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EvtDDalitz.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: EvtDDalitz.cc
12//
13// Description: Routine to handle three-body decays of D0/D0_bar or D+/D-
14//
15// Modification history:
16//
17// NK September 3, 1997 Module created
18//
19//------------------------------------------------------------------------
20//
22#include <stdlib.h>
25#include "EvtGenBase/EvtPDL.hh"
30#include <string>
34using std::endl;
35
37
38void EvtDDalitz::getName(std::string& model_name){
39
40 model_name="D_DALITZ";
41
42}
43
44
46
47 return new EvtDDalitz;
48
49}
50
52
53 // check that there are 0 arguments
54
55 static EvtId DM=EvtPDL::getId("D-");
56 static EvtId DP=EvtPDL::getId("D+");
57 static EvtId D0=EvtPDL::getId("D0");
58 static EvtId D0B=EvtPDL::getId("anti-D0");
59 static EvtId DSP=EvtPDL::getId("D_s+");
60 static EvtId DSM=EvtPDL::getId("D_s-");
61 static EvtId KM=EvtPDL::getId("K-");
62 static EvtId KP=EvtPDL::getId("K+");
63 static EvtId K0=EvtPDL::getId("K0");
64 static EvtId KB=EvtPDL::getId("anti-K0");
65 static EvtId KL=EvtPDL::getId("K_L0");
66 static EvtId KS=EvtPDL::getId("K_S0");
67 static EvtId PIM=EvtPDL::getId("pi-");
68 static EvtId PIP=EvtPDL::getId("pi+");
69 static EvtId PI0=EvtPDL::getId("pi0");
70
71 static double MPI = EvtPDL::getMeanMass(PI0);
72 static double MKP = EvtPDL::getMeanMass(KP);
73
74
75 checkNArg(0);
76 checkNDaug(3);
77
79
83
84 EvtId parnum=getParentId();
85 EvtId d1=getDaug(0);
86 EvtId d2=getDaug(1);
87 EvtId d3=getDaug(2);
88 _flag=0;
89 if ( parnum == D0 ) {
90 //look for either a K- pi+ pi0 or K0bar pi+ pi-
91 if ( d1==KM && d2==PIP && d3==PI0 ) { _flag=4; _d1=0; _d2=1; _d3=2;}
92 if ( d1==KM && d3==PIP && d2==PI0 ) { _flag=4; _d1=0; _d2=2; _d3=1;}
93 if ( d2==KM && d1==PIP && d3==PI0 ) { _flag=4; _d1=1; _d2=0; _d3=2;}
94 if ( d2==KM && d3==PIP && d1==PI0 ) { _flag=4; _d1=1; _d2=2; _d3=0;}
95 if ( d3==KM && d1==PIP && d2==PI0 ) { _flag=4; _d1=2; _d2=0; _d3=1;}
96 if ( d3==KM && d2==PIP && d1==PI0 ) { _flag=4; _d1=2; _d2=1; _d3=0;}
97
98 if ( d1==KB && d2==PIP && d3==PIM ) { _flag=3; _d1=0; _d2=2; _d3=1;}
99 if ( d1==KB && d3==PIP && d2==PIM ) { _flag=3; _d1=0; _d2=1; _d3=2;}
100 if ( d2==KB && d1==PIP && d3==PIM ) { _flag=3; _d1=1; _d2=2; _d3=0;}
101 if ( d2==KB && d3==PIP && d1==PIM ) { _flag=3; _d1=1; _d2=0; _d3=2;}
102 if ( d3==KB && d1==PIP && d2==PIM ) { _flag=3; _d1=2; _d2=1; _d3=0;}
103 if ( d3==KB && d2==PIP && d1==PIM ) { _flag=3; _d1=2; _d2=0; _d3=1;}
104
105 if ( d1==KL && d2==PIP && d3==PIM ) { _flag=3; _d1=0; _d2=2; _d3=1;}
106 if ( d1==KL && d3==PIP && d2==PIM ) { _flag=3; _d1=0; _d2=1; _d3=2;}
107 if ( d2==KL && d1==PIP && d3==PIM ) { _flag=3; _d1=1; _d2=2; _d3=0;}
108 if ( d2==KL && d3==PIP && d1==PIM ) { _flag=3; _d1=1; _d2=0; _d3=2;}
109 if ( d3==KL && d1==PIP && d2==PIM ) { _flag=3; _d1=2; _d2=1; _d3=0;}
110 if ( d3==KL && d2==PIP && d1==PIM ) { _flag=3; _d1=2; _d2=0; _d3=1;}
111
112 if ( d1==KS && d2==PIP && d3==PIM ) { _flag=3; _d1=0; _d2=2; _d3=1;}
113 if ( d1==KS && d3==PIP && d2==PIM ) { _flag=3; _d1=0; _d2=1; _d3=2;}
114 if ( d2==KS && d1==PIP && d3==PIM ) { _flag=3; _d1=1; _d2=2; _d3=0;}
115 if ( d2==KS && d3==PIP && d1==PIM ) { _flag=3; _d1=1; _d2=0; _d3=2;}
116 if ( d3==KS && d1==PIP && d2==PIM ) { _flag=3; _d1=2; _d2=1; _d3=0;}
117 if ( d3==KS && d2==PIP && d1==PIM ) { _flag=3; _d1=2; _d2=0; _d3=1;}
118
119
120 if ( d1==KS && d2==KP && d3==KM ) {_flag=5;_d1=0;_d2=2;_d3=1;}
121 if ( d1==KS && d3==KP && d2==KM ) {_flag=5;_d1=0;_d2=1;_d3=2;}
122 if ( d2==KS && d1==KP && d3==KM ) {_flag=5;_d1=1;_d2=2;_d3=0;}
123 if ( d2==KS && d3==KP && d1==KM ) {_flag=5;_d1=1;_d2=0;_d3=2;}
124 if ( d3==KS && d1==KP && d2==KM ) {_flag=5;_d1=2;_d2=1;_d3=0;}
125 if ( d3==KS && d2==KP && d1==KM ) {_flag=5;_d1=2;_d2=0;_d3=1;}
126
127 if ( d1==KL && d2==KP && d3==KM ) {_flag=5;_d1=0;_d2=2;_d3=1;}
128 if ( d1==KL && d3==KP && d2==KM ) {_flag=5;_d1=0;_d2=1;_d3=2;}
129 if ( d2==KL && d1==KP && d3==KM ) {_flag=5;_d1=1;_d2=2;_d3=0;}
130 if ( d2==KL && d3==KP && d1==KM ) {_flag=5;_d1=1;_d2=0;_d3=2;}
131 if ( d3==KL && d1==KP && d2==KM ) {_flag=5;_d1=2;_d2=1;_d3=0;}
132 if ( d3==KL && d2==KP && d1==KM ) {_flag=5;_d1=2;_d2=0;_d3=1;}
133
134 if ( d1==K0 && d2==KP && d3==KM ) {_flag=5;_d1=0;_d2=2;_d3=1;}
135 if ( d1==K0 && d3==KP && d2==KM ) {_flag=5;_d1=0;_d2=1;_d3=2;}
136 if ( d2==K0 && d1==KP && d3==KM ) {_flag=5;_d1=1;_d2=2;_d3=0;}
137 if ( d2==K0 && d3==KP && d1==KM ) {_flag=5;_d1=1;_d2=0;_d3=2;}
138 if ( d3==K0 && d1==KP && d2==KM ) {_flag=5;_d1=2;_d2=1;_d3=0;}
139 if ( d3==K0 && d2==KP && d1==KM ) {_flag=5;_d1=2;_d2=0;_d3=1;}
140 }
141 if ( parnum == D0B ) {
142 //look for either a K+ pi- pi0 or K0 pi+ pi-
143 if ( d1==KP && d2==PIM && d3==PI0 ) { _flag=4; _d1=0; _d2=1; _d3=2;}
144 if ( d1==KP && d3==PIM && d2==PI0 ) { _flag=4; _d1=0; _d2=2; _d3=1;}
145 if ( d2==KP && d1==PIM && d3==PI0 ) { _flag=4; _d1=1; _d2=0; _d3=2;}
146 if ( d2==KP && d3==PIM && d1==PI0 ) { _flag=4; _d1=1; _d2=2; _d3=0;}
147 if ( d3==KP && d1==PIM && d2==PI0 ) { _flag=4; _d1=2; _d2=0; _d3=1;}
148 if ( d3==KP && d2==PIM && d1==PI0 ) { _flag=4; _d1=2; _d2=1; _d3=0;}
149
150 if ( d1==K0 && d2==PIP && d3==PIM ) { _flag=3; _d1=0; _d2=1; _d3=2;}
151 if ( d1==K0 && d3==PIP && d2==PIM ) { _flag=3; _d1=0; _d2=2; _d3=1;}
152 if ( d2==K0 && d1==PIP && d3==PIM ) { _flag=3; _d1=1; _d2=0; _d3=2;}
153 if ( d2==K0 && d3==PIP && d1==PIM ) { _flag=3; _d1=1; _d2=2; _d3=0;}
154 if ( d3==K0 && d1==PIP && d2==PIM ) { _flag=3; _d1=2; _d2=0; _d3=1;}
155 if ( d3==K0 && d2==PIP && d1==PIM ) { _flag=3; _d1=2; _d2=1; _d3=0;}
156
157 if ( d1==KL && d2==PIP && d3==PIM ) { _flag=3; _d1=0; _d2=1; _d3=2;}
158 if ( d1==KL && d3==PIP && d2==PIM ) { _flag=3; _d1=0; _d2=2; _d3=1;}
159 if ( d2==KL && d1==PIP && d3==PIM ) { _flag=3; _d1=1; _d2=0; _d3=2;}
160 if ( d2==KL && d3==PIP && d1==PIM ) { _flag=3; _d1=1; _d2=2; _d3=0;}
161 if ( d3==KL && d1==PIP && d2==PIM ) { _flag=3; _d1=2; _d2=0; _d3=1;}
162 if ( d3==KL && d2==PIP && d1==PIM ) { _flag=3; _d1=2; _d2=1; _d3=0;}
163
164 if ( d1==KS && d2==PIP && d3==PIM ) { _flag=3; _d1=0; _d2=1; _d3=2;}
165 if ( d1==KS && d3==PIP && d2==PIM ) { _flag=3; _d1=0; _d2=2; _d3=1;}
166 if ( d2==KS && d1==PIP && d3==PIM ) { _flag=3; _d1=1; _d2=0; _d3=2;}
167 if ( d2==KS && d3==PIP && d1==PIM ) { _flag=3; _d1=1; _d2=2; _d3=0;}
168 if ( d3==KS && d1==PIP && d2==PIM ) { _flag=3; _d1=2; _d2=0; _d3=1;}
169 if ( d3==KS && d2==PIP && d1==PIM ) { _flag=3; _d1=2; _d2=1; _d3=0;}
170
171 if ( d1==KS && d2==KP && d3==KM ) {_flag=5;_d1=0;_d2=1;_d3=2;}
172 if ( d1==KS && d3==KP && d2==KM ) {_flag=5;_d1=0;_d2=2;_d3=1;}
173 if ( d2==KS && d1==KP && d3==KM ) {_flag=5;_d1=1;_d2=0;_d3=2;}
174 if ( d2==KS && d3==KP && d1==KM ) {_flag=5;_d1=1;_d2=2;_d3=0;}
175 if ( d3==KS && d1==KP && d2==KM ) {_flag=5;_d1=2;_d2=0;_d3=1;}
176 if ( d3==KS && d2==KP && d1==KM ) {_flag=5;_d1=2;_d2=1;_d3=0;}
177
178 if ( d1==KL && d2==KP && d3==KM ) {_flag=5;_d1=0;_d2=1;_d3=2;}
179 if ( d1==KL && d3==KP && d2==KM ) {_flag=5;_d1=0;_d2=2;_d3=1;}
180 if ( d2==KL && d1==KP && d3==KM ) {_flag=5;_d1=1;_d2=0;_d3=2;}
181 if ( d2==KL && d3==KP && d1==KM ) {_flag=5;_d1=1;_d2=2;_d3=0;}
182 if ( d3==KL && d1==KP && d2==KM ) {_flag=5;_d1=2;_d2=0;_d3=1;}
183 if ( d3==KL && d2==KP && d1==KM ) {_flag=5;_d1=2;_d2=1;_d3=0;}
184
185 if ( d1==K0 && d2==KP && d3==KM ) {_flag=5;_d1=0;_d2=1;_d3=2;}
186 if ( d1==K0 && d3==KP && d2==KM ) {_flag=5;_d1=0;_d2=2;_d3=1;}
187 if ( d2==K0 && d1==KP && d3==KM ) {_flag=5;_d1=1;_d2=0;_d3=2;}
188 if ( d2==K0 && d3==KP && d1==KM ) {_flag=5;_d1=1;_d2=2;_d3=0;}
189 if ( d3==K0 && d1==KP && d2==KM ) {_flag=5;_d1=2;_d2=0;_d3=1;}
190 if ( d3==K0 && d2==KP && d1==KM ) {_flag=5;_d1=2;_d2=1;_d3=0;}
191
192 }
193
194 if ( parnum == DP ) {
195 //look for K- pi+ pi+
196 if ( d1==KB && d2==PIP && d3==PI0 ) { _flag=2; _d1=0; _d2=1; _d3=2;}
197 if ( d1==KB && d3==PIP && d2==PI0 ) { _flag=2; _d1=0; _d2=2; _d3=1;}
198 if ( d2==KB && d1==PIP && d3==PI0 ) { _flag=2; _d1=1; _d2=0; _d3=2;}
199 if ( d2==KB && d3==PIP && d1==PI0 ) { _flag=2; _d1=1; _d2=2; _d3=0;}
200 if ( d3==KB && d1==PIP && d2==PI0 ) { _flag=2; _d1=2; _d2=0; _d3=1;}
201 if ( d3==KB && d2==PIP && d1==PI0 ) { _flag=2; _d1=2; _d2=1; _d3=0;}
202
203 if ( d1==KL && d2==PIP && d3==PI0 ) { _flag=2; _d1=0; _d2=1; _d3=2;}
204 if ( d1==KL && d3==PIP && d2==PI0 ) { _flag=2; _d1=0; _d2=2; _d3=1;}
205 if ( d2==KL && d1==PIP && d3==PI0 ) { _flag=2; _d1=1; _d2=0; _d3=2;}
206 if ( d2==KL && d3==PIP && d1==PI0 ) { _flag=2; _d1=1; _d2=2; _d3=0;}
207 if ( d3==KL && d1==PIP && d2==PI0 ) { _flag=2; _d1=2; _d2=0; _d3=1;}
208 if ( d3==KL && d2==PIP && d1==PI0 ) { _flag=2; _d1=2; _d2=1; _d3=0;}
209
210 if ( d1==KS && d2==PIP && d3==PI0 ) { _flag=2; _d1=0; _d2=1; _d3=2;}
211 if ( d1==KS && d3==PIP && d2==PI0 ) { _flag=2; _d1=0; _d2=2; _d3=1;}
212 if ( d2==KS && d1==PIP && d3==PI0 ) { _flag=2; _d1=1; _d2=0; _d3=2;}
213 if ( d2==KS && d3==PIP && d1==PI0 ) { _flag=2; _d1=1; _d2=2; _d3=0;}
214 if ( d3==KS && d1==PIP && d2==PI0 ) { _flag=2; _d1=2; _d2=0; _d3=1;}
215 if ( d3==KS && d2==PIP && d1==PI0 ) { _flag=2; _d1=2; _d2=1; _d3=0;}
216
217 if ( d1==KM && d2==PIP && d3==PIP ) { _flag=1; _d1=0; _d2=1; _d3=2;}
218 if ( d2==KM && d1==PIP && d3==PIP ) { _flag=1; _d1=1; _d2=0; _d3=2;}
219 if ( d3==KM && d1==PIP && d2==PIP ) { _flag=1; _d1=2; _d2=0; _d3=1;}
220 }
221
222 if ( parnum == DM ) {
223 //look for K- pi+ pi+
224 if ( d1==K0 && d2==PIM && d3==PI0 ) { _flag=2; _d1=0; _d2=1; _d3=2;}
225 if ( d1==K0 && d3==PIM && d2==PI0 ) { _flag=2; _d1=0; _d2=2; _d3=1;}
226 if ( d2==K0 && d1==PIM && d3==PI0 ) { _flag=2; _d1=1; _d2=0; _d3=2;}
227 if ( d2==K0 && d3==PIM && d1==PI0 ) { _flag=2; _d1=1; _d2=2; _d3=0;}
228 if ( d3==K0 && d1==PIM && d2==PI0 ) { _flag=2; _d1=2; _d2=0; _d3=1;}
229 if ( d3==K0 && d2==PIM && d1==PI0 ) { _flag=2; _d1=2; _d2=1; _d3=0;}
230
231 if ( d1==KL && d2==PIM && d3==PI0 ) { _flag=2; _d1=0; _d2=1; _d3=2;}
232 if ( d1==KL && d3==PIM && d2==PI0 ) { _flag=2; _d1=0; _d2=2; _d3=1;}
233 if ( d2==KL && d1==PIM && d3==PI0 ) { _flag=2; _d1=1; _d2=0; _d3=2;}
234 if ( d2==KL && d3==PIM && d1==PI0 ) { _flag=2; _d1=1; _d2=2; _d3=0;}
235 if ( d3==KL && d1==PIM && d2==PI0 ) { _flag=2; _d1=2; _d2=0; _d3=1;}
236 if ( d3==KL && d2==PIM && d1==PI0 ) { _flag=2; _d1=2; _d2=1; _d3=0;}
237
238 if ( d1==KS && d2==PIM && d3==PI0 ) { _flag=2; _d1=0; _d2=1; _d3=2;}
239 if ( d1==KS && d3==PIM && d2==PI0 ) { _flag=2; _d1=0; _d2=2; _d3=1;}
240 if ( d2==KS && d1==PIM && d3==PI0 ) { _flag=2; _d1=1; _d2=0; _d3=2;}
241 if ( d2==KS && d3==PIM && d1==PI0 ) { _flag=2; _d1=1; _d2=2; _d3=0;}
242 if ( d3==KS && d1==PIM && d2==PI0 ) { _flag=2; _d1=2; _d2=0; _d3=1;}
243 if ( d3==KS && d2==PIM && d1==PI0 ) { _flag=2; _d1=2; _d2=1; _d3=0;}
244
245 if ( d1==KP && d2==PIM && d3==PIM ) { _flag=1; _d1=0; _d2=1; _d3=2;}
246 if ( d2==KP && d1==PIM && d3==PIM ) { _flag=1; _d1=1; _d2=0; _d3=2;}
247 if ( d3==KP && d1==PIM && d2==PIM ) { _flag=1; _d1=2; _d2=0; _d3=1;}
248 }
249
250 if ( parnum == DSP ) {
251 if ( d1==KM && d2==KP && d3==PIP ) { _flag=6; _d1=0; _d2=1; _d3=2; }
252 if ( d1==KM && d3==KP && d2==PIP ) { _flag=6; _d1=0; _d2=2; _d3=1; }
253 if ( d2==KM && d1==KP && d3==PIP ) { _flag=6; _d1=1; _d2=0; _d3=2; }
254 if ( d2==KM && d3==KP && d1==PIP ) { _flag=6; _d1=1; _d2=2; _d3=0; }
255 if ( d3==KM && d1==KP && d2==PIP ) { _flag=6; _d1=2; _d2=0; _d3=1; }
256 if ( d3==KM && d2==KP && d1==PIP ) { _flag=6; _d1=2; _d2=1; _d3=0; }
257 }
258
259 if ( parnum == DSM ) {
260 if ( d1==KP && d2==KM && d3==PIM ) { _flag=6; _d1=0; _d2=1; _d3=2; }
261 if ( d1==KP && d3==KM && d2==PIM ) { _flag=6; _d1=0; _d2=2; _d3=1; }
262 if ( d2==KP && d1==KM && d3==PIM ) { _flag=6; _d1=1; _d2=0; _d3=2; }
263 if ( d2==KP && d3==KM && d1==PIM ) { _flag=6; _d1=1; _d2=2; _d3=0; }
264 if ( d3==KP && d1==KM && d2==PIM ) { _flag=6; _d1=2; _d2=0; _d3=1; }
265 if ( d3==KP && d2==KM && d1==PIM ) { _flag=6; _d1=2; _d2=1; _d3=0; }
266 }
267
268 if ( _flag==6) {
269 _kkpi_params.push_back(EvtFlatteParam(MPI, MPI, 0.406));
270 _kkpi_params.push_back(EvtFlatteParam(MKP, MKP, 0.800));
271 }
272
273 if ( _flag==0) {
274 report(ERROR,"EvtGen") << "EvtDDaltiz: Invalid mode."<<endl;
275 assert(0);
276 }
277}
278
280
281//probmax different for different modes!
282
283 if ( _flag==1 ) {setProbMax(9.6);}
284 if ( _flag==2 ) {setProbMax(147.9);}
285 if ( _flag==3 ) {setProbMax(5000.0);}
286 if ( _flag==4 ) {setProbMax(3000.0);}
287 if ( _flag==5 ) {setProbMax(10000000.0);}
288 if ( _flag==6 ) {setProbMax(50000.0);}
289
290}
291
293
294 //added by Lange Jan4,2000
295 static EvtId BP = EvtPDL::getId("B+");
296 static EvtId BM = EvtPDL::getId("B-");
297 static EvtId B0 = EvtPDL::getId("B0");
298 static EvtId B0B = EvtPDL::getId("anti-B0");
299 static EvtId DM=EvtPDL::getId("D-");
300 static EvtId DP=EvtPDL::getId("D+");
301 static EvtId D0=EvtPDL::getId("D0");
302 static EvtId D0B=EvtPDL::getId("anti-D0");
303 static EvtId KM=EvtPDL::getId("K-");
304 static EvtId KP=EvtPDL::getId("K+");
305 static EvtId K0=EvtPDL::getId("K0");
306 static EvtId KB=EvtPDL::getId("anti-K0");
307 static EvtId PIM=EvtPDL::getId("pi-");
308 static EvtId PIP=EvtPDL::getId("pi+");
309 static EvtId PI0=EvtPDL::getId("pi0");
310
311 double oneby2 = 0.707106782;
312
313 bool isBToDK=false;
314 if ( p -> getParent () ) {
315 std::string name1;
317
318 EvtId parId = p -> getParent()->getId ();
319 if ( ( BP == parId ) || ( BM == parId ) || ( B0 == parId ) ||
320 ( B0B == parId ) )
321 if (name1 == "BTODDALITZCPK") isBToDK=true;
322 }
323
324
325//same structure for all of these decays
326
328 EvtVector4R moms1 = p->getDaug(_d1)->getP4();
329 EvtVector4R moms2 = p->getDaug(_d2)->getP4();
330 EvtVector4R moms3 = p->getDaug(_d3)->getP4();
331
332 EvtVector4R p4_p;
333 p4_p.set(p->mass(),0.0,0.0,0.0);
334
335 EvtComplex amp(1.0,0.0);
336
337//now determine which D and which decay
338
339//data from Anjos et al, Phys.Rev.D 1993, v.48,num.1,p.56 (E691 resuls)
340//for D+ -> K- pi+ pi+, and from Adler et al, Phys.Lett. B196 (1987), 107
341//(Mark III results) for D+ -> K0bar pi+ pi0.
342 //CLEO results for D0->k-pi+pi0
343
344 if ( _flag==1) {
345
346//have a D+ -> K- pi+ pi+ decay, or charge conjugate
347//Anjos etal e691 - Phys Rev D48, 56 (1993)
348 EvtResonance DplusRes11(p4_p,moms1,moms2,0.78,-60.0,0.0498,0.89610,1);
349 EvtResonance DplusRes12(p4_p,moms3,moms1,0.78,-60.0,0.0498,0.89610,1);//K*(892)
350
351 EvtResonance DplusRes21(p4_p,moms1,moms2,0.53,132.0,0.287,1.429,0);
352 EvtResonance DplusRes22(p4_p,moms3,moms1,0.53,132.0,0.287,1.429,0);//K*(1430)
353
354 EvtResonance DplusRes31(p4_p,moms1,moms2,0.47,-51.0,0.323,1.714,1);
355 EvtResonance DplusRes32(p4_p,moms3,moms1,0.47,-51.0,0.323,1.714,1);//K*(1680)
356
357 amp = amp + oneby2*(-DplusRes11.resAmpl()+DplusRes12.resAmpl()) + oneby2*(DplusRes21.resAmpl() + DplusRes22.resAmpl()) + oneby2*(-DplusRes31.resAmpl()+ DplusRes32.resAmpl());
358
359 }
360
361 if ( _flag==2) {
362
363//have a D+ -> K0bar pi+ pi0 decay (daughters must be listed in this order!)
364//adler etal MarkIII - Phys Lett B196, 107 (1987)
365// Results in this paper:
366// Kbar rho+ FitFraction = 68+/-8+/-12 Phase 0
367// Kbar* pi+ 19+/-6+/-6 43+/-23
368// nonres 13+/-7+/-8 250+/-19
369// These numbers below seem not to be exactly the same
370// the phases are equiv to -106=254 and 41
371//
372 EvtResonance DplusKpipi0Res1(p4_p,moms2,moms3,1.00,0.00,0.1512,0.7699,1); //rho+
373 EvtResonance DplusKpipi0Res2(p4_p,moms3,moms1,0.8695,0.7191,0.0498,0.89159,1); //K*0
374
375 amp = 0.9522*EvtComplex(cos(-1.8565),sin(-1.8565)) + 1.00*DplusKpipi0Res1.relBrWig(0) + 0.8695*EvtComplex(cos(0.7191),sin(0.7191))*DplusKpipi0Res2.relBrWig(1);
376
377 }
378
379 if(_flag==3) {
380
381//know it's a D0 -> K0_bar pi+ pi- or charge conjugate
382
383// EvtResonance DK2piRes1(p4_p,moms1,moms2,2.31,109.0,0.0498,0.89610,1);//K*(892)
384// EvtResonance DK2piRes2(p4_p,moms3,moms2,1.59,-123.0,0.1491,0.7683,1);//RHO(770)
385
386// amp = amp + DK2piRes1.resAmpl() + DK2piRes2.resAmpl();
387
388
389 // D0 -> K0 pi+ pi- + CC
390 // If it does not come from a B->DK, decay it as D0 or D0bar separatly
391 // if p4_p is D0, moms1 is K0, moms2 is pi-, moms3 is pi+
392 // if p4_p is D0bar, moms1 is K0, moms2 is pi+, moms3 is pi-
393
394 if ( isBToDK ) {
395 // Gamma angle in rad.
396 double gamma = EvtDecayTable::getDecayFunc( p->getParent() )
397 -> getArg( 0 ) ;
398 // Strong phase in rad.
399 double delta = EvtDecayTable::getDecayFunc( p->getParent() )
400 -> getArg( 1 ) ;
401 // Ratio between B->D0K and B->D0barK
402 double A = EvtDecayTable::getDecayFunc( p->getParent() )
403 -> getArg( 2 ) ;
404
405 EvtComplex Factor( fabs( A ) * cos ( delta ) ,
406 fabs( A ) * sin ( delta ) ) ;
407
408 if ( ( p->getParent()->getId() == BP ) ||
409 ( p->getParent()->getId() == B0 ) ) {
410 // the ratio D/Dbar
411 Factor = Factor * EvtComplex( cos ( gamma ) , sin ( gamma ) ) ;
412 if ( p->getId() == D0 ) {
413 // the flavor of the particle has no meaning. But we need
414 // it to know which daughter is pi+ or pi-
415 // M( B+ or B0 ) = f(Dbar) + factor * f(D)
416 // f(Dbar) = amplDtoK0PiPi(pD, K0, pi+, pi-)
417 // f(D) = amplDtoK0PiPi(pD, K0, pi-, pi+)
418 // Then ...
419 amp = amplDtoK0PiPi( p4_p , moms1 , moms3 , moms2 ) +
420 Factor * amplDtoK0PiPi( p4_p , moms1 , moms2 , moms3 ) ;
421 }
422 else {
423 amp = amplDtoK0PiPi( p4_p , moms1 , moms2 , moms3 ) +
424 Factor * amplDtoK0PiPi( p4_p , moms1 , moms3 , moms2 ) ;
425 }
426 }
427 else if ( ( p->getParent() -> getId() == BM ) ||
428 ( p->getParent() -> getId() == B0B ) ) {
429 Factor = Factor * EvtComplex( cos ( gamma ) , - sin ( gamma ) ) ;
430 // here M( B- or B0bar ) = f(D) + factor * f(Dbar) then ...
431 if ( p->getId() == D0 ) {
432 amp = amplDtoK0PiPi( p4_p , moms1 , moms2 , moms3 ) +
433 Factor * amplDtoK0PiPi( p4_p , moms1 , moms3 , moms2 ) ;
434 }
435 else {
436 amp = amplDtoK0PiPi( p4_p , moms1 , moms3 , moms2 ) +
437 Factor * amplDtoK0PiPi( p4_p , moms1 , moms2 , moms3 ) ;
438 }
439 }
440 }
441 else {
442 amp = amplDtoK0PiPi( p4_p , moms1 , moms2 , moms3 ) ;
443 }
444 }
445
446
447 if(_flag==4) {
448
449 EvtResonance2 DKpipi0Res1(p4_p,moms2,moms3,1.0 ,0.0 ,0.1507,0.770 ,1); //rho
450 EvtResonance2 DKpipi0Res2(p4_p,moms1,moms2,0.39, -0.2 ,0.0505,0.8961,1); //k*0
451 EvtResonance2 DKpipi0Res3(p4_p,moms1,moms3,0.44, 163.0 ,0.050 ,0.8915,1); //k*-
452
453 EvtResonance2 DKpipi0Res4(p4_p,moms1,moms3,0.77 ,55.5 ,0.294 ,1.412 ,0); //k01430-
454 EvtResonance2 DKpipi0Res5(p4_p,moms1,moms2,0.85 ,166.0 ,0.294 ,1.412 ,0); //k01430bar
455 EvtResonance2 DKpipi0Res6(p4_p,moms2,moms3,2.5 ,171.0 ,0.240 ,1.700 ,1); //rho1700
456 EvtResonance2 DKpipi0Res7(p4_p,moms1,moms3,2.5 ,103.0 ,0.322 ,1.717 ,1); //K*1680-
457
458
459
460 double pi180inv = 1.0/EvtConst::radToDegrees;
461
462 amp = EvtComplex(1.75*cos(31.2*pi180inv),1.75*sin(31.2*pi180inv))
463 + DKpipi0Res1.resAmpl() + DKpipi0Res2.resAmpl() + DKpipi0Res3.resAmpl()
464 + DKpipi0Res4.resAmpl() + DKpipi0Res5.resAmpl()
465 + DKpipi0Res6.resAmpl()
466 + DKpipi0Res7.resAmpl();
467
468 }
469
470
471 if(_flag==5) {
472
473 // D0 -> K0 K+ K- + CC
474 // If it does not come from a B->DK, decay it as D0 or D0bar separatly
475 // if p4_p is D0, moms1 is K0, moms2 is pi-, moms3 is pi+
476 // if p4_p is D0bar, moms1 is K0, moms2 is pi+, moms3 is pi-
477
478 if ( isBToDK ){
479 // Gamma angle in rad.
480 double gamma = EvtDecayTable::getDecayFunc( p->getParent() )
481 -> getArg( 0 ) ;
482 // Strong phase in rad.
483 double delta = EvtDecayTable::getDecayFunc( p->getParent() )
484 -> getArg( 1 ) ;
485 // Ratio between B->D0K and B->D0barK
486 double A = EvtDecayTable::getDecayFunc( p->getParent() )
487 -> getArg( 2 ) ;
488
489 EvtComplex Factor( fabs( A ) * cos ( delta ) ,
490 fabs( A ) * sin ( delta ) ) ;
491
492 if ( ( p->getParent()->getId() == BP ) ||
493 ( p->getParent()->getId() == B0 ) ) {
494 // the ratio D/Dbar
495 Factor = Factor * EvtComplex( cos ( gamma ) , sin ( gamma ) ) ;
496 if ( p->getId() == D0 ) {
497 // the flavor of the particle has no meaning. But we need
498 // it to know which daughter is pi+ or pi-
499 // M( B+ or B0 ) = f(Dbar) + factor * f(D)
500 // f(Dbar) = amplDtoK0PiPi(pD, K0, K+, K-)
501 // f(D) = amplDtoK0PiPi(pD, K0, K-, K+)
502 // Then ...
503 amp = amplDtoK0KK( p4_p , moms1 , moms3 , moms2 ) +
504 Factor * amplDtoK0KK( p4_p , moms1 , moms2 , moms3 ) ;
505 }
506 else {
507 amp = amplDtoK0KK( p4_p , moms1 , moms2 , moms3 ) +
508 Factor * amplDtoK0KK( p4_p , moms1 , moms3 , moms2 ) ;
509 }
510 }
511 else if ( ( p->getParent() -> getId() == BM ) ||
512 ( p->getParent() -> getId() == B0B ) ) {
513 Factor = Factor * EvtComplex( cos ( gamma ) , - sin ( gamma ) ) ;
514 // here M( B- or B0bar ) = f(D) + factor * f(Dbar) then ...
515 if ( p->getId() == D0 ) {
516 amp = amplDtoK0KK( p4_p , moms1 , moms2 , moms3 ) +
517 Factor * amplDtoK0KK( p4_p , moms1 , moms3 , moms2 ) ;
518 }
519 else {
520 amp = amplDtoK0KK( p4_p , moms1 , moms3 , moms2 ) +
521 Factor * amplDtoK0KK( p4_p , moms1 , moms2 , moms3 ) ;
522 }
523 }
524 }
525 else {
526 amp = amplDtoK0KK( p4_p , moms1 , moms2 , moms3 ) ;
527 }
528 }
529
530
531
532
533 // Ds -> K K pi
534 if(_flag==6) {
535 EvtResonance2 DsKKpiRes1(p4_p, moms3, moms1, 1.0, 0.0, 0.0455, 0.8944, 1, true); // K*(892)
536 EvtResonance2 DsKKpiRes2(p4_p, moms3, moms1, 1.48, 138., 0.290, 1.414, 0); // K*_0(1430)
537 EvtFlatte DsKKpiRes3(p4_p, moms1, moms2, 5.07, 156., 0.965, _kkpi_params); // f_0(980)
538 EvtResonance2 DsKKpiRes4(p4_p, moms1, moms2, 1.15, -10., 0.00426, 1.019455, 1, true); // phi(1020)
539 EvtResonance2 DsKKpiRes5(p4_p, moms1, moms2, 1.28, 53., 0.265, 1.350, 0); // f_0(1370)
540 EvtResonance2 DsKKpiRes6(p4_p, moms1, moms2, 1.19, 87., 0.137, 1.724, 0); // f_0(1710)
541 amp = DsKKpiRes1.resAmpl() + DsKKpiRes2.resAmpl() + DsKKpiRes3.resAmpl()
542 + DsKKpiRes4.resAmpl() + DsKKpiRes5.resAmpl() + DsKKpiRes6.resAmpl();
543
544 }
545
546
547 vertex(amp);
548
549 return ;
550}
551
552EvtComplex EvtDDalitz::amplDtoK0PiPi(EvtVector4R p4_p, EvtVector4R moms1,
553 EvtVector4R moms2, EvtVector4R moms3) {
554
555 //K*(892)-
556 EvtResonance2 DK2piRes1(p4_p,moms1,moms2,1.418,-190.0,0.0508,0.89166,1);
557 //K0*(1430)
558 EvtResonance2 DK2piRes2(p4_p,moms1,moms2,1.818,-337.0,0.294 ,1.412 ,0);
559 //K2*(1430)
560 EvtResonance2 DK2piRes3(p4_p,moms1,moms2,0.909, -5.0,0.0985,1.4256 ,2);
561 //K*(1680)
562 EvtResonance2 DK2piRes4(p4_p,moms1,moms2,5.091,-166.0,0.322 ,1.717 ,1);
563 //DCS K*(892)
564 EvtResonance2 DK2piRes5(p4_p,moms1,moms3,0.100, -19.0,0.0508,0.89166,1);
565
566 //Rho
567 EvtResonance2 DK2piRes6(p4_p,moms3,moms2,0.909,-340.0,0.1502,0.7693,1);
568 //Omega
569 EvtResonance2 DK2piRes7(p4_p,moms3,moms2,.0336,-226.0,0.00844,0.78257,1);
570 //f0(980)
571 EvtResonance2 DK2piRes8(p4_p,moms3,moms2,0.309,-152.0,0.05,0.977,0);
572 //f0(1370)
573 EvtResonance2 DK2piRes9(p4_p,moms3,moms2,1.636,-255.0,0.272,1.31,0);
574 //f2(1270)
575 EvtResonance2 DK2piRes10(p4_p,moms3,moms2,0.636,-32.0,0.1851,1.2754,2);
576
577 return EvtComplex(1.0,0.0) +
578 DK2piRes1.resAmpl() + DK2piRes2.resAmpl() +
579 DK2piRes3.resAmpl() + DK2piRes4.resAmpl() +
580 DK2piRes5.resAmpl() + DK2piRes6.resAmpl() +
581 DK2piRes7.resAmpl() + DK2piRes8.resAmpl() +
582 DK2piRes9.resAmpl() + DK2piRes10.resAmpl();
583}
584
585//
586// BaBar decay amplitudes for D0->Ks K+ K-
587//
588// p4_p is D0
589// moms1 is K0s
590// moms2 is K+
591// moms3 is K-
592// Amplitudes and phases are taken from BaBar hep-ex/0207089
593// with convention : Non Resonant = Amp 1. / Phase 0.
594
595EvtComplex EvtDDalitz::amplDtoK0KK(EvtVector4R p4_p, EvtVector4R moms1,
596 EvtVector4R moms2, EvtVector4R moms3) {
597
598 //phi
599 EvtResonance DK0KKRes1( p4_p, moms2, moms3, 113.75, -40.0, 0.0043,
600 1.019456, 1 ) ;
601 //a0(980)
602 EvtResonance DK0KKRes2( p4_p, moms2, moms3, 152.25, 69.0, 0.1196 , 0.9847,
603 0 ) ;
604 //f0(980)
605 EvtResonance DK0KKRes3( p4_p, moms2, moms3, 30.5, -201.0, 0.05, 0.980 ,
606 0 ) ;
607 //a0(980)+
608 EvtResonance DK0KKRes4( p4_p, moms1, moms2, 85.75, -93.0, 0.1196 , 0.9847,
609 0 ) ;
610 //a0(980)-
611 EvtResonance DK0KKRes5( p4_p, moms3, moms1, 8. , -53.0 ,0.1196, 0.9847,
612 0 ) ;
613
614
615 return EvtComplex(1.0,0.0) +
616
617 DK0KKRes1.resAmpl() + DK0KKRes2.resAmpl() +
618
619 DK0KKRes3.resAmpl() + DK0KKRes4.resAmpl() +
620
621 DK0KKRes5.resAmpl() ;
622
623
624}
double sin(const BesAngle a)
Definition BesAngle.h:210
double cos(const BesAngle a)
Definition BesAngle.h:213
ostream & report(Severity severity, const char *facility)
Definition EvtReport.cc:36
@ ERROR
Definition EvtReport.hh:49
static const double radToDegrees
Definition EvtConst.hh:30
EvtDecayBase * clone()
Definition EvtDDalitz.cc:45
void initProbMax()
void getName(std::string &name)
Definition EvtDDalitz.cc:38
void decay(EvtParticle *p)
virtual ~EvtDDalitz()
Definition EvtDDalitz.cc:36
void init()
Definition EvtDDalitz.cc:51
void vertex(const EvtComplex &amp)
void checkSpinDaughter(int d1, EvtSpinType::spintype sp)
void checkSpinParent(EvtSpinType::spintype sp)
double getArg(int j)
void setProbMax(double prbmx)
virtual void getName(std::string &name)=0
EvtId getParentId()
void checkNDaug(int d1, int d2=-1)
EvtId * getDaugs()
void checkNArg(int a1, int a2=-1, int a3=-1, int a4=-1)
EvtId getDaug(int i)
static EvtDecayBase * getDecayFunc(EvtParticle *)
EvtComplex resAmpl()
Definition EvtFlatte.cc:71
Definition EvtId.hh:27
static double getMeanMass(EvtId i)
Definition EvtPDL.hh:45
static EvtId getId(const std::string &name)
Definition EvtPDL.cc:287
EvtId getId() const
EvtParticle * getParent()
const EvtVector4R & getP4() const
EvtParticle * getDaug(int i)
double mass() const
double initializePhaseSpace(int numdaughter, EvtId *daughters, double poleSize=-1., int whichTwo1=0, int whichTwo2=1)
EvtComplex resAmpl()
EvtComplex relBrWig(int i)
EvtComplex resAmpl()
void set(int i, double d)