i]
        -xHalfLength1[BSCNbTheta*2+i]-xHalfLength2[BSCNbTheta*2+i])*4);
 
      oop=sqrt((yHalfLength2[i]-yHalfLength1[i])*(yHalfLength2[i]
                          -yHalfLength1[i])*4
           +(xHalfLength4[i]-xHalfLength2[i])
           *(xHalfLength4[i]-xHalfLength2[i])*4);
      thetaAxis[BSCNbTheta*3+i]=atan(oop/(zHalfLength[BSCNbTheta*3+i]*2));
      phiAxis  [BSCNbTheta*3+i]=-atan((yHalfLength2[i]-yHalfLength1[i])
                      /(xHalfLength4[i]-xHalfLength2[i]));
      
      thetaAxis[BSCNbTheta*4+i]=
    atan((xHalfLength4[BSCNbTheta*4+i]+xHalfLength3[BSCNbTheta*4+i]
          -xHalfLength2[BSCNbTheta*4+i]-xHalfLength1[BSCNbTheta*4+i])/2.
         /(zHalfLength[BSCNbTheta*4+i]*2));
      phiAxis  [BSCNbTheta*4+i]=0;
 
      thetaAxis[BSCNbTheta*5+i]=atan((xHalfLength3[BSCNbTheta*5+i]
                      -xHalfLength1[BSCNbTheta*5+i])
                     /(zHalfLength[BSCNbTheta*5+i]*2));
      phiAxis  [BSCNbTheta*5+i]=-90.*deg;
      
      tanAlpha2[BSCNbTheta+i]=tanAlpha1[BSCNbTheta+i]=tanAlpha1[i]=
    -(xHalfLength2[i]-xHalfLength1[i])/yHalfLength1[i]/2.;
      tanAlpha1[BSCNbTheta*2+i]=(xHalfLength2[BSCNbTheta*2+i]
                 -xHalfLength1[BSCNbTheta*2+i])
    /yHalfLength1[BSCNbTheta*2+i]/2.;
      tanAlpha1[BSCNbTheta*3+i]=tanAlpha1[i]*2.;
      tanAlpha1[BSCNbTheta*4+i]=(xHalfLength2[BSCNbTheta*4+i]
                 -xHalfLength1[BSCNbTheta*4+i])
    /yHalfLength1[BSCNbTheta*4+i]/2.;
      tanAlpha1[BSCNbTheta*5+i]=(xHalfLength2[BSCNbTheta*5+i]
                 -xHalfLength1[BSCNbTheta*5+i])
    /yHalfLength1[BSCNbTheta*5+i]/2.;
      
      tanAlpha2[i]=-(xHalfLength4[i]-xHalfLength3[i])/yHalfLength2[i]/2.;
      //tanAlpha2[BSCNbTheta+i]=(xHalfLength4[BSCNbTheta+i]-xHalfLength3[BSCNbTheta+i])/yHalfLength2[BSCNbTheta+i]/2.;
      tanAlpha2[BSCNbTheta*2+i]=(xHalfLength4[BSCNbTheta*2+i]
                 -xHalfLength3[BSCNbTheta*2+i])
    /yHalfLength2[BSCNbTheta*2+i]/2.;
      tanAlpha2[BSCNbTheta*3+i]=tanAlpha2[i]*2.;
      tanAlpha2[BSCNbTheta*4+i]=(xHalfLength4[BSCNbTheta*4+i]
                 -xHalfLength3[BSCNbTheta*4+i])
    /yHalfLength2[BSCNbTheta*4+i]/2.;
      tanAlpha2[BSCNbTheta*5+i]=(xHalfLength4[BSCNbTheta*5+i]
                 -xHalfLength3[BSCNbTheta*5+i])
    /yHalfLength2[BSCNbTheta*5+i]/2.;
 
      zPosition[BSCNbTheta*5+i]=zPosition[BSCNbTheta*3+i]=zPosition[i]=
    zPosition[i]+totalThickness/2.*cos(thetaPosition[i])
    -yHalfLength1[BSCNbTheta*2+i]*sin(thetaPosition[i]);
      zPosition[i]=totalThickness/2.;//for the newest method
      xPosition[BSCNbTheta*5+i]=xPosition[BSCNbTheta*3+i]=xPosition[i]=
    xPosition[i]+totalThickness/2.*sin(thetaPosition[i])
    +totalThickness*(1./cos(thetaPosition[i+1]-thetaPosition[i])-1)/2.
    *cos(thetaPosition[i]);
      xPosition[i]=totalThickness*(1.-1./cos(angle2)/sin(angle1))/2.;
                                                   //for the newest method
      yPosition[i]=yPosition[i]
    +totalThickness*(1.-1./cos(angle2)/sin(angle1))/2.;
      yPosition[i]=yHalfLength1[BSCNbTheta*2+i]-totalThickness/2.;//for the newest method
      yPosition[BSCNbTheta*3+i]=yPosition[i]*2.+xHalfLength1[BSCNbTheta*3+i];
      yPosition[BSCNbTheta*5+i]=xHalfLength1[BSCNbTheta*5+i];
 
      xPosition[BSCNbTheta+i]=BSCPhiRmin
    +zHalfLength[BSCNbTheta+i]*sin(thetaPosition[i])
    +(3.*yHalfLength1[BSCNbTheta+i]-yHalfLength2[BSCNbTheta+i])/2.
    *cos(thetaPosition[i]);
      yPosition[BSCNbTheta+i]=(xHalfLength1[BSCNbTheta+i]
                   +xHalfLength3[BSCNbTheta+i]
                   +xHalfLength2[BSCNbTheta+i]
                   +xHalfLength4[BSCNbTheta+i])/4.;
      zPosition[BSCNbTheta+i]=BSCPosition1+rminprojected/tan(thetaPosition[i])
    +(2.*yHalfLength1[BSCNbTheta+i]/tan(thetaPosition[i])
      +zHalfLength[BSCNbTheta+i])*cos(thetaPosition[i])
    +(yHalfLength1[BSCNbTheta+i]+yHalfLength2[BSCNbTheta+i])/2.
    *sin(thetaPosition[i]);
 
      xPosition[BSCNbTheta*2+i]=xPosition[i]
    +((yHalfLength1[i]+yHalfLength2[i])/2.+yHalfLength1[BSCNbTheta*2+i])
    *cos(thetaPosition[i]);
      zPosition[BSCNbTheta*2+i]=zPosition[i]
    -((yHalfLength1[i]+yHalfLength2[i])/2.+yHalfLength1[BSCNbTheta*2+i])
    *sin(thetaPosition[i]);
      yPosition[BSCNbTheta*2+i]=(xHalfLength1[BSCNbTheta*2+i]
                 +xHalfLength3[BSCNbTheta*2+i]
                 +xHalfLength2[BSCNbTheta*2+i]
                 +xHalfLength4[BSCNbTheta*2+i])/4.;
 
      xPosition[BSCNbTheta*4+i]=xPosition[i]
    -((yHalfLength1[i]+yHalfLength2[i])/2.+yHalfLength1[BSCNbTheta*4+i])
    *cos(thetaPosition[i]);
      zPosition[BSCNbTheta*4+i]=zPosition[i]
    -((yHalfLength1[i]+yHalfLength2[i])/2.+yHalfLength1[BSCNbTheta*4+i])
    *sin(thetaPosition[i]);
      yPosition[BSCNbTheta*4+i]=(xHalfLength1[BSCNbTheta*4+i]
                 +xHalfLength3[BSCNbTheta*4+i]
                 +xHalfLength2[BSCNbTheta*4+i]
                 +xHalfLength4[BSCNbTheta*4+i])/4.;
 
    }
 
  if(verboseLevel>1)
    for(i=0;i<BSCNbTheta*6;i++)
      {
    G4cout << "The sizes of the " << i+1 << " crystal are:" << G4endl
           << "zHalfLength =" << zHalfLength[i]/cm  << "(cm)," << G4endl
           << "thetaAxis   =" << thetaAxis[i]/deg   << "(deg),"<< G4endl
           << "phiAxis     =" << phiAxis[i]/deg     << "(deg),"<< G4endl
           << "yHalfLength1=" << yHalfLength1[i]/cm << "(cm)," << G4endl
           << "xHalfLength1=" << xHalfLength1[i]/cm << "(cm)," << G4endl
           << "xHalfLength2=" << xHalfLength2[i]/cm << "(cm)," << G4endl
           << "tanAlpha1   =" << tanAlpha1[i]                  << G4endl
           << "yHalfLength2=" << yHalfLength2[i]/cm << "(cm)," << G4endl
           << "xHalfLength3=" << xHalfLength3[i]/cm << "(cm)," << G4endl
           << "xHalfLength4=" << xHalfLength4[i]/cm << "(cm)," << G4endl
           << "tanAlpha2   =" << tanAlpha2[i]       << "."     << G4endl
           << "The position of the " << i+1 << " crystal is:" << G4endl
           << "(" << xPosition[i]/cm << ","
           << yPosition[i]/cm << ","
           << zPosition[i]/cm << ")cm" << G4endl;
      }
  
}

PrintEMCParameters()

void ExtBesEmcGeometry::PrintEMCParameters

(

)

Definition at line 115 of file ExtBesEmcGeometry.cxx.

{
  // Print EMC parameters
  ;
}

ReadEMCParameters()

void ExtBesEmcGeometry::ReadEMCParameters

(

)

Definition at line 24 of file ExtBesEmcGeometry.cxx.

{
  // Read EMC parameters from database
  ExtBesEmcParameter& emcPara=ExtBesEmcParameter::GetInstance();
  //BesEmcParameter emcPara;
  //emcPara.ReadData();
    
  TaperRingDz = emcPara.GetTaperRingDz();
  TaperRingThickness1 = emcPara.GetTaperRingThickness1();
  TaperRingThickness2 = emcPara.GetTaperRingThickness2();
  TaperRingThickness3 = emcPara.GetTaperRingThickness3();
  TaperRingTheta = emcPara.GetTaperRingTheta()*deg;
  TaperRingInnerLength = emcPara.GetTaperRingInnerLength();
  TaperRingOuterLength = emcPara.GetTaperRingOuterLength();
 
  BSCRmin           = emcPara.GetBSCRmin();
  BSCDz             = emcPara.GetBSCDz()-TaperRingThickness3;
 
  BSCRmin1          = emcPara.GetBSCRmin1();
  BSCRmax1          = emcPara.GetBSCRmax1();
  BSCRmin2          = emcPara.GetBSCRmin2();
  //BSCRmax2          = emcPara.GetBSCRmax2();
  BSCDz1            = emcPara.GetBSCDz1()-TaperRingThickness3;
  
  BSCAngleRotat     = emcPara.GetBSCAngleRotat()*deg;
  BSCNbPhi          = emcPara.GetBSCNbPhi();
  BSCNbTheta        = emcPara.GetBSCNbTheta();
  
  BSCCryLength      = emcPara.GetCrystalLength();
  BSCYFront0        = emcPara.GetBSCYFront0();
  BSCYFront         = emcPara.GetBSCYFront();
  BSCYFront1        = emcPara.GetBSCYFront1();
  BSCPosition0      = emcPara.GetBSCPosition0();
  BSCPosition1      = emcPara.GetBSCPosition1();
 
  fTyvekThickness   = emcPara.GetTyvekThickness();
  fAlThickness      = emcPara.GetAlThickness();
  fMylarThickness   = emcPara.GetMylarThickness();
  
  rearBoxLength     = emcPara.GetRearBoxLength();
  rearBoxDz         = emcPara.GetRearBoxDz();
  
  HangingPlateDz    = emcPara.GetHangingPlateDz();
  OCGirderAngle     = emcPara.GetOCGirderAngle()*deg;
 
  rearCasingThickness = emcPara.GetRearCasingThickness();
 
  orgGlassLengthX   = emcPara.GetOrgGlassLengthX();
  orgGlassLengthY   = emcPara.GetOrgGlassLengthY();
  orgGlassLengthZ   = emcPara.GetOrgGlassLengthZ();
 
  PDLengthX         = emcPara.GetPDLengthX();
  PDLengthY         = emcPara.GetPDLengthY();
  PDLengthZ         = emcPara.GetPDLengthZ();
 
  AlPlateDz         = emcPara.GetAlPlateDz();
  PABoxDz           = emcPara.GetPABoxDz();
  PABoxThickness    = emcPara.GetPABoxThickness();
 
  cableDr           = emcPara.GetCableDr();
  waterPipeDr       = emcPara.GetWaterPipeDr();
  waterPipeThickness= emcPara.GetWaterPipeThickness();
 
  SPBarThickness    = emcPara.GetSPBarThickness();
  SPBarThickness1   = emcPara.GetSPBarThickness1();
  SPBarwidth        = emcPara.GetSPBarwidth();
 
  EndRingDz         = emcPara.GetEndRingDz();
  EndRingDr         = emcPara.GetEndRingDr();
  EndRingRmin       = emcPara.GetEndRingRmin();
  
  for(G4int i=0;i<BSCNbTheta*6;i++)
  {
    zHalfLength[i]  =0;
    thetaAxis[i]    =0;
    phiAxis  [i]    =0;
    yHalfLength1[i] =0; 
    xHalfLength1[i] =0;
    xHalfLength2[i] =0;
    tanAlpha1[i]    =0;
    yHalfLength2[i] =0;
    xHalfLength3[i] =0; 
    xHalfLength4[i] =0;
    tanAlpha2[i]    =0;
    thetaPosition[i]=0;
    xPosition[i]    =0;
    yPosition[i]    =0;
    zPosition[i]    =0;
  }     
}

Referenced by ComputeEMCParameters().

SetBSCAngleRotat()

void ExtBesEmcGeometry::SetBSCAngleRotat ( G4double  val )

inline

Definition at line 44 of file ExtBesEmcGeometry.h.

{BSCAngleRotat=val;};

SetBSCCrystalLength()

void ExtBesEmcGeometry::SetBSCCrystalLength ( G4double  val )

inline

Definition at line 39 of file ExtBesEmcGeometry.h.

{BSCCryLength=val;};

SetBSCDz()

void ExtBesEmcGeometry::SetBSCDz ( G4double  val )

inline

Definition at line 36 of file ExtBesEmcGeometry.h.

{ BSCDz=val;};

SetBSCNbPhi()

void ExtBesEmcGeometry::SetBSCNbPhi ( G4int  val )

inline

Definition at line 37 of file ExtBesEmcGeometry.h.

{BSCNbPhi=val;};

SetBSCNbTheta()

void ExtBesEmcGeometry::SetBSCNbTheta ( G4int  val )

inline

Definition at line 38 of file ExtBesEmcGeometry.h.

{BSCNbTheta=val;};

SetBSCPosition0()

void ExtBesEmcGeometry::SetBSCPosition0 ( G4double  val )

inline

Definition at line 42 of file ExtBesEmcGeometry.h.

{BSCPosition0=val;};

SetBSCPosition1()

void ExtBesEmcGeometry::SetBSCPosition1 ( G4double  val )

inline

Definition at line 43 of file ExtBesEmcGeometry.h.

{BSCPosition1=val;};

SetBSCRmin()

void ExtBesEmcGeometry::SetBSCRmin ( G4double  val )

inline

Definition at line 35 of file ExtBesEmcGeometry.h.

{ BSCRmin=val;};

SetBSCYFront()

void ExtBesEmcGeometry::SetBSCYFront ( G4double  val )

inline

Definition at line 41 of file ExtBesEmcGeometry.h.

{BSCYFront=val;};

SetBSCYFront0()

void ExtBesEmcGeometry::SetBSCYFront0 ( G4double  val )

inline

Definition at line 40 of file ExtBesEmcGeometry.h.

{BSCYFront0=val;};

SetCasingThickness()

void ExtBesEmcGeometry::SetCasingThickness

(

G4ThreeVector

val

)

Definition at line 562 of file ExtBesEmcGeometry.cxx.

{
  // change Gap thickness and recompute the calorimeter parameters
  fTyvekThickness = val('X');
  fAlThickness    = val('Y');
  fMylarThickness = val('Z');
}

SetVerboseLevel()

void ExtBesEmcGeometry::SetVerboseLevel ( G4int  val )

inline

Definition at line 33 of file ExtBesEmcGeometry.h.

{ verboseLevel=val;}

Friends And Related Function Documentation

ExtBesEmcConstruction

friend class ExtBesEmcConstruction

friend

Definition at line 24 of file ExtBesEmcGeometry.h.

---

The documentation for this class was generated from the following files:

• ExtBesEmcGeometry.h
• ExtBesEmcGeometry.cxx