CGEM BOSS 6.6.5.f
BESIII Offline Software System
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EvtSVPCP.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//
10// Module: EvtSVPCP.cc
11//
12// Description: Routine to decay scalar -> vectors+photon
13// including CP violation effects
14//
15// Modification history:
16//
17// Maurizio pierini Nov 11, 2003 Module created
18//
19//------------------------------------------------------------------------
20//
22#include <stdlib.h>
25#include "EvtGenBase/EvtPDL.hh"
33#include "EvtGenBase/EvtId.hh"
35#include <string>
37
39
40void EvtSVPCP::getName(std::string& model_name){
41
42 model_name="SVP_CP";
43
44}
45
46
48
49 return new EvtSVPCP;
50
51}
52
54
55 setProbMax(2*(getArg(3)*getArg(3)+getArg(5)*getArg(5)));
56
57}
58
59
61
62 // check that there are 7 arguments
63 checkNArg(7);
64 checkNDaug(2);
65
67
70
71}
72
74
75 static EvtId B0=EvtPDL::getId("B0");
76 static EvtId B0B=EvtPDL::getId("anti-B0");
77
78 double t;
79 EvtId other_b;
80
81 EvtCPUtil::OtherB(p,t,other_b);
82
83 EvtComplex G1P,G1M, G1_T_even, G1_T_odd;
84
85 double norm = getArg(3)*getArg(3)+getArg(5)*getArg(5);
86
87 G1P=EvtComplex(getArg(3)*cos(getArg(4))/norm,getArg(3)*sin(getArg(4))/norm);
88 G1M=EvtComplex(getArg(5)*cos(getArg(6))/norm,getArg(5)*sin(getArg(6))/norm);
89
90 G1_T_even = (G1P+G1M)/sqrt(2.0);
91 G1_T_odd = (G1P-G1M)/sqrt(2.0);
92
93 EvtComplex lambda_km =EvtComplex(cos(-2*getArg(0)),sin(-2*getArg(0)));
94
95 double cdmt=cos(getArg(1)*t/(2*EvtConst::c));
96 double sdmt=sin(getArg(1)*t/(2*EvtConst::c));
97
98 EvtComplex cG1_T_even,cG1_T_odd;
99
100 if (other_b==B0B){
101 cG1_T_even = G1_T_even*(cdmt+lambda_km*EvtComplex(0.0,getArg(2)*sdmt));
102 cG1_T_odd = G1_T_odd*(cdmt-lambda_km*EvtComplex(0.0,getArg(2)*sdmt));
103 }
104 if (other_b==B0){
105 cG1_T_even = G1_T_even*(cdmt+(1.0/lambda_km)*EvtComplex(0.0,getArg(2)*sdmt));
106 cG1_T_odd =-G1_T_odd*(cdmt-(1.0/lambda_km)*EvtComplex(0.0,getArg(2)*sdmt));
107 }
108
109 EvtComplex hp, hm, h0;
110
111 // This part is adopted from EvtSVVHel and since there is
112 // a photon that can not have helicity 0 this is put in by
113 // setting the h0 amplitude to 0.
114 hm=(cG1_T_even-cG1_T_odd)/sqrt(2.0);
115 hp=(cG1_T_even+cG1_T_odd)/sqrt(2.0);
116 h0=EvtComplex(0.0,0.0);
117
118 EvtParticle *v1,*ph;
119
121 v1 = p->getDaug(0);
122 ph = p->getDaug(1);
123 EvtVector4R momv1 = v1->getP4();
124 EvtVector4R momph = ph->getP4();
125
126 EvtTensor4C d,g;
127
128 g.setdiag(1.0,-1.0,-1.0,-1.0);
129
130 EvtVector4R v,vp;
131
132 v=momv1/momv1.d3mag();
133 vp=(momv1+momph)/(momv1+momph).mass();
134
135 d=((1.0/sqrt(3.0))*(h0-(hp+hm))*(-1.0/sqrt(3.0)))*g+
136 ((1.0/sqrt(2.0))*(hp-hm)*EvtComplex(0.0,1.0)*(sqrt(1.0/2.0)))*dual(directProd(v,vp))+
137 (sqrt(2.0/3.0)*(h0+0.5*(hp+hm))*sqrt(3.0/2.0))*(directProd(v,v)+(1.0/3.0)*g);
138
139 EvtVector4C ep0,ep1,ep2;
140
141 ep0=d.cont1(v1->eps(0).conj());
142 ep1=d.cont1(v1->eps(1).conj());
143 ep2=d.cont1(v1->eps(2).conj());
144
145 EvtVector4C ep20,ep21,ep22;
146
147 ep20=ph->epsParentPhoton(0).conj();
148 ep21=ph->epsParentPhoton(1).conj();
149
150 vertex(0,0,ep0*ep20);
151 vertex(0,1,ep0*ep21);
152
153 vertex(1,0,ep1*ep20);
154 vertex(1,1,ep1*ep21);
155
156 vertex(2,0,ep2*ep20);
157 vertex(2,1,ep2*ep21);
158
159
160 return ;
161
162}
163
Evt3Rank3C directProd(const EvtVector3C &c1, const EvtVector3C &c2, const EvtVector3C &c3)
EvtTensor4C dual(const EvtTensor4C &t2)
Definition: EvtTensor4C.cc:379
double sin(const BesAngle a)
double cos(const BesAngle a)
**********Class see also m_nmax DOUBLE PRECISION m_amel DOUBLE PRECISION m_x2 DOUBLE PRECISION m_alfinv DOUBLE PRECISION m_Xenph INTEGER m_KeyWtm INTEGER m_idyfs DOUBLE PRECISION m_zini DOUBLE PRECISION m_q2 DOUBLE PRECISION m_Wt_KF DOUBLE PRECISION m_WtCut INTEGER m_KFfin *COMMON c_KarLud $ !Input CMS energy[GeV] $ !CMS energy after beam spread beam strahlung[GeV] $ !Beam energy spread[GeV] $ !z boost due to beam spread $ !electron beam mass *ff pair spectrum $ !minimum v
Definition: KarLud.h:35
static void OtherB(EvtParticle *p, double &t, EvtId &otherb)
Definition: EvtCPUtil.cc:229
static const double c
Definition: EvtConst.hh:32
void vertex(const EvtComplex &amp)
Definition: EvtDecayAmp.hh:37
void checkSpinDaughter(int d1, EvtSpinType::spintype sp)
void checkSpinParent(EvtSpinType::spintype sp)
double getArg(int j)
void setProbMax(double prbmx)
void checkNDaug(int d1, int d2=-1)
EvtId * getDaugs()
Definition: EvtDecayBase.hh:65
void checkNArg(int a1, int a2=-1, int a3=-1, int a4=-1)
Definition: EvtId.hh:27
static EvtId getId(const std::string &name)
Definition: EvtPDL.cc:287
virtual EvtVector4C epsParentPhoton(int i)
Definition: EvtParticle.cc:585
const EvtVector4R & getP4() const
Definition: EvtParticle.cc:121
EvtParticle * getDaug(int i)
Definition: EvtParticle.cc:85
virtual EvtVector4C eps(int i) const
Definition: EvtParticle.cc:574
double initializePhaseSpace(int numdaughter, EvtId *daughters, double poleSize=-1., int whichTwo1=0, int whichTwo2=1)
EvtDecayBase * clone()
Definition: EvtSVPCP.cc:47
void initProbMax()
Definition: EvtSVPCP.cc:53
void init()
Definition: EvtSVPCP.cc:60
void getName(std::string &name)
Definition: EvtSVPCP.cc:40
EvtSVPCP()
Definition: EvtSVPCP.hh:40
virtual ~EvtSVPCP()
Definition: EvtSVPCP.cc:38
void decay(EvtParticle *p)
Definition: EvtSVPCP.cc:73
void setdiag(double t00, double t11, double t22, double t33)
Definition: EvtTensor4C.cc:218
EvtVector4C cont1(const EvtVector4C &v4) const
Definition: EvtTensor4C.cc:461
EvtVector4C conj() const
Definition: EvtVector4C.hh:206
double mass() const
Definition: EvtVector4R.cc:39
double d3mag() const
Definition: EvtVector4R.cc:186
int t()
Definition: t.c:1