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Please see the license in the file LICENSE and URL above * 16 // * for the full disclaimer and the limitatio 16 // * for the full disclaimer and the limitation of liability. * 17 // * 17 // * * 18 // * This code implementation is the result 18 // * This code implementation is the result of the scientific and * 19 // * technical work of the GEANT4 collaboratio 19 // * technical work of the GEANT4 collaboration. * 20 // * By using, copying, modifying or distri 20 // * By using, copying, modifying or distributing the software (or * 21 // * any work based on the software) you ag 21 // * any work based on the software) you agree to acknowledge its * 22 // * use in resulting scientific publicati 22 // * use in resulting scientific publications, and indicate your * 23 // * acceptance of all terms of the Geant4 Sof 23 // * acceptance of all terms of the Geant4 Software license. * 24 // ******************************************* 24 // ******************************************************************** 25 // 25 // 26 // G4MonopoleEq implementation << 27 // 26 // 28 // Created: V.Grichine, 17.11.2009 << 27 // $Id: G4MonopoleEq.cc,v 1.2 2010-03-18 10:23:29 japost Exp $ >> 28 // GEANT4 tag $Name: not supported by cvs2svn $ >> 29 // >> 30 // >> 31 // This is the right-hand side for equation of motion for a >> 32 // magnetic charge in a combined Electro-Magnetic field >> 33 // >> 34 // d(p_c)/ds=g{c-energyB_ - p_c x E}/pc >> 35 // >> 36 // 17.11.09 V.Grichine >> 37 // 29 // ------------------------------------------- 38 // ------------------------------------------------------------------- 30 39 31 #include "G4MonopoleEq.hh" 40 #include "G4MonopoleEq.hh" 32 #include "globals.hh" 41 #include "globals.hh" 33 #include "G4PhysicalConstants.hh" << 34 #include "G4SystemOfUnits.hh" << 35 << 36 G4MonopoleEq::G4MonopoleEq(G4ElectroMagneticFi << 37 : G4EquationOfMotion( emField ) << 38 { << 39 } << 40 << 41 G4MonopoleEq::~G4MonopoleEq() = default; << 42 42 43 void 43 void 44 G4MonopoleEq::SetChargeMomentumMass(G4ChargeSt << 44 G4MonopoleEq::SetChargeMomentumMass(G4double particleCharge, // e+ units 45 G4double, << 45 G4double, 46 G4double p << 46 G4double particleMass) 47 { 47 { 48 G4double pcharge = particleCharge.GetCharge( << 48 fElectroMagCof = eplus*particleCharge; // no *c_light as for ususal q 49 fElectroMagCof = eplus*pcharge; // no *c_l << 50 fElectroMagCof /= 2*fine_structure_const; 49 fElectroMagCof /= 2*fine_structure_const; 51 50 52 fMassCof = particleMass*particleMass ; 51 fMassCof = particleMass*particleMass ; 53 } 52 } 54 53 >> 54 >> 55 55 void 56 void 56 G4MonopoleEq::EvaluateRhsGivenB(const G4double 57 G4MonopoleEq::EvaluateRhsGivenB(const G4double y[], 57 const G4double << 58 const G4double Field[], 58 G4double << 59 G4double dydx[] ) const 59 { 60 { 60 61 61 // Components of y: 62 // Components of y: 62 // 0-2 dr/ds, 63 // 0-2 dr/ds, 63 // 3-5 d(pc)/ds - momentum derivatives 64 // 3-5 d(pc)/ds - momentum derivatives 64 65 65 G4double pSquared = y[3]*y[3] + y[4]*y[4] + 66 G4double pSquared = y[3]*y[3] + y[4]*y[4] + y[5]*y[5] ; 66 67 67 G4double Energy = std::sqrt( pSquared + f 68 G4double Energy = std::sqrt( pSquared + fMassCof ); 68 G4double cof2 = Energy*c_light ; 69 G4double cof2 = Energy*c_light ; 69 70 70 G4double pModuleInverse = 1.0/std::sqrt(pS 71 G4double pModuleInverse = 1.0/std::sqrt(pSquared) ; 71 72 >> 73 // G4double inverse_velocity = Energy * c_light * pModuleInverse; 72 G4double inverse_velocity = Energy * pModul 74 G4double inverse_velocity = Energy * pModuleInverse / c_light; 73 75 74 G4double cof1 = fElectroMagCof*pModuleI 76 G4double cof1 = fElectroMagCof*pModuleInverse ; 75 77 >> 78 // G4double vDotE = y[3]*Field[3] + y[4]*Field[4] + y[5]*Field[5] ; >> 79 76 dydx[0] = y[3]*pModuleInverse ; 80 dydx[0] = y[3]*pModuleInverse ; 77 dydx[1] = y[4]*pModuleInverse ; 81 dydx[1] = y[4]*pModuleInverse ; 78 dydx[2] = y[5]*pModuleInverse ; 82 dydx[2] = y[5]*pModuleInverse ; 79 83 80 dydx[3] = cof1*(cof2*Field[0] - (y[4]*Field 84 dydx[3] = cof1*(cof2*Field[0] - (y[4]*Field[5] - y[5]*Field[4])) ; 81 85 82 dydx[4] = cof1*(cof2*Field[1] - (y[5]*Field 86 dydx[4] = cof1*(cof2*Field[1] - (y[5]*Field[3] - y[3]*Field[5])) ; 83 87 84 dydx[5] = cof1*(cof2*Field[2] - (y[3]*Field 88 dydx[5] = cof1*(cof2*Field[2] - (y[3]*Field[4] - y[4]*Field[3])) ; 85 89 86 dydx[6] = 0.; //not used << 90 dydx[6] = 0.;//not used 87 91 88 // Lab Time of flight 92 // Lab Time of flight 89 // << 90 dydx[7] = inverse_velocity; 93 dydx[7] = inverse_velocity; 91 << 94 return ; 92 return; << 93 } 95 } 94 96