BOSS 7.1.0
BESIII Offline Software System
Loading...
Searching...
No Matches
EvtVSSBMixCPT.cc
Go to the documentation of this file.
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) 2002 INFN-Pisa
10//
11// Module: EvtVSSBMixCPT.cc
12//
13// Description:
14// Routine to decay vector-> scalar scalar with coherent BB-like mixing
15// including CPT effects
16// Based on VSSBMIX
17//
18// Modification history:
19//
20// F. Sandrelli, Fernando M-V March 03, 2002
21//
22//------------------------------------------------------------------------
23//
25#include <stdlib.h>
29#include "EvtGenBase/EvtPDL.hh"
33#include "EvtGenBase/EvtId.hh"
34#include <string>
36using std::endl;
37
39
40void EvtVSSBMixCPT::getName(std::string& model_name){
41 model_name="VSS_BMIX";
42}
43
44
46 return new EvtVSSBMixCPT;
47}
48
50
51 // check that there we are provided exactly one parameter
52 if ( getNArg()>3) checkNArg(14,12,8);
53
54 if (getNArg()<1) {
55 report(ERROR,"EvtGen") << "EvtVSSBMix generator expected "
56 << " at least 1 argument (deltam) but found:"<<getNArg()<<endl;
57 report(ERROR,"EvtGen") << "Will terminate execution!"<<endl;
58 ::abort();
59 }
60 // check that we are asked to produced exactly 2 daughters
61 //4 are allowed if they are aliased..
62 checkNDaug(2,4);
63
64 if ( getNDaug()==4) {
65 if ( getDaug(0)!=getDaug(2)||getDaug(1)!=getDaug(3)){
66 report(ERROR,"EvtGen") << "EvtVSSBMixCPT generator allows "
67 << " 4 daughters only if 1=3 and 2=4"
68 << " (but 3 and 4 are aliased "<<endl;
69 report(ERROR,"EvtGen") << "Will terminate execution!"<<endl;
70 ::abort();
71 }
72 }
73 // check that we are asked to decay a vector particle into a pair
74 // of scalar particles
75
77
80
81 // check that our daughter particles are charge conjugates of each other
82 if(!(EvtPDL::chargeConj(getDaug(0)) == getDaug(1))) {
83 report(ERROR,"EvtGen") << "EvtVSSBMixCPT generator expected daughters "
84 << "to be charge conjugate." << endl
85 << " Found " << EvtPDL::name(getDaug(0)).c_str() << " and "
86 << EvtPDL::name(getDaug(1)).c_str() << endl;
87 report(ERROR,"EvtGen") << "Will terminate execution!"<<endl;
88 ::abort();
89 }
90 // check that both daughter particles have the same lifetime
92 report(ERROR,"EvtGen") << "EvtVSSBMixCPT generator expected daughters "
93 << "to have the same lifetime." << endl
94 << " Found ctau = "
95 << EvtPDL::getctau(getDaug(0)) << " mm and "
96 << EvtPDL::getctau(getDaug(1)) << " mm" << endl;
97 report(ERROR,"EvtGen") << "Will terminate execution!"<<endl;
98 ::abort();
99 }
100 // precompute quantities that will be used to generate events
101 // and print out a summary of parameters for this decay
102
103 // mixing frequency in hbar/mm
104 _freq= getArg(0)/EvtConst::c;
105
106 // deltaG
107 double gamma= 1/EvtPDL::getctau(getDaug(0)); // gamma/c (1/mm)
108 _dGamma=0.0;
109 double dgog=0.0;
110 if ( getNArg() > 1 ) {
111 dgog=getArg(1);
112 _dGamma=dgog*gamma;
113 }
114 // q/p
115 _qoverp = EvtComplex(1.0,0.0);
116 if ( getNArg() == 3){
117 _qoverp = EvtComplex(getArg(2),0.0);
118 }
119 if ( getNArg() > 3) {
120 _qoverp = getArg(2)*EvtComplex(cos(getArg(3)),sin(getArg(3)));
121 }
122 _poverq=1.0/_qoverp;
123
124 // decay amplitudes
125 _A_f=EvtComplex(1.0,0.0);
126 _Abar_f=EvtComplex(0.0,0.0);
127 _A_fbar=_Abar_f; // CPT conservation
128 _Abar_fbar=_A_f; // CPT conservation
129 if ( getNArg() > 3){
130 _A_f=getArg(4)*EvtComplex(cos(getArg(5)),sin(getArg(5))); // this allows for DCSD
131 _Abar_f=getArg(6)*EvtComplex(cos(getArg(7)),sin(getArg(7))); // this allows for DCSD
132 if ( getNArg() > 8 ){
133 // CPT violation in decay
134 _A_fbar=getArg(8)*EvtComplex(cos(getArg(9)),sin(getArg(9)));
135 _Abar_fbar=getArg(10)*EvtComplex(cos(getArg(11)),sin(getArg(11)));
136 } else {
137 // CPT conservation in decay
138 _A_fbar=_Abar_f;
139 _Abar_fbar=_A_f;
140 }
141 }
142
143 // CPT violation in mixing
144 _z = EvtComplex(0.0,0.0);
145 if ( getNArg() > 12 ){
146 _z = EvtComplex(getArg(12),getArg(13));
147 }
148
149
150 // some printout
151 double tau= 1e12*EvtPDL::getctau(getDaug(0))/EvtConst::c; // in ps
152 double dm= 1e-12*getArg(0); // B0/anti-B0 mass difference in hbar/ps
153 double x= dm*tau;
154 double y= dgog*0.5; //y=dgamma/(2*gamma)
155 double qop2 = abs(_qoverp*_qoverp);
156 _chib0_b0bar=qop2*(x*x+y*y)/(qop2*(x*x+y*y)+2+x*x-y*y); // does not include CPT in mixing
157 _chib0bar_b0=(1/qop2)*(x*x+y*y)/((1/qop2)*(x*x+y*y)+2+x*x-y*y); // does not include CPT in mixing
158
159 report(INFO,"EvtGen") << "VSS_BMIXCPT will generate mixing and CPT/CP effects in mixing:"
160 << endl << endl
161 << " " << EvtPDL::name(getParentId()).c_str() << " --> "
162 << EvtPDL::name(getDaug(0)).c_str() << " + "
163 << EvtPDL::name(getDaug(1)).c_str() << endl << endl
164 << "using parameters:" << endl << endl
165 << " delta(m) = " << dm << " hbar/ps" << endl
166 << " _freq = " << _freq << " hbar/mm" << endl
167 << " dgog = " << dgog <<endl
168 << " dGamma = " << _dGamma <<" hbar/mm" <<endl
169 << " q/p = " << _qoverp << endl
170 << " z = " << _z << endl
171 << " tau = " << tau << " ps" << endl
172 << " x = " << x << endl
173 << " chi(B0->B0bar) = " << _chib0_b0bar << endl
174 << " chi(B0bar->B0) = " << _chib0bar_b0 << endl
175 << " Af = " << _A_f << endl
176 << " Abarf = " << _Abar_f << endl
177 << " Afbar = " << _A_fbar << endl
178 << " Abarfbar = " << _Abar_fbar << endl
179 << endl;
180}
181
183 // this value is ok for reasonable values of all the parameters
184 setProbMax(4.0);
185}
186
188
189 static EvtId B0=EvtPDL::getId("B0");
190 static EvtId B0B=EvtPDL::getId("anti-B0");
191
192 // generate a final state according to phase space
193
194 double rndm= EvtRandom::random();
195
196 if ( getNDaug()==4) {
197 EvtId tempDaug[2];
198
199 if ( rndm < 0.5 ) { tempDaug[0]=getDaug(0); tempDaug[1]=getDaug(3); }
200 else{ tempDaug[0]=getDaug(2); tempDaug[1]=getDaug(1); }
201
202 p->initializePhaseSpace(2,tempDaug);
203 }
204 else{ //nominal case.
206 }
207
208 EvtParticle *s1,*s2;
209
210 s1 = p->getDaug(0);
211 s2 = p->getDaug(1);
212 //delete any daughters - if there are daughters, they
213 //are from the initialization and will be redone later
214 if ( s1->getNDaug() > 0 ) { s1->deleteDaughters();}
215 if ( s2->getNDaug() > 0 ) { s2->deleteDaughters();}
216
217 EvtVector4R p1= s1->getP4();
218 EvtVector4R p2= s2->getP4();
219
220 // throw a random number to decide if this final state should be mixed
221 rndm= EvtRandom::random();
222 int mixed= (rndm < 0.5) ? 1 : 0;
223
224 // if this decay is mixed, choose one of the 2 possible final states
225 // with equal probability (re-using the same random number)
226 if(mixed==1) {
227 EvtId mixedId= (rndm < 0.25) ? getDaug(0) : getDaug(1);
228 EvtId mixedId2= mixedId;
229 if (getNDaug()==4&&rndm<0.25) mixedId2=getDaug(2);
230 if (getNDaug()==4&&rndm>0.25) mixedId2=getDaug(3);
231 s1->init(mixedId, p1);
232 s2->init(mixedId2, p2);
233 }
234
235
236 // if this decay is unmixed, choose one of the 2 possible final states
237 // with equal probability (re-using the same random number)
238 if(mixed==0) {
239 EvtId unmixedId = (rndm < 0.75) ? getDaug(0) : getDaug(1);
240 EvtId unmixedId2= (rndm < 0.75) ? getDaug(1) : getDaug(0);
241 if (getNDaug()==4&&rndm<0.75) unmixedId2=getDaug(3);
242 if (getNDaug()==4&&rndm>0.75) unmixedId2=getDaug(2);
243 s1->init(unmixedId, p1);
244 s2->init(unmixedId2, p2);
245 }
246
247 // choose a decay time for each final state particle using the
248 // lifetime (which must be the same for both particles) in pdt.table
249 // and calculate the lifetime difference for this event
250 s1->setLifetime();
251 s2->setLifetime();
252 double dct= s1->getLifetime() - s2->getLifetime(); // in mm
253
254 // Convention: _dGamma=GammaLight-GammaHeavy
255 EvtComplex exp1(-0.25*_dGamma*dct,0.5*_freq*dct);
256
257 /*
258 //Find the flavor of the B that decayed first.
259 EvtId firstDec = (dct > 0 ) ? s2->getId() : s1->getId();
260
261 //This tags the flavor of the other particle at that time.
262 EvtId stateAtDeltaTeq0 = ( firstDec==B0 ) ? B0B : B0;
263 */
264 EvtId stateAtDeltaTeq0 = (s2->getId()==B0) ? B0B : B0;
265
266 // calculate the oscillation amplitude, based on wether this event is mixed or not
267 EvtComplex osc_amp;
268
269 //define some useful functions: (see BAD #188 eq. 39 for ref.)
270 EvtComplex gp=0.5*(exp(-1.0*exp1)+exp(exp1));
271 EvtComplex gm=0.5*(exp(-1.0*exp1)-exp(exp1));
272 EvtComplex sqz=sqrt(abs(1-_z*_z))*exp(EvtComplex(0,arg(1-_z*_z)/2));
273
274 EvtComplex BB=gp+_z*gm; // <B0|B0(t)>
275 EvtComplex barBB=-sqz*_qoverp*gm; // <B0bar|B0(t)>
276 EvtComplex BbarB=-sqz*_poverq*gm; // <B0|B0bar(t)>
277 EvtComplex barBbarB=gp-_z*gm; // <B0bar|B0bar(t)>
278
279 //
280 if ( !mixed&&stateAtDeltaTeq0==B0 ) {
281 osc_amp= BB*_A_f+barBB*_Abar_f;
282 }
283 if ( !mixed&&stateAtDeltaTeq0==B0B ) {
284 osc_amp= barBbarB*_Abar_fbar+BbarB*_A_fbar;
285 }
286
287 if ( mixed&&stateAtDeltaTeq0==B0 ) {
288 osc_amp=barBB*_Abar_fbar+BB*_A_fbar;
289 }
290 if ( mixed&&stateAtDeltaTeq0==B0B ) {
291 osc_amp=BbarB*_A_f+barBbarB*_Abar_f;
292 }
293
294 // store the amplitudes for each parent spin basis state
295 double norm=1.0/p1.d3mag();
296 vertex(0,norm*osc_amp*p1*(p->eps(0)));
297 vertex(1,norm*osc_amp*p1*(p->eps(1)));
298 vertex(2,norm*osc_amp*p1*(p->eps(2)));
299
300 return ;
301}
302
303
304
305
306
307
308
double sin(const BesAngle a)
Definition: BesAngle.h:210
double cos(const BesAngle a)
Definition: BesAngle.h:213
Double_t x[10]
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
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)
EvtId getParentId()
Definition: EvtDecayBase.hh:60
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)
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 EvtId getId(const std::string &name)
Definition: EvtPDL.cc:287
static double getctau(EvtId i)
Definition: EvtPDL.hh:55
virtual void init(EvtId part_n, const EvtVector4R &p4)=0
EvtId getId() const
Definition: EvtParticle.cc:112
double getLifetime()
Definition: EvtParticle.cc:98
const EvtVector4R & getP4() const
Definition: EvtParticle.cc:120
void setLifetime(double tau)
Definition: EvtParticle.cc:88
int getNDaug() const
Definition: EvtParticle.cc:124
EvtParticle * getDaug(int i)
Definition: EvtParticle.cc:84
void deleteDaughters(bool keepChannel=false)
Definition: EvtParticle.cc:539
virtual EvtVector4C eps(int i) const
Definition: EvtParticle.cc:575
double initializePhaseSpace(int numdaughter, EvtId *daughters, double poleSize=-1., int whichTwo1=0, int whichTwo2=1)
static double random()
Definition: EvtRandom.cc:41
void getName(std::string &name)
void decay(EvtParticle *p)
virtual ~EvtVSSBMixCPT()
EvtDecayBase * clone()
double d3mag() const
Definition: EvtVector4R.cc:186
double y[1000]
double * p2
Definition: qcdloop1.h:76