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/// \file field/field05/src/F05Field.cc
/// \brief Implementation of the F05Field class
//

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#include "F05Field.hh"

#include "G4SystemOfUnits.hh"

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F05Field::F05Field() : G4ElectroMagneticField()
{
}

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F05Field::~F05Field()
{
}

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void F05Field::GetFieldValue( const G4double Point[4], G4double* Bfield ) const
{
  // Point[0],Point[1],Point[2] are x-, y-, z-cordinates, Point[3] is time

  const G4double Bz = 0.24*tesla;
  const G4double Er = 2.113987E+6*volt/m;

  G4double Ex,Ey;
 
  G4double posR = std::sqrt(std::pow(Point[0],2) + std::pow(Point[1],2));
  G4double cos_theta, sin_theta;

  if (posR>0){
     cos_theta = Point[0]/(G4double)posR;
     sin_theta = Point[1]/(G4double)posR;
     Ex = -1*Er*cos_theta;//apply radial electric field
     Ey = -1*Er*sin_theta;
  }else{
     Ex=0;
     Ey=0;
  }
  
  Bfield[0]=0;
  Bfield[1]=0;
  Bfield[2]=Bz;

  Bfield[3]=Ex;
  Bfield[4]=Ey;
  Bfield[5]=0;

  return;
}