LArSoft  v06_85_00
Liquid Argon Software toolkit - http://larsoft.org/
MedicalBeam.cc
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26 // $Id: MedicalBeam.cc 66892 2013-01-17 10:57:59Z gunter $
27 // ====================================================================
28 // MedicalBeam.cc
29 //
30 // 2005 Q
31 // ====================================================================
32 #include "MedicalBeam.hh"
33 #include "Randomize.hh"
34 #include "G4Event.hh"
35 #include "G4ParticleTable.hh"
36 #include "G4PrimaryVertex.hh"
37 
38 using namespace CLHEP;
39 
40 #include <cmath>
41 
42 // ====================================================================
43 //
44 // class description
45 //
46 // ====================================================================
47 
50  : particle(0),
51  kineticE(1.*MeV),
52  sourcePosition(G4ThreeVector()),
53  SSD(1.*m),
54  fieldShape(MedicalBeam::SQUARE),
55  fieldR(10.*cm)
57 {
58  fieldXY[0]= fieldXY[1]= 10.*cm;
59 }
60 
61 
65 {
66 }
67 
68 
72 {
73  // uniform distribution in a limitted solid angle
74  G4double dr;
76  dr= std::sqrt(sqr(fieldXY[0]/2.)+sqr(fieldXY[1]/2.));
77  } else {
78  dr= fieldR;
79  }
80 
81  G4double sin0= dr/SSD;
82  G4double cos0= std::sqrt(1.-sqr(sin0));
83 
84  G4double dcos, dsin, dphi, z;
85 
86  G4double x= DBL_MAX;
87  G4double y= DBL_MAX;
88 
89  G4double xmax, ymax;
91  xmax= fieldXY[0]/2./SSD;
92  ymax= fieldXY[1]/2./SSD;
93  } else {
94  xmax= ymax= DBL_MAX-1.;
95  }
96 
97  while(! (std::abs(x)< xmax && std::abs(y)< ymax) ) {
98  dcos= RandFlat::shoot(cos0, 1.);
99  dsin= std::sqrt(1.-sqr(dcos));
100  dphi= RandFlat::shoot(0., twopi);
101 
102  x= std::cos(dphi)*dsin*dcos;
103  y= std::sin(dphi)*dsin*dcos;
104  }
105  z= dcos;
106 
107  return G4ThreeVector(x,y,z);
108 }
109 
110 
112 void MedicalBeam::GeneratePrimaries(G4Event* anEvent)
114 {
115  if(particle==0) return;
116 
117  // create a new vertex
118  G4PrimaryVertex* vertex= new G4PrimaryVertex(sourcePosition, 0.*ns);
119 
120  // momentum
121  G4double mass= particle-> GetPDGMass();
122  G4double p= std::sqrt(sqr(mass+kineticE)-sqr(mass));
123  G4ThreeVector pmon= p*GenerateBeamDirection();
124  G4PrimaryParticle* primary= new G4PrimaryParticle(particle,
125  pmon.x(),
126  pmon.y(),
127  pmon.z());
128  // set primary to vertex
129  vertex-> SetPrimary(primary);
130 
131  // set vertex to event
132  anEvent-> AddPrimaryVertex(vertex);
133 }
134 
Float_t x
Definition: compare.C:6
G4ParticleDefinition * particle
Definition: MedicalBeam.hh:51
virtual void GeneratePrimaries(G4Event *anEvent)
Definition: MedicalBeam.cc:112
G4double fieldXY[2]
Definition: MedicalBeam.hh:57
Float_t y
Definition: compare.C:6
Double_t z
Definition: plot.C:279
T sqr(T v)
G4ThreeVector sourcePosition
Definition: MedicalBeam.hh:53
G4double SSD
Definition: MedicalBeam.hh:55
FieldShape fieldShape
Definition: MedicalBeam.hh:56
G4double kineticE
Definition: MedicalBeam.hh:52
G4ThreeVector GenerateBeamDirection() const
Definition: MedicalBeam.cc:70
G4double fieldR
Definition: MedicalBeam.hh:58
vertex reconstruction