Geant4 10.7.0
Toolkit for the simulation of the passage of particles through matter
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G4HarmonicPolMagField Class Reference

#include <G4HarmonicPolMagField.hh>

+ Inheritance diagram for G4HarmonicPolMagField:

Public Member Functions

 G4HarmonicPolMagField ()
 
 ~G4HarmonicPolMagField ()
 
void GetFieldValue (const G4double yTrack[], G4double B[]) const
 
G4HarmonicPolMagFieldClone () const
 
- Public Member Functions inherited from G4MagneticField
 G4MagneticField ()
 
virtual ~G4MagneticField ()
 
 G4MagneticField (const G4MagneticField &r)
 
G4MagneticFieldoperator= (const G4MagneticField &p)
 
G4bool DoesFieldChangeEnergy () const
 
virtual void GetFieldValue (const G4double Point[4], G4double *Bfield) const =0
 
- Public Member Functions inherited from G4Field
 G4Field (G4bool gravityOn=false)
 
 G4Field (const G4Field &)
 
virtual ~G4Field ()
 
G4Fieldoperator= (const G4Field &p)
 
virtual void GetFieldValue (const G4double Point[4], G4double *fieldArr) const =0
 
virtual G4bool DoesFieldChangeEnergy () const =0
 
G4bool IsGravityActive () const
 
void SetGravityActive (G4bool OnOffFlag)
 
virtual G4FieldClone () const
 

Additional Inherited Members

- Static Public Attributes inherited from G4Field
static constexpr G4int MAX_NUMBER_OF_COMPONENTS = 24
 

Detailed Description

Definition at line 44 of file G4HarmonicPolMagField.hh.

Constructor & Destructor Documentation

◆ G4HarmonicPolMagField()

G4HarmonicPolMagField::G4HarmonicPolMagField ( )

Definition at line 34 of file G4HarmonicPolMagField.cc.

35{
36}

Referenced by Clone().

◆ ~G4HarmonicPolMagField()

G4HarmonicPolMagField::~G4HarmonicPolMagField ( )

Definition at line 45 of file G4HarmonicPolMagField.cc.

46{
47}

Member Function Documentation

◆ Clone()

G4HarmonicPolMagField * G4HarmonicPolMagField::Clone ( ) const
virtual

Reimplemented from G4Field.

Definition at line 38 of file G4HarmonicPolMagField.cc.

◆ GetFieldValue()

void G4HarmonicPolMagField::GetFieldValue ( const G4double  yTrack[],
G4double  B[] 
) const

Definition at line 51 of file G4HarmonicPolMagField.cc.

53{
54 G4double a = 1.00 ; // mm -> m
55 G4double x = a*yTrack[0], y = a*yTrack[1], z = a*yTrack[2] ;
56 G4double x2 = x*x, y2 = y*y, z2 = z*z ;
57 G4double x3 = x2*x, y3 = y2*y, z3 = z2*z ;
58 G4double xy = x*y, xz = x*z, yz = y*z, xyz = x*y*z ;
60 c[24] = {
61 .010, .010, .010, // 3(0)
62 .0001, .0001, .0001, .0001, .0001, // 5(1)
63 .00001, .00001, .00001, .00001, .00001, .00001, .00001, // 7(2)
64 .000001, .000001, .000001, .000001, .000001, .000001,
65 .0000001, .0000001, .0000001 // 9(3)
66 } ; // total : 24
67
68 // for(auto i=0;i<24; ++i)
69 // {
70 // c[i] = 1.0*c[i] ;
71 // }
72 B[0] = c[1]
73 -2*c[3]*x + c[4]*z +c[6]*y -2*c[7]*x
74 -6*c[8]*xz + c[9]*(z2-x2) -2*c[10]*xy + c[11]*yz - 2*c[12]*xz
75 +c[13]*(y2-x2) - 6*c[14]*xy
76 -4*c[15]*(3*x*z2-x3) +c[16]*(z3-3*x2*z) - 6*c[17]*xyz +c[18]*y*(z2-x2)
77 -2*c[19]*(x*z2+x*y2-2*x3/3) + c[20]*z*(y2-x2) - 6*c[21]*xyz
78 +c[22]*(y3-3*x2*y) - 4*c[23]*(3*x*y2-x3) ;
79
80 B[1] = c[2]
81 +c[5]*z + c[6]*x + 2*c[7]*y
82 +c[10]*(z2-x2) + c[11]*xz +2*c[12]*yz +2*c[13]*xy + 3*c[14]*(y2-x2)
83 +c[17]*(z3-3*x2*z) + c[18]*(x*z2-x3/3) +2*c[19]*y*(z2-x2)
84 +2*c[20]*xyz
85 +3*c[21]*z*(y2-x2) + c[22]*(3*x*y2-x3) + 4*c[23]*(y3-3*x2*y) ;
86
87 B[2] = c[0]
88 +c[3]*z + c[4]*x + c[5]*y
89 +3*c[8]*(z2-x2) + 2*c[9]*xz + 2*c[10]*yz + c[11]*xy + c[12]*(y2-x2)
90 +4*c[15]*(z3-3*x2*z) + c[16]*(3*x*z2-x3) + 3*c[17]*(y*z2-x2*y)
91 +2*c[18]*xyz
92 +2*c[19]*z*(y2-x2) + c[20]*(x*y2-x3/3) + c[21]*(y3-3*x2*y) ;
93 for(auto i=0; i<3 ; ++i)
94 {
95 B[i] = 0.1*B[i] ;
96 }
97}
double B(double temperature)
double G4double
Definition: G4Types.hh:83
#define G4ThreadLocal
Definition: tls.hh:77

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