BOSS 7.0.2
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EvtSSDCP.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) 2001 Caltech
10//
11// Module: EvtSSDCP.cc
12//
13// Description: See EvtSSDCP.hh
14//
15// Modification history:
16//
17// RYD August 12, 2001 Module created
18// F. Sandrelli, Fernando M-V March 1, 2002 Debugged and added z parameter (CPT violation)
19//------------------------------------------------------------------------
20//
22#include <stdlib.h>
27#include "EvtGenBase/EvtPDL.hh"
32#include <string>
34using std::endl;
35
37
38void EvtSSDCP::getName(std::string& model_name){
39
40 model_name="SSD_CP";
41
42}
43
44
46
47 return new EvtSSDCP;
48
49}
50
52
53 // check that there are 8 or 12 or 14 arguments
54
55 checkNArg(14,12,8);
56 checkNDaug(2);
57
60
61 // FS commented this check to include alias of B0
62 // if ( !((getParentId() == EvtPDL::getId("B0"))||(getParentId() == EvtPDL::getId("B0B"))) ) {
63 // report(ERROR, "EvtGen") << "EvtSSDCP cannot decay "
64 // << EvtPDL::name(getParentId())
65 // << ". Must be specified to decay"
66 // << " only B0 or a B0B ." << endl;
67 // report(ERROR,"EvtGen") << "Will terminate execution!"<<endl;
68 // ::abort();
69 //}
70
71 if ( (!(d1type == EvtSpinType::SCALAR || d2type == EvtSpinType::SCALAR))||
72 (!((d2type==EvtSpinType::SCALAR)||(d2type==EvtSpinType::VECTOR)||(d2type==EvtSpinType::TENSOR)))||
73 (!((d1type==EvtSpinType::SCALAR)||(d1type==EvtSpinType::VECTOR)||(d1type==EvtSpinType::TENSOR)))
74 ) {
75 report(ERROR,"EvtGen") << "EvtSSDCP generator expected "
76 << "one of the daugters to be a scalar, the other either scalar, vector, or tensor, found:"
77 << EvtPDL::name(getDaug(0)).c_str()<<" and "<<EvtPDL::name(getDaug(1)).c_str()<<endl;
78 report(ERROR,"EvtGen") << "Will terminate execution!"<<endl;
79 ::abort();
80 }
81
82 _dm=getArg(0)/EvtConst::c; //units of 1/mm
83
84 _dgog=getArg(1);
85
86
87 _qoverp=getArg(2)*EvtComplex(cos(getArg(3)),sin(getArg(3)));
88 _poverq=1.0/_qoverp;
89
90 _A_f=getArg(4)*EvtComplex(cos(getArg(5)),sin(getArg(5)));
91
92 _Abar_f=getArg(6)*EvtComplex(cos(getArg(7)),sin(getArg(7)));
93
94 if (getNArg()>=12){
95 _eigenstate=false;
96 _A_fbar=getArg(8)*EvtComplex(cos(getArg(9)),sin(getArg(9)));
97 _Abar_fbar=getArg(10)*EvtComplex(cos(getArg(11)),sin(getArg(11)));
98 }
99 else{
100 //I'm somewhat confused about this. For a CP eigenstate set the
101 //amplitudes to the same. For a non CP eigenstate CPT invariance
102 //is enforced. (ryd)
103 if (
108 _eigenstate=true;
109 }else{
110 _eigenstate=false;
111 _A_fbar=conj(_Abar_f);
112 _Abar_fbar=conj(_A_f);
113 }
114 }
115
116 //FS: new check for z
117 if (getNArg()==14){ //FS Set _z parameter if provided else set it 0
118 _z=EvtComplex(getArg(12),getArg(13));
119 }
120 else{
121 _z=EvtComplex(0.0,0.0);
122 }
123
124 // FS substituted next 2 lines...
125
126
127 //
128 // _gamma=EvtPDL::getctau(EvtPDL::getId("B0")); //units of 1/mm
129 //_dgamma=_gamma*0.5*_dgog;
130 //
131 // ...with:
132
133 _gamma=1/EvtPDL::getctau(EvtPDL::getId("B0")); //gamma/c (1/mm)
134 _dgamma=_gamma*_dgog; //dgamma/c (1/mm)
135
136 if (verbose()){
137 report(INFO,"EvtGen") << "SSD_CP will generate CP/CPT violation:"
138 << endl << endl
139 << " " << EvtPDL::name(getParentId()).c_str() << " --> "
140 << EvtPDL::name(getDaug(0)).c_str() << " + "
141 << EvtPDL::name(getDaug(1)).c_str() << endl << endl
142 << "using parameters:" << endl << endl
143 << " delta(m) = " << _dm << " hbar/ps" << endl
144 << "dGamma = " << _dgamma <<" ps-1" <<endl
145 << " q/p = " << _qoverp << endl
146 << " z = " << _z << endl
147 << " tau = " << 1./_gamma << " ps" << endl;
148 }
149
150}
151
153 double theProbMax =
154 abs(_A_f) * abs(_A_f) +
155 abs(_Abar_f) * abs(_Abar_f) +
156 abs(_A_fbar) * abs(_A_fbar) +
157 abs(_Abar_fbar) * abs(_Abar_fbar);
158
159 if (_eigenstate) theProbMax*=2;
160
163 if (d1type==EvtSpinType::TENSOR||d2type==EvtSpinType::TENSOR) theProbMax*=10;
164
165 setProbMax(theProbMax);
166}
167
169
170 static EvtId B0=EvtPDL::getId("B0");
171 static EvtId B0B=EvtPDL::getId("anti-B0");
172
173 double t;
174 EvtId other_b;
175 EvtId daugs[2];
176
177 int flip=0;
178 if (!_eigenstate){
179 if (EvtRandom::Flat(0.0,1.0)<0.5) flip=1;
180 }
181
182 if (!flip) {
183 daugs[0]=getDaug(0);
184 daugs[1]=getDaug(1);
185 }
186 else{
187 daugs[0]=EvtPDL::chargeConj(getDaug(0));
188 daugs[1]=EvtPDL::chargeConj(getDaug(1));
189 }
190
191 EvtParticle *d;
192 p->initializePhaseSpace(2, daugs);
193
194 EvtComplex amp;
195
196
197 EvtCPUtil::OtherB(p,t,other_b,0.5); // t is c*Dt (mm)
198
199 //if (flip) t=-t;
200
201 //FS We assume DGamma=GammaLow-GammaHeavy and Dm=mHeavy-mLow
202 EvtComplex expL=exp(-EvtComplex(-0.25*_dgamma*t,0.5*_dm*t));
203 EvtComplex expH=exp(EvtComplex(-0.25*_dgamma*t,0.5*_dm*t));
204 //FS Definition of gp and gm
205 EvtComplex gp=0.5*(expL+expH);
206 EvtComplex gm=0.5*(expL-expH);
207 //FS Calculation os sqrt(1-z^2)
208 EvtComplex sqz=sqrt(abs(1-_z*_z))*exp(EvtComplex(0,arg(1-_z*_z)/2));
209
210 //EvtComplex BB=0.5*(expL+expH); // <B0|B0(t)>
211 //EvtComplex barBB=_qoverp*0.5*(expL-expH); // <B0bar|B0(t)>
212 //EvtComplex BbarB=_poverq*0.5*(expL-expH); // <B0|B0bar(t)>
213 //EvtComplex barBbarB=BB; // <B0bar|B0bar(t)>
214 // FS redefinition of these guys... (See BAD #188 eq.35 for ref.)
215 // q/p is taken as in the BaBar Phys. Book (opposite sign wrt ref.)
216 EvtComplex BB=gp+_z*gm; // <B0|B0(t)>
217 EvtComplex barBB=sqz*_qoverp*gm; // <B0bar|B0(t)>
218 EvtComplex BbarB=sqz*_poverq*gm; // <B0|B0bar(t)>
219 EvtComplex barBbarB=gp-_z*gm; // <B0bar|B0bar(t)>
220
221 if (!flip){
222 if (other_b==B0B){
223 //at t=0 we have a B0
224 //report(INFO,"EvtGen") << "B0B"<<endl;
225 amp=BB*_A_f+BbarB*_Abar_f;
226 //std::cout << "noflip B0B tag:"<<amp<<std::endl;
227 //amp=0.0;
228 }
229 if (other_b==B0){
230 //report(INFO,"EvtGen") << "B0"<<endl;
231 amp=barBB*_A_f+barBbarB*_Abar_f;
232 }
233 }else{
234 if (other_b==B0){
235 amp=barBB*_A_fbar+barBbarB*_Abar_fbar;
236 //std::cout << "flip B0 tag:"<<amp<<std::endl;
237 //amp=0.0;
238 }
239 if (other_b==B0B){
240 amp=BB*_A_fbar+BbarB*_Abar_fbar;
241 }
242 }
243
244
245 EvtVector4R p4_parent=p->getP4Restframe();
246 double m_parent=p4_parent.mass();
247
249
250 EvtVector4R momv;
251 EvtVector4R moms;
252
253 if (d2type==EvtSpinType::SCALAR){
254 d2type=EvtPDL::getSpinType(getDaug(0));
255 d= p->getDaug(0);
256 momv = d->getP4();
257 moms = p->getDaug(1)->getP4();
258 }
259 else{
260 d= p->getDaug(1);
261 momv = d->getP4();
262 moms = p->getDaug(0)->getP4();
263 }
264
265
266
267 if (d2type==EvtSpinType::SCALAR) {
268 vertex(amp);
269 }
270
271 if (d2type==EvtSpinType::VECTOR) {
272
273 double norm=momv.mass()/(momv.d3mag()*p->mass());
274
275 vertex(0,amp*norm*p4_parent*(d->epsParent(0)));
276 vertex(1,amp*norm*p4_parent*(d->epsParent(1)));
277 vertex(2,amp*norm*p4_parent*(d->epsParent(2)));
278
279 }
280
281 if (d2type==EvtSpinType::TENSOR) {
282
283 double norm=d->mass()*d->mass()/(m_parent*d->getP4().d3mag()*d->getP4().d3mag());
284
285
286 vertex(0,amp*norm*d->epsTensorParent(0).cont1(p4_parent)*p4_parent);
287 vertex(1,amp*norm*d->epsTensorParent(1).cont1(p4_parent)*p4_parent);
288 vertex(2,amp*norm*d->epsTensorParent(2).cont1(p4_parent)*p4_parent);
289 vertex(3,amp*norm*d->epsTensorParent(3).cont1(p4_parent)*p4_parent);
290 vertex(4,amp*norm*d->epsTensorParent(4).cont1(p4_parent)*p4_parent);
291
292 }
293
294
295 return ;
296}
297
Evt3Rank3C conj(const Evt3Rank3C &t2)
Definition: Evt3Rank3C.cc:175
EvtComplex exp(const EvtComplex &c)
Definition: EvtComplex.hh:252
double arg(const EvtComplex &c)
Definition: EvtComplex.hh:227
ostream & report(Severity severity, const char *facility)
Definition: EvtReport.cc:36
@ ERROR
Definition: EvtReport.hh:49
@ INFO
Definition: EvtReport.hh:52
double sin(const BesAngle a)
double cos(const BesAngle a)
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
double getArg(int j)
void setProbMax(double prbmx)
EvtId getParentId()
Definition: EvtDecayBase.hh:60
void checkNDaug(int d1, int d2=-1)
void checkNArg(int a1, int a2=-1, int a3=-1, int a4=-1)
EvtId getDaug(int i)
Definition: EvtDecayBase.hh:66
Definition: EvtId.hh:27
static std::string name(EvtId i)
Definition: EvtPDL.hh:64
static EvtId chargeConj(EvtId id)
Definition: EvtPDL.cc:208
static EvtSpinType::spintype getSpinType(EvtId i)
Definition: EvtPDL.hh:61
static EvtId getId(const std::string &name)
Definition: EvtPDL.cc:287
static double getctau(EvtId i)
Definition: EvtPDL.hh:55
virtual EvtVector4C epsParent(int i) const
Definition: EvtParticle.cc:565
virtual EvtTensor4C epsTensorParent(int i) const
Definition: EvtParticle.cc:657
EvtVector4R getP4Restframe()
Definition: EvtParticle.cc:700
const EvtVector4R & getP4() const
Definition: EvtParticle.cc:121
EvtParticle * getDaug(int i)
Definition: EvtParticle.cc:85
double mass() const
Definition: EvtParticle.cc:127
double initializePhaseSpace(int numdaughter, EvtId *daughters, double poleSize=-1., int whichTwo1=0, int whichTwo2=1)
static double Flat()
Definition: EvtRandom.cc:73
EvtDecayBase * clone()
Definition: EvtSSDCP.cc:45
EvtSSDCP()
Definition: EvtSSDCP.hh:34
void init()
Definition: EvtSSDCP.cc:51
virtual ~EvtSSDCP()
Definition: EvtSSDCP.cc:36
void getName(std::string &name)
Definition: EvtSSDCP.cc:38
void initProbMax()
Definition: EvtSSDCP.cc:152
void decay(EvtParticle *p)
Definition: EvtSSDCP.cc:168
EvtVector4C cont1(const EvtVector4C &v4) const
Definition: EvtTensor4C.cc:461
double mass() const
Definition: EvtVector4R.cc:39
double d3mag() const
Definition: EvtVector4R.cc:186
int t()
Definition: t.c:1