BOSS 7.1.0
BESIII Offline Software System
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EvtKine.cc
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1//--------------------------------------------------------------------------
2//
3// Environment:
4// This software is part of the EvtGen package developed jointly
5// for the BaBar and CLEO collaborations. If you use all or part
6// of it, please give an appropriate acknowledgement.
7//
8// Copyright Information: See EvtGen/COPYRIGHT
9// Copyright (C) 1998 Caltech, UCSB
10//
11// Module: EvtKine.cc
12//
13// Description: routines to calculate decay angles.
14//
15// Modification history:
16//
17// DJL/RYD September 25, 1996 Module created
18//
19//------------------------------------------------------------------------
20//
22#include <math.h>
23#include "EvtGenBase/EvtKine.hh"
30
31
32
33double EvtDecayAngle(const EvtVector4R& p,const EvtVector4R& q,
34 const EvtVector4R& d) {
35
36 double pd=p*d;
37 double pq=p*q;
38 double qd=q*d;
39 double mp2=p.mass2();
40 double mq2=q.mass2();
41 double md2=d.mass2();
42
43 double cost=(pd*mq2-pq*qd)/sqrt((pq*pq-mq2*mp2)*(qd*qd-mq2*md2));
44
45 return cost;
46
47}
48
49double EvtDecayAngleChi(const EvtVector4R& p4_p,const EvtVector4R& p4_d1,
50 const EvtVector4R& p4_d2,const EvtVector4R& p4_h1,
51 const EvtVector4R& p4_h2 ) {
52
53 EvtVector4R p4_d1p,p4_h1p,p4_h2p,p4_d2p;
54
55
56 // boost all vectors parent restframe
57
58 p4_d1p=boostTo(p4_d1,p4_p);
59 p4_d2p=boostTo(p4_d2,p4_p);
60 p4_h1p=boostTo(p4_h1,p4_p);
61 p4_h2p=boostTo(p4_h2,p4_p);
62
63
64 EvtVector4R d1_perp,d1_prime,h1_perp;
66
67 D=p4_d1p+p4_d2p;
68
69 d1_perp=p4_d1p-(D.dot(p4_d1p)/D.dot(D))*D;
70 h1_perp=p4_h1p-(D.dot(p4_h1p)/D.dot(D))*D;
71
72 // orthogonal to both D and d1_perp
73
74 d1_prime=D.cross(d1_perp);
75
76 d1_perp= d1_perp/d1_perp.d3mag();
77 d1_prime= d1_prime/d1_prime.d3mag();
78
79 double x,y;
80
81 x=d1_perp.dot(h1_perp);
82 y=d1_prime.dot(h1_perp);
83
84 double chi=atan2(y,x);
85
86 if (chi<0.0) chi+=EvtConst::twoPi;
87
88 return chi;
89
90}
91
92
93
95 const EvtVector4R& d1,const EvtVector4R& d2){
96
97 EvtVector4C lc=dual(directProd(d1,d2)).cont2(q);
98
99 EvtVector4R l(real(lc.get(0)),real(lc.get(1)),
100 real(lc.get(2)),real(lc.get(3)));
101
102 double pq=p*q;
103
104 return q.mass()*(p*l)/sqrt(-(pq*pq-p.mass2()*q.mass2())*l.mass2());
105
106
107}
108
109
110// Calculate phi using the given 4 vectors (all in the same frame)
111double EvtDecayAnglePhi( const EvtVector4R& z, const EvtVector4R& p, const
112 EvtVector4R& q, const EvtVector4R& d )
113{
114 double eq = (p * q) / p.mass();
115 double ed = (p * d) / p.mass();
116 double mq = q.mass();
117 double q2 = p.mag2r3(q);
118 double qd = p.dotr3(q,d);
119 double zq = p.dotr3(z,q);
120 double zd = p.dotr3(z,d);
121 double alpha = (eq - mq)/(q2 * mq) * qd - ed/mq;
122
123 double y = p.scalartripler3(z,q,d) + alpha * p.scalartripler3(z,q,q);
124 double x = (zq * (qd + alpha * q2) - q2 * (zd + alpha * zq)) / sqrt(q2);
125
126 double phi = atan2(y,x);
127
128 return phi<0 ? (phi+EvtConst::twoPi) : phi;
129}
130
131
132EvtComplex wignerD( int j, int m1, int m2, double phi, double theta, double
133 gamma )
134{
135 EvtComplex gp(0.0, -phi*m1);
136 EvtComplex gm(0.0, -gamma*m2);
137 //double d = EvtdFunction::d(j, m1, m2, theta);
138
139 return exp( gp ) * EvtdFunction::d(2*j, 2*m1,2*m2, theta) * exp( gm ); //pingrg, 2010-11-29, d(j,m1,m2,theta)->d(2*j,2*m1,2*m2,theta)consistent with Djmn in EvtHelSys
140}
141
142
Double_t x[10]
Evt3Rank3C directProd(const EvtVector3C &c1, const EvtVector3C &c2, const EvtVector3C &c3)
EvtComplex exp(const EvtComplex &c)
Definition: EvtComplex.hh:252
EvtDiracSpinor boostTo(const EvtDiracSpinor &sp, const EvtVector4R p4)
double EvtDecayPlaneNormalAngle(const EvtVector4R &p, const EvtVector4R &q, const EvtVector4R &d1, const EvtVector4R &d2)
Definition: EvtKine.cc:94
double EvtDecayAnglePhi(const EvtVector4R &z, const EvtVector4R &p, const EvtVector4R &q, const EvtVector4R &d)
Definition: EvtKine.cc:111
double EvtDecayAngle(const EvtVector4R &p, const EvtVector4R &q, const EvtVector4R &d)
Definition: EvtKine.cc:33
EvtComplex wignerD(int j, int m1, int m2, double phi, double theta, double gamma)
Definition: EvtKine.cc:132
double EvtDecayAngleChi(const EvtVector4R &p4_p, const EvtVector4R &p4_d1, const EvtVector4R &p4_d2, const EvtVector4R &p4_h1, const EvtVector4R &p4_h2)
Definition: EvtKine.cc:49
EvtTensor4C dual(const EvtTensor4C &t2)
Definition: EvtTensor4C.cc:379
const double alpha
****INTEGER imax DOUBLE PRECISION m_pi *DOUBLE PRECISION m_amfin DOUBLE PRECISION m_Chfin DOUBLE PRECISION m_Xenph DOUBLE PRECISION m_sinw2 DOUBLE PRECISION m_GFermi DOUBLE PRECISION m_MfinMin DOUBLE PRECISION m_ta2 INTEGER m_out INTEGER m_KeyFSR INTEGER m_KeyQCD *COMMON c_Semalib $ !copy of input $ !CMS energy $ !beam mass $ !final mass $ !beam charge $ !final charge $ !smallest final mass $ !Z mass $ !Z width $ !EW mixing angle $ !Gmu Fermi $ alphaQED at q
Definition: KKsem.h:33
static const double twoPi
Definition: EvtConst.hh:29
EvtVector4C cont2(const EvtVector4C &v4) const
Definition: EvtTensor4C.cc:474
const EvtComplex & get(int) const
Definition: EvtVector4C.hh:131
double dot(const EvtVector4R &v2) const
Definition: EvtVector4R.cc:199
double mass() const
Definition: EvtVector4R.cc:39
EvtVector4R cross(const EvtVector4R &v2)
Definition: EvtVector4R.cc:171
double d3mag() const
Definition: EvtVector4R.cc:186
double dotr3(const EvtVector4R &p1, const EvtVector4R &p2) const
Definition: EvtVector4R.cc:229
double scalartripler3(const EvtVector4R &p1, const EvtVector4R &p2, const EvtVector4R &p3) const
Definition: EvtVector4R.cc:217
double mag2r3(const EvtVector4R &p1) const
Definition: EvtVector4R.cc:236
double mass2() const
Definition: EvtVector4R.hh:116
static double d(int j, int m1, int m2, double theta)
Definition: EvtdFunction.cc:30
double y[1000]
double * m1
Definition: qcdloop1.h:75
double double * m2
Definition: qcdloop1.h:75