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Geant4/examples/extended/exoticphysics/monopole/include/G4MonopoleEquation.hh

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  1 //
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 25 //
 26 /// \file exoticphysics/monopole/include/G4MonopoleEquation.hh
 27 /// \brief Definition of the G4MonopoleEquation class
 28 //
 29 //
 30 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 31 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 32 //
 33 //
 34 // class G4MonopoleEquation
 35 //
 36 // Class description:
 37 //
 38 // This is the right-hand side of equation of motion in a combined
 39 // electric and magnetic field for magnetic monopoles.
 40 
 41 // History:
 42 // - Created. V.Grichine, 10.11.98
 43 // - Modified. S.Burdin, 30.04.10
 44 //                B.Bozsogi, 15.06.10
 45 // -------------------------------------------------------------------
 46 
 47 #ifndef G4MONOPOLEEQUATION_hh
 48 #define G4MONOPOLEEQUATION_hh
 49 
 50 #include "G4EquationOfMotion.hh"
 51 // #include "G4ElectroMagneticField.hh"
 52 #include "G4MagneticField.hh"
 53 
 54 class G4MonopoleEquation : public G4EquationOfMotion
 55 {
 56   public:  // with description
 57     G4MonopoleEquation(G4MagneticField* emField);
 58 
 59     ~G4MonopoleEquation();
 60 
 61     virtual void SetChargeMomentumMass(G4ChargeState particleChargeState, G4double momentum,
 62                                        G4double mass);
 63     // magnetic charge in e+ units
 64 
 65     virtual void EvaluateRhsGivenB(const G4double y[], const G4double Field[],
 66                                    G4double dydx[]) const;
 67     // Given the value of the electromagnetic field, this function
 68     // calculates the value of the derivative dydx.
 69 
 70   private:
 71     G4double fMagCharge;
 72     G4double fElCharge;
 73     G4double fMassCof;
 74 };
 75 
 76 #endif
 77