Geant4 11.1.1
Toolkit for the simulation of the passage of particles through matter
Loading...
Searching...
No Matches
G4DELPHIMagField Class Reference

#include <G4DELPHIMagField.hh>

+ Inheritance diagram for G4DELPHIMagField:

Public Member Functions

 G4DELPHIMagField ()
 
 ~G4DELPHIMagField ()
 
void GetFieldValue (const G4double yTrack[], G4double B[]) const
 
G4FieldClone () 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 G4DELPHIMagField.hh.

Constructor & Destructor Documentation

◆ G4DELPHIMagField()

G4DELPHIMagField::G4DELPHIMagField ( )

Definition at line 35 of file G4DELPHIMagField.cc.

36{
37}

Referenced by Clone().

◆ ~G4DELPHIMagField()

G4DELPHIMagField::~G4DELPHIMagField ( )

Definition at line 41 of file G4DELPHIMagField.cc.

42{
43}

Member Function Documentation

◆ Clone()

G4Field * G4DELPHIMagField::Clone ( ) const
virtual

Reimplemented from G4Field.

Definition at line 47 of file G4DELPHIMagField.cc.

48{
49 return new G4DELPHIMagField;
50}

◆ GetFieldValue()

void G4DELPHIMagField::GetFieldValue ( const G4double  yTrack[],
G4double  B[] 
) const

Definition at line 54 of file G4DELPHIMagField.cc.

56{
57 G4int i, n = 8 ;
58 G4double a = 0.001 ; // mm -> m
59 G4double x = a*yTrack[0], y = a*yTrack[1], z = a*yTrack[2] ;
60 G4double x2 = x*x, y2 = y*y, z2 = z*z, r2 = x2 + y2 ;
61 G4double r4 = r2*r2, z4 = z2*z2, r6 = r4*r2, z6 = z4*z2 ;
62 G4double r8 = r4*r4, z8 = z4*z4, r10 = r8*r2, z10 = z8*z2 ;
63 G4double rz = z*std::sqrt(r2), r = std::sqrt(r2+a*a) ;
64 G4double Br ;
65 G4double P[8], Q[8] ;
66 static G4ThreadLocal G4double c[8] =
67 {
68 -9.26e-5, -3.51e-5, 2.94e-6, -1.10e-6,
69 6.25e-8, -1.77e-8, -6.88e-10, -7.52e-11
70 } ;
71 P[0] = 2*rz ;
72 P[1] = 4*rz*(r2 - 4.0*z2/3.0) ;
73 P[2] = 6*rz*(r4 - 4*r2*z2 + 1.6*z4) ;
74 P[3] = 8*rz*(r6 - 8*r4*z2 + 9.6*r2*z4 - 64.0*z6/35.0) ;
75 P[4] = 10*rz*(r8 - 40.0*r6*z2/3.0 + 32*r4*z4
76 - 128.0*r2*z6/7.0 + 128.0*z8/63.0);
77 P[5] = 0 ;
78 P[6] = 0 ;
79 P[7] = 0 ;
80
81 Q[0] = r2 - 2*z2 ;
82 Q[1] = r4 - 8*r2*z2 + 8.0*z4/3.0 ;
83 Q[2] = r6 - 18*r4*z2 + 24*r2*z4 - 3.2*z6 ;
84 Q[3] = r8 - 32*r6*z2 + 96*r4*z4 - 51.2*r2*z6 +128.0*z8/35.0 ;
85 Q[4] = r10 - 50*r8*z2 + 800.0*r6*z4/3.0 - 320*r4*z6
86 + 640.0*r2*z8/7.0 - 256.0*z10/63.0 ;
87 Q[5] = 0 ;
88 Q[6] = 0 ;
89 Q[7] = 0 ;
90
91 Br = 0 ;
92 B[2] = 1.2*tesla ; // the principal Bz value of DELPHI detector
93 for(i=0; i<n; ++i)
94 {
95 Br += c[i]*P[i] ;
96 B[2] += c[i]*Q[i] ;
97 }
98 B[0] = Br*x/r ;
99 B[1] = Br*y/r ;
100 return ;
101}
G4double B(G4double temperature)
double G4double
Definition: G4Types.hh:83
int G4int
Definition: G4Types.hh:85
#define G4ThreadLocal
Definition: tls.hh:77

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