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lepacx.f

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Last change on this file was 286, checked in by harald, 25 years ago
This is the start point for further developments of the Magic Monte Carlo Simulation written by Jose Carlos Gonzales. Now it is under control of one CVS repository for the whole collaboration. Everyone should use this CVS repository for further developments.
File size: 12.7 KB

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1	SUBROUTINE LEPACX( ECMCE,SDMLOG,LEPART,IPART )
2
3	C-----------------------------------------------------------------------
4	C LE(ADING) PA(RTICLE) C(HARGE) (E)X(CHANGE)
5	C
6	C CONSIDERS CHARGE EXCHANGE POSSIBILITY OF (ANTI)LEADING PARTICLE
7	C CONSIDERS RESONANCE EXCITATION WITHOUT/WITH CHARGE EXCHANGE
8	C LASTPI INCREASED: CREATE ONE CHARGED PION FOR CHARGE CONSERVATION
9	C LASTPI UNCHANGED: NO CHARGE EXCHANGE
10	C LASTPI DECREASED: CANCEL ONE CHARGED PION FOR CHARGE CONSERVATION
11	C NRESPC INCRESAED BY 1, IF PI(+-) WILL BE GENERATED BY RESON. DECAY
12	C NRESPN INCRESAED BY 1, IF PI(0) WILL BE GENERATED BY RESON. DECAY
13	C NCPLUS INCREASED BY 1, IF POSITIVE CHARGE IS CREATED
14	C NCPLUS DECREASED BY 1, IF NEGATIVE CHARGE IS CREATED
15	C THIS SUBROUTINE IS CALLED FROM HDPM
16	C ARGUMENTS:
17	C ECMCE = ENERGY FOR CHARGE EXCHANGE (ECMDPM OR ECMDIF)
18	C SDMLOG = ELABLG FOR NSD, DMLOG FOR DIFFRACTION
19	C LEPART = PARTICLE CODE OF (ANTI)LEADER EXCHANGING CHARGE
20	C IPART = PARTICLE NUMBER IN ARRAY OF SECONDARY PARTICLES
21	C = 1 FOR LEADER, = 2 FOR ANTI-LEADER
22	C-----------------------------------------------------------------------
23
24	IMPLICIT DOUBLE PRECISION (A-H,O-Z)
25	*KEEP,CONST.
26	COMMON /CONST/ PI,PI2,OB3,TB3,ENEPER
27	DOUBLE PRECISION PI,PI2,OB3,TB3,ENEPER
28	*KEEP,LEPAR.
29	COMMON /LEPAR/ LEPAR1,LEPAR2,LASTPI,NRESPC,NRESPN,NCPLUS
30	INTEGER LEPAR1,LEPAR2,LASTPI,NRESPC,NRESPN,NCPLUS
31	*KEEP,RANDPA.
32	COMMON /RANDPA/ FAC,U1,U2,RD,NSEQ,ISEED,KNOR
33	DOUBLE PRECISION FAC,U1,U2
34	REAL RD(3000)
35	INTEGER ISEED(103,10),NSEQ
36	LOGICAL KNOR
37	*KEEP,RESON.
38	COMMON /RESON/ RDRES,RESRAN,IRESPAR
39	REAL RDRES(2),RESRAN(1000)
40	INTEGER IRESPAR
41
42	*KEEP,RUNPAR.
43	COMMON /RUNPAR/ FIXHEI,THICK0,HILOECM,HILOELB,
44	* STEPFC,NRRUN,NSHOW,PATAPE,MONIIN,
45	* MONIOU,MDEBUG,NUCNUC,
46	* CETAPE,
47	* SHOWNO,ISHW,NOPART,NRECS,NBLKS,MAXPRT,NDEBDL,
48	* N1STTR,MDBASE,
49	* DEBDEL,DEBUG,FDECAY,FEGS,FIRSTI,FIXINC,FIXTAR,
50	* FIX1I,FMUADD,FNKG,FPRINT,FDBASE
51	* ,GHEISH,GHESIG
52	COMMON /RUNPAC/ DSN,HOST,USER
53	DOUBLE PRECISION FIXHEI,THICK0,HILOECM,HILOELB
54	REAL STEPFC
55	INTEGER NRRUN,NSHOW,PATAPE,MONIIN,MONIOU,MDEBUG,NUCNUC,
56	* SHOWNO,ISHW,NOPART,NRECS,NBLKS,MAXPRT,NDEBDL,
57	* N1STTR,MDBASE
58	INTEGER CETAPE
59	CHARACTER*79 DSN
60	CHARACTER*20 HOST,USER
61
62	LOGICAL DEBDEL,DEBUG,FDECAY,FEGS,FIRSTI,FIXINC,FIXTAR,
63	* FIX1I,FMUADD,FNKG,FPRINT,FDBASE
64	* ,GHEISH,GHESIG
65	*KEND.
66
67	C-----------------------------------------------------------------------
68
69	IF ( DEBUG ) WRITE(MDEBUG,*) 'LEPACX: LEPART=',LEPART
70
71	C SET PROBABILITIES FOR RESONANCE PRODUCTION (PRESPR) AND FOR
72	C CHARGE EXCHANGE OR RESONANCE PRODUCTION (PCEXRS)
73	IF ( ECMCE .LE. 19.4D0 ) THEN
74	PCEXRS = 0.45D0
75	PRESPR = 0.35D0
76	ELSEIF ( ECMCE .LT. 968.5D0 ) THEN
77	PCEXRS = 0.45D0 + 0.034509D0 * (SDMLOG - 5.29832D0)
78	PRESPR = 0.0881897D0 * (SDMLOG - 5.29832D0)
79	ELSE
80	PCEXRS = 0.72D0
81	PRESPR = 0.69D0
82	ENDIF
83	PRESPR = MAX( 0.35D0, PRESPR )
84	IF ( LEPART .EQ. 7 ) THEN
85	C ASSUME 50% CHARGE EXCHANGE FOR GAMMA INITIATED INTERACTION
86	PCEXRS = 0.5D0
87	PRESPR = 0.D0
88	ENDIF
89
90	C THROW RANDOM NUMBER TO LOOK FOR RES. PRODUCTION OR CHARGE EXCHANGE
91	CALL RMMAR( RD,2,1 )
92
93	C - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
94	C RESONANCE IS FORMED. IF ADDITIONAL CHARGE EXCHANGE, THEN SET LASTPI
95	IF ( RD(1) .LE. PRESPR ) THEN
96
97	C FIRST FOR NUCLEONS (AS MOST FREQUENT)
98	IF ( LEPART .EQ. 13 ) THEN
99	IF ( RD(2) .LE. 0.5 ) THEN
100	C NEUTRON ----> DELTA(-)
101	LEPART = 57
102	NRESPC = NRESPC + 1
103	NCPLUS = NCPLUS - 1
104	ELSEIF ( RD(2) .GT. TB3 ) THEN
105	C NEUTRON ----> DELTA(0)
106	LEPART = 56
107	CALL RMMAR( RDRES(IPART),1,1 )
108	IF ( RDRES(IPART) .LE. TB3 ) THEN
109	NRESPN = NRESPN + 1
110	ELSE
111	NRESPC = NRESPC + 1
112	LASTPI = LASTPI - 1
113	ENDIF
114	ELSE
115	C NEUTRON ----> DELTA(+)
116	LEPART = 55
117	CALL RMMAR( RDRES(IPART),1,1 )
118	IF ( RDRES(IPART) .LE. TB3 ) THEN
119	NRESPN = NRESPN + 1
120	LASTPI = LASTPI - 1
121	ELSE
122	NRESPC = NRESPC + 1
123	ENDIF
124	NCPLUS = NCPLUS + 1
125	ENDIF
126	ELSEIF ( LEPART .EQ. 14 ) THEN
127	IF ( RD(2) .LE. 0.5 ) THEN
128	C PROTON ----> DELTA(++)
129	LEPART = 54
130	NRESPC = NRESPC + 1
131	NCPLUS = NCPLUS + 1
132	ELSEIF ( RD(2) .GT. TB3 ) THEN
133	C PROTON ----> DELTA(+)
134	LEPART = 55
135	CALL RMMAR( RDRES(IPART),1,1 )
136	IF ( RDRES(IPART) .LE. TB3 ) THEN
137	NRESPN = NRESPN + 1
138	ELSE
139	NRESPC = NRESPC + 1
140	LASTPI = LASTPI + 1
141	ENDIF
142	ELSE
143	C PROTON ----> DELTA(0)
144	LEPART = 56
145	CALL RMMAR( RDRES(IPART),1,1 )
146	IF ( RDRES(IPART) .LE. TB3 ) THEN
147	NRESPN = NRESPN + 1
148	LASTPI = LASTPI + 1
149	ELSE
150	NRESPC = NRESPC + 1
151	ENDIF
152	NCPLUS = NCPLUS - 1
153	ENDIF
154
155	C NOW FOR PIONS
156	ELSEIF ( LEPART .EQ. 8 .OR. LEPART .EQ. 9 ) THEN
157	IF ( RD(2) .LE. 0.5 ) THEN
158	C PI(+-) ----> RHO(+-)
159	LEPART = LEPART + 44
160	NRESPN = NRESPN + 1
161	ELSE
162	C PI(+-) ----> RHO(0) ( ----> PI(+) + PI(-) )
163	NCPLUS = NCPLUS + 2 * LEPART - 17
164	LEPART = 51
165	NRESPC = NRESPC + 1
166	ENDIF
167
168	C NOW FOR KAONS
169	ELSEIF ( LEPART .EQ. 11 .OR. LEPART .EQ. 12 ) THEN
170	IF ( RD(2) .LE. 0.5 ) THEN
171	C K(+-) ----> K*(+-)
172	LEPART = LEPART + 52
173	CALL RMMAR( RDRES(IPART),1,1 )
174	IF ( RDRES(IPART) .LE. TB3 ) THEN
175	NRESPN = NRESPN + 1
176	ELSE
177	NRESPC = NRESPC + 1
178	LASTPI = LASTPI + 1
179	ENDIF
180	ELSE
181	C K(+) ----> K*(0)
182	C K(-) ----> ANTI-K*(0)
183	CALL RMMAR( RDRES(IPART),1,1 )
184	NCPLUS = NCPLUS + 2 * LEPART - 23
185	IF ( RDRES(IPART) .LE. TB3 ) THEN
186	NRESPC = NRESPC + 1
187	ELSE
188	NRESPN = NRESPN + 1
189	LASTPI = LASTPI + 1
190	ENDIF
191	LEPART = 3*LEPART + 29
192	ENDIF
193	ELSEIF ( LEPART .EQ. 10 .OR. LEPART .EQ. 16 ) THEN
194	IF ( RD(2) .LE. 0.5 ) THEN
195	C K(0) ----> (ANTI) K*(0)
196	CALL RMMAR( RD,1,1 )
197	IF ( RD(1) .LE. 0.5 ) THEN
198	LEPART = 62
199	ELSE
200	LEPART = 65
201	ENDIF
202	CALL RMMAR( RDRES(IPART),1,1 )
203	IF ( RDRES(IPART) .LE. TB3 ) THEN
204	NRESPC = NRESPC + 1
205	LASTPI = LASTPI - 1
206	ELSE
207	NRESPN = NRESPN + 1
208	ENDIF
209	ELSE
210	C K(0) ----> K*(+-)
211	CALL RMMAR( RD,1,1 )
212	IF ( RD(1) .LE. 0.5 ) THEN
213	LEPART = 63
214	NCPLUS = NCPLUS + 1
215	ELSE
216	LEPART = 64
217	NCPLUS = NCPLUS - 1
218	ENDIF
219	CALL RMMAR( RDRES(IPART),1,1 )
220	IF ( RDRES(IPART) .LE. TB3 ) THEN
221	NRESPN = NRESPN + 1
222	LASTPI = LASTPI - 1
223	ELSE
224	NRESPC = NRESPC + 1
225	ENDIF
226	ENDIF
227
228	C NOW FOR ANTINUCLEONS
229	ELSEIF ( LEPART .EQ. 25 ) THEN
230	IF ( RD(2) .LE. 0.5 ) THEN
231	C ANTINEUTRON ----> ANTI-DELTA(0)
232	LEPART = 60
233	CALL RMMAR( RDRES(IPART),1,1 )
234	IF ( RDRES(IPART) .LE. TB3 ) THEN
235	NRESPN = NRESPN + 1
236	ELSE
237	NRESPC = NRESPC + 1
238	LASTPI = LASTPI - 1
239	ENDIF
240	ELSEIF ( RD(2) .GT. TB3 ) THEN
241	C ANTINEUTRON ----> ANTI-DELTA(+)
242	LEPART = 61
243	NRESPC = NRESPC + 1
244	NCPLUS = NCPLUS + 1
245	ELSE
246	C ANTINEUTRON ----> ANTI-DELTA(-)
247	LEPART = 59
248	CALL RMMAR( RDRES(IPART),1,1 )
249	IF ( RDRES(IPART) .LE. TB3 ) THEN
250	NRESPN = NRESPN + 1
251	LASTPI = LASTPI - 1
252	ELSE
253	NRESPC = NRESPC + 1
254	ENDIF
255	NCPLUS = NCPLUS - 1
256	ENDIF
257	ELSEIF ( LEPART .EQ. 15 ) THEN
258	IF ( RD(2) .LE. 0.5 ) THEN
259	C ANTIPROTON ----> ANTI-DELTA(--)
260	LEPART = 58
261	NRESPC = NRESPC + 1
262	NCPLUS = NCPLUS - 1
263	ELSEIF ( RD(2) .GT. TB3 ) THEN
264	C ANTIPROTON ----> ANTI-DELTA(-)
265	LEPART = 59
266	CALL RMMAR( RDRES(IPART),1,1 )
267	IF ( RDRES(IPART) .LE. TB3 ) THEN
268	NRESPN = NRESPN + 1
269	ELSE
270	NRESPC = NRESPC + 1
271	LASTPI = LASTPI + 1
272	ENDIF
273	ELSE
274	C ANTIPROTON ----> ANTI-DELTA(0)
275	LEPART = 60
276	CALL RMMAR( RDRES(IPART),1,1 )
277	IF ( RDRES(IPART) .LE. TB3 ) THEN
278	NRESPN = NRESPN + 1
279	LASTPI = LASTPI + 1
280	ELSE
281	NRESPC = NRESPC + 1
282	ENDIF
283	NCPLUS = NCPLUS + 1
284	ENDIF
285
286	ELSEIF ( LEPART .EQ. 7 ) THEN
287	C NO RESONANCE FORMATION FOR INDUCING GAMMA RADIATION
288	IF ( DEBUG ) WRITE(MDEBUG,*) 'LEPACX: NO EXCHANGE'
289
290	ELSEIF ( (LEPART .GE. 18 .AND. LEPART .LE. 24) .OR.
291	* (LEPART .GE. 26 .AND. LEPART .LE. 32) ) THEN
292	C NO RESONANCE FORMATION FOR STRANGE BARYONS
293	IF ( DEBUG ) WRITE(MDEBUG,*) 'LEPACX: NO EXCHANGE'
294
295	ELSE
296	WRITE(MONIOU,100) LEPART
297	100 FORMAT(1H ,'LEPACX: UNIDENTIFIED PARTICLE CODE= ',I4,
298	* ' FOR RESONANCE FORMATION')
299	ENDIF
300	IF ( DEBUG ) WRITE(MDEBUG,102)
301	* LEPART,LASTPI,NRESPC,NRESPN,NCPLUS
302	102 FORMAT(' LEPACX: LEPART,LASTPI,NRESPC,NRESPN,NCPLUS=',5I5)
303
304	C - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
305	C CHARGE EXCHANGE WITHOUT RESONANCE FORMATION
306	ELSEIF ( RD(1) .LE. PCEXRS ) THEN
307
308	C FIRST FOR NUCLEONS (AS MOST FREQUENT)
309	IF ( LEPART .EQ. 13 ) THEN
310	C NEUTRON ( + PI(+) ) ----> PROTON ( + PI(0) )
311	LEPART = 14
312	LASTPI = LASTPI - 1
313	NCPLUS = NCPLUS + 1
314	ELSEIF ( LEPART .EQ. 14 ) THEN
315	C PROTON ( + PI(0) ) ----> NEUTRON ( + PI(+) )
316	LEPART = 13
317	LASTPI = LASTPI + 1
318	NCPLUS = NCPLUS - 1
319
320	C NOW FOR PIONS
321	ELSEIF ( LEPART .EQ. 8 .OR. LEPART .EQ. 9 ) THEN
322	C PI(+-) ----> PI(0)
323	NCPLUS = NCPLUS + 2 * LEPART - 17
324	LEPART = 7
325	LASTPI = LASTPI + 1
326
327	C NOW FOR KAONS
328	ELSEIF ( LEPART .EQ. 11 .OR. LEPART .EQ. 12 ) THEN
329	C K(+-) ----> K(0) (S OR L)
330	NCPLUS = NCPLUS + 2 * LEPART - 23
331	IF ( RD(2) .LE. 0.5 ) THEN
332	LEPART = 10
333	ELSE
334	LEPART = 16
335	ENDIF
336	LASTPI = LASTPI + 1
337	ELSEIF ( LEPART .EQ. 10 .OR. LEPART .EQ. 16 ) THEN
338	C K(0) ----> K(+-)
339	IF ( RD(2) .LE. 0.5 ) THEN
340	LEPART = 11
341	NCPLUS = NCPLUS + 1
342	ELSE
343	LEPART = 12
344	NCPLUS = NCPLUS - 1
345	ENDIF
346	LASTPI = LASTPI - 1
347
348	C NOW FOR ANTINUCLEONS
349	ELSEIF ( LEPART .EQ. 25 ) THEN
350	C ANTINEUTRON ( + PI(-) ) ----> ANTIPROTON ( + PI(0) )
351	LEPART = 15
352	LASTPI = LASTPI - 1
353	NCPLUS = NCPLUS - 1
354	ELSEIF ( LEPART .EQ. 15 ) THEN
355	C ANTIPROTON ( + PI(0) ) ----> ANTINEUTRON ( + PI(-) )
356	LEPART = 25
357	LASTPI = LASTPI + 1
358	NCPLUS = NCPLUS + 1
359
360	C NOW FOR GAMMA INDUCED REACTIONS (ITYPE=7)
361	ELSEIF ( LEPART .EQ. 7 ) THEN
362	C TEST IF CHARGE EXCHANGE REACTION FOR PI(0)
363	C PI(0) ----> PI(+-)
364	IF ( RD(2) .LE. 0.5 ) THEN
365	LEPART = 8
366	NCPLUS = NCPLUS + 1
367	ELSE
368	LEPART = 9
369	NCPLUS = NCPLUS - 1
370	ENDIF
371	LASTPI = LASTPI - 1
372
373	ELSEIF ( (LEPART .GE. 18 .AND. LEPART .LE. 24) .OR.
374	* (LEPART .GE. 26 .AND. LEPART .LE. 32) ) THEN
375	C NO CHARGE EXCHANGE FOR STRANGE BARYONS
376	IF ( DEBUG ) WRITE(MDEBUG,*) 'LEPACX: NO EXCHANGE'
377
378	ELSE
379	WRITE(MONIOU,101) LEPART
380	101 FORMAT(1H ,'LEPACX: UNIDENTIFIED PARTICLE CODE= ',I4,
381	* ' FOR CHARGE EXCHANGE')
382	ENDIF
383	IF ( DEBUG ) WRITE(MDEBUG,*) 'LEPACX: LEPART,LASTPI,NCPLUS=',
384	* LEPART,LASTPI,NCPLUS
385	ELSE
386	IF ( DEBUG ) WRITE(MDEBUG,*) 'LEPACX: NO EXCHANGE'
387	ENDIF
388
389	RETURN
390	END

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