Geant4 11.1.1
Toolkit for the simulation of the passage of particles through matter
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G4QuadrupoleMagField.cc
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1//
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25//
26// G4QuadrupoleMagField implementation
27//
28// 03.02.1997, V.Grichine - Created
29// 11.05.2012, B.Riese - Allow displaced origin and rotation
30// -------------------------------------------------------------------
31
33#include "G4RotationMatrix.hh"
34
35namespace
36{
37 G4RotationMatrix IdentityMatrix;
38}
39
41{
42 fGradient = pGradient;
43 fpMatrix = &IdentityMatrix;
44}
45
46// -------------------------------------------------------------------
47
49 G4ThreeVector pOrigin,
50 G4RotationMatrix* pMatrix)
51{
52 fGradient = pGradient ;
53 fOrigin = pOrigin ;
54 fpMatrix = pMatrix ;
55}
56
57// -------------------------------------------------------------------
58
60{
61 return new G4QuadrupoleMagField(fGradient, fOrigin, fpMatrix);
62}
63
64// -------------------------------------------------------------------
65
67{
68}
69
70// -------------------------------------------------------------------
71
73 G4double B[3] ) const
74{
75 // with displaced origin and rotation
76
77 G4ThreeVector r_global = G4ThreeVector(y[0] - fOrigin.x(),
78 y[1] - fOrigin.y(),
79 y[2] - fOrigin.z());
80
81 const G4ThreeVector r_local = (*fpMatrix) * r_global;
82 const G4ThreeVector B_local( fGradient * r_local.y(),
83 fGradient * r_local.x(), 0);
84 const G4ThreeVector B_global = fpMatrix->inverse() * B_local;
85
86 B[0] = B_global.x();
87 B[1] = B_global.y();
88 B[2] = B_global.z();
89}
G4double B(G4double temperature)
CLHEP::Hep3Vector G4ThreeVector
double G4double
Definition: G4Types.hh:83
double z() const
double x() const
double y() const
HepRotation inverse() const
void GetFieldValue(const G4double yTrack[], G4double B[]) const
G4QuadrupoleMagField(G4double pGradient)