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nucint.f@ 8410

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Last change on this file since 8410 was 286, checked in by harald, 26 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: 13.1 KB

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1	SUBROUTINE NUCINT
2
3	C-----------------------------------------------------------------------
4	C NUC(LEAR) INT(ERACTION)
5	C
6	C SELECTS TYPE OF INTERACTION PROCESS FOR ISOBAR MODEL, ACCORDING TO ECM
7	C ISOBAR MASSES INDEPENDENT OF RESPECTIVE ENERGY RANGES
8	C HEAVY PRIMARIES AND STRANGE BARYONS INCLUDED
9	C THIS SUBROUTINE IS CALLED FROM MAIN
10	C-----------------------------------------------------------------------
11
12	IMPLICIT NONE
13	*KEEP,AIR.
14	COMMON /AIR/ COMPOS,PROBTA,AVERAW,AVOGAD
15	DOUBLE PRECISION COMPOS(3),PROBTA(3),AVERAW,AVOGAD
16	*KEEP,CONST.
17	COMMON /CONST/ PI,PI2,OB3,TB3,ENEPER
18	DOUBLE PRECISION PI,PI2,OB3,TB3,ENEPER
19	*KEEP,GENER.
20	COMMON /GENER/ GEN,ALEVEL
21	DOUBLE PRECISION GEN,ALEVEL
22	*KEEP,IRET.
23	COMMON /IRET/ IRET1,IRET2
24	INTEGER IRET1,IRET2
25	*KEEP,KAONS.
26	COMMON /KAONS/ CKA
27	DOUBLE PRECISION CKA(80)
28	*KEEP,MULT.
29	COMMON /MULT/ EKINL,MSMM,MULTMA,MULTOT
30	DOUBLE PRECISION EKINL
31	INTEGER MSMM,MULTMA(37,13),MULTOT(37,13)
32	*KEEP,PAM.
33	COMMON /PAM/ PAMA,SIGNUM
34	DOUBLE PRECISION PAMA(6000),SIGNUM(6000)
35	*KEEP,PARPAR.
36	COMMON /PARPAR/ CURPAR,SECPAR,PRMPAR,OUTPAR,C,
37	* E00,E00PN,PTOT0,PTOT0N,THICKH,ITYPE,LEVL
38	DOUBLE PRECISION CURPAR(14),SECPAR(14),PRMPAR(14),OUTPAR(14),
39	* C(50),E00,E00PN,PTOT0,PTOT0N,THICKH
40	INTEGER ITYPE,LEVL
41	*KEEP,PARPAE.
42	DOUBLE PRECISION GAMMA,COSTHE,PHI,H,T,X,Y,CHI,BETA,GCM,ECM
43	EQUIVALENCE (CURPAR(2),GAMMA), (CURPAR(3),COSTHE),
44	* (CURPAR(4), PHI ), (CURPAR(5), H ),
45	* (CURPAR(6), T ), (CURPAR(7), X ),
46	* (CURPAR(8), Y ), (CURPAR(9), CHI ),
47	* (CURPAR(10),BETA), (CURPAR(11),GCM ),
48	* (CURPAR(12),ECM )
49	*KEEP,POLAR.
50	COMMON /POLAR/ POLART,POLARF
51	DOUBLE PRECISION POLART,POLARF
52	*KEEP,RANDPA.
53	COMMON /RANDPA/ FAC,U1,U2,RD,NSEQ,ISEED,KNOR
54	DOUBLE PRECISION FAC,U1,U2
55	REAL RD(3000)
56	INTEGER ISEED(103,10),NSEQ
57	LOGICAL KNOR
58	*KEEP,RANGE.
59	COMMON /RANGE/ CC
60	DOUBLE PRECISION CC(20)
61	*KEEP,RUNPAR.
62	COMMON /RUNPAR/ FIXHEI,THICK0,HILOECM,HILOELB,
63	* STEPFC,NRRUN,NSHOW,PATAPE,MONIIN,
64	* MONIOU,MDEBUG,NUCNUC,
65	* CETAPE,
66	* SHOWNO,ISHW,NOPART,NRECS,NBLKS,MAXPRT,NDEBDL,
67	* N1STTR,MDBASE,
68	* DEBDEL,DEBUG,FDECAY,FEGS,FIRSTI,FIXINC,FIXTAR,
69	* FIX1I,FMUADD,FNKG,FPRINT,FDBASE
70	* ,GHEISH,GHESIG
71	COMMON /RUNPAC/ DSN,HOST,USER
72	DOUBLE PRECISION FIXHEI,THICK0,HILOECM,HILOELB
73	REAL STEPFC
74	INTEGER NRRUN,NSHOW,PATAPE,MONIIN,MONIOU,MDEBUG,NUCNUC,
75	* SHOWNO,ISHW,NOPART,NRECS,NBLKS,MAXPRT,NDEBDL,
76	* N1STTR,MDBASE
77	INTEGER CETAPE
78	CHARACTER*79 DSN
79	CHARACTER*20 HOST,USER
80
81	LOGICAL DEBDEL,DEBUG,FDECAY,FEGS,FIRSTI,FIXINC,FIXTAR,
82	* FIX1I,FMUADD,FNKG,FPRINT,FDBASE
83	* ,GHEISH,GHESIG
84	*KEEP,SIGM.
85	COMMON /SIGM/ SIGMA,SIGANN,SIGAIR,FRACTN,FRCTNO
86	DOUBLE PRECISION SIGMA,SIGANN,SIGAIR,FRACTN,FRCTNO
87	*KEEP,STATI.
88	COMMON /STATI/ SABIN,SBBIN,INBIN,IPBIN,IKBIN,IHBIN
89	DOUBLE PRECISION SABIN(37),SBBIN(37)
90	INTEGER INBIN(37),IPBIN(37),IKBIN(37),IHBIN(37)
91	*KEEP,VKIN.
92	COMMON /VKIN/ BETACM
93	DOUBLE PRECISION BETACM
94	*KEND.
95
96	DOUBLE PRECISION BETA3,COSMU,COSTCM,COSTH3,GAMMA3,
97	* PHIMU,PHI3,WORK1,WORK2
98	INTEGER I,IGO,KJ
99	C-----------------------------------------------------------------------
100
101	IF ( DEBUG ) WRITE(MDEBUG,444) (CURPAR(I),I=1,9)
102	444 FORMAT(' NUCINT: CURPAR=',1P,9E10.3)
103
104	C SET GENERATION AND LEVEL OF LAST INTERACTION
105	SECPAR( 9) = GEN
106	SECPAR(10) = ALEVEL
107	C RESET POLARIZATION, NOT USED FOR PARTICLES OTHER THAN MUONS YET
108	SECPAR(11) = 0.D0
109	SECPAR(12) = 0.D0
110
111	C CALCULATE KIN. ENERGY BIN
112	EKINL = PAMA(ITYPE) * ( GAMMA - 1.D0 )
113	IF ( EKINL .GE. .1D0 ) THEN
114	KJ = INT( MIN( 37.D0, 4.D0 + 3.D0*LOG10(EKINL) ) )
115	ELSE
116	KJ = 1
117	ENDIF
118
119	C-----------------------------------------------------------------------
120	C PION INCIDENT
121	IF ( ITYPE .EQ. 8 .OR. ITYPE .EQ. 9 ) THEN
122	IF ( DEBUG ) WRITE(MDEBUG,*) 'NUCINT: PION EKINL=',SNGL(EKINL)
123	IPBIN(KJ) = IPBIN(KJ) + 1
124
125	C DECAY OR INTERACTION FOR PIONS ?
126	IF ( FDECAY ) THEN
127	DO 10 I = 5,8
128	SECPAR(I) = CURPAR(I)
129	10 CONTINUE
130	C DECAY PI(+,-) ----> MU(+,-) + (ANTI)-NEUTRINO(MU)
131	WORK1 = C(48) * GAMMA
132	WORK2 = C(49) * BETA * WORK1
133	CALL RMMAR( RD,2,1 )
134	COSTCM = 2.D0 * RD(1) - 1.D0
135	GAMMA3 = WORK1 + COSTCM * WORK2
136	BETA3 = SQRT( 1.D0 - 1.D0 / GAMMA3**2 )
137	COSTH3 = MIN( 1.D0, ( GAMMA * GAMMA3 - C(48) )
138	* /( BETA * GAMMA * BETA3 * GAMMA3 ) )
139	PHI3 = PI2 * RD(2)
140	C MUON / NEUTRINO IS DROPPED
141	CALL ADDANG( COSTHE,PHI, COSTH3,PHI3, COSMU,PHIMU )
142	IF ( COSMU .GT. C(29) ) THEN
143	C DIRECTION OF PION IN THE MUON CM SYSTEM (= DIRECTION OF POLARIZATION)
144	C SEE: G. BARR ET AL., PHYS. REV. D39 (1989) 3532, EQ. 5
145	C POLART IS COS OF ANGLE BETWEEN PION AND LABORATORY IN THE MU CM
146	C POLARF IS ANGLE PHI AROUND THE LAB DIRECTION IN THE MU CM
147	C POLART, POLARF ARE WITH RESPECT TO THE MU DIRECTION IN THE LAB SYSTEM
148	POLART = ( 2.D0PAMA(8)GAMMAC(7)/(PAMA(5)GAMMA3)
149	* - C(7) - 1.D0 ) / ( BETA3 * (1.D0 - C(7)) )
150	POLARF = PHI3 - PI
151	C PION DIRECTION IS DIRECTION OF POLARIZATION FOR PI+, OPPOSITE FOR PI-
152	IF ( ITYPE .EQ. 9 ) THEN
153	POLART = -POLART
154	POLARF = POLARF + PI
155	ENDIF
156	C GET THE POLARIZATION DIRECTION IN THE MU CM RELATIVE TO THE CORSIKA
157	C COORDINATE SYSTEM
158	CALL ADDANG( COSMU,PHIMU, POLART,POLARF, POLART,POLARF )
159	C MUON IS WRITTEN TO STACK
160	SECPAR( 1) = CURPAR(1) - 3.D0
161	SECPAR( 2) = GAMMA3
162	SECPAR( 3) = COSMU
163	SECPAR( 4) = PHIMU
164	SECPAR(11) = POLART
165	SECPAR(12) = POLARF
166	CALL TSTACK
167	SECPAR(11) = 0.D0
168	SECPAR(12) = 0.D0
169	ENDIF
170	IRET1 = 1
171	RETURN
172	ENDIF
173
174	C - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
175	C PION INTERACTS
176
177	C CALCULATE GAMMA, BETA AND ENERGY IN CENTER OF MASS
178	ECM = SQRT( C(45) * GAMMA + C(46) )
179	GCM = (PAMA(ITYPE) * GAMMA + PAMA(14)) / ECM
180	BETACM = SQRT( 1.D0 - 1.D0 / GCM**2 )
181
182	C LOW ENERGY HADRONIC INTERACTIONS
183	C USE GHEISHA IF THE CROSS SECTION HAS BEEN CALCULATED FOR GHEISHA
184	IF ( GHEISH ) THEN
185	IF ( GHESIG ) THEN
186	CALL CGHEI
187	ELSE
188	CALL SDPM
189	ENDIF
190	ELSE
191	C DETERMINE TYPE OF INTERACTION FOR PIONS
192	IF ( ECM .GT. CC(8) ) THEN
193	C DUAL PARTON MODEL
194	CALL SDPM
195	ELSEIF ( ECM .GT. CC(7) ) THEN
196	C HEAVY ISOBAR + HEAVY MESON
197	CALL BOX69
198	ELSEIF ( ECM .GT. CC(6) ) THEN
199	CALL RMMAR( RD,1,1 )
200	IF ( RD(1) .LE. 0.5 ) THEN
201	C HEAVY ISOBAR + PION
202	CALL BOX68
203	ELSE
204	C HEAVY MESON + NUCLEON
205	CALL BOX67
206	ENDIF
207	ELSEIF ( ECM .GT. CC(5) ) THEN
208	C LIGHT ISOBAR + PION
209	CALL BOX66
210	ELSE
211	C ELASTIC SCATTERING
212	CALL BOX65
213	ENDIF
214	ENDIF
215
216	C-----------------------------------------------------------------------
217	C NUCLEON OR ANTINUCLEON INCIDENT
218	ELSEIF ( ITYPE .EQ. 13 .OR. ITYPE .EQ. 14 .OR.
219	* ITYPE .EQ. 15 .OR. ITYPE .EQ. 25 ) THEN
220	C CALCULATE GAMMA, BETA AND ENERGY IN CENTER OF MASS
221	GCM = SQRT( GAMMA * 0.5D0 + 0.5D0 )
222	ECM = PAMA(ITYPE) * GCM * 2.D0
223	BETACM = SQRT( 1.D0 - 1.D0 / GCM**2 )
224	IF ( DEBUG ) WRITE(MDEBUG,*) 'NUCINT: NUCL EKINL=',SNGL(EKINL)
225	INBIN(KJ) = INBIN(KJ) + 1
226
227	C LOW ENERGY HADRONIC INTERACTIONS
228	C USE GHEISHA IF THE CROSS SECTION HAS BEEN CALCULATED FOR GHEISHA
229	IF ( GHEISH ) THEN
230	IF ( GHESIG ) THEN
231	CALL CGHEI
232	ELSE
233	CALL SDPM
234	ENDIF
235	ELSE
236	C DETERMINE TYPE OF INTERACTION FOR NUCLEONS AND ANTINUCLEONS
237	IF ( ECM .GT. CC(4) ) THEN
238	C DUAL PARTON MODEL
239	CALL SDPM
240	ELSEIF ( ECM .GT. CC(3) ) THEN
241	C USE THE INTERACTION ROUTINES OF PKF GRIEDER
242	C 2 HEAVY ISOBARS AND ANNIHILATION
243	CALL BOX63
244	ELSEIF ( ECM .GT. CC(2) ) THEN
245	C 1 HEAVY ISOBAR + NUCLEON AND ANNIHILATION
246	CALL BOX62
247	ELSEIF ( ECM .GT. CC(1) ) THEN
248	C 1 LIGHT ISOBAR + NUCLEON AND ANNIHILATION
249	CALL BOX61
250	ELSE
251	C ELASTIC SCATTERING AND ANNIHILATION
252	CALL BOX60
253	ENDIF
254	ENDIF
255
256	C-----------------------------------------------------------------------
257	C KAON INCIDENT
258	ELSEIF ( ITYPE .EQ. 11 .OR. ITYPE .EQ. 12 .OR.
259	* ITYPE .EQ. 10 .OR. ITYPE .EQ. 16 ) THEN
260	IF ( DEBUG ) WRITE(MDEBUG,*) 'NUCINT: KAON EKINL=',SNGL(EKINL)
261	IKBIN(KJ) = IKBIN(KJ) + 1
262
263	C DECAY OR INTERACTION FOR KAONS ?
264	IF ( FDECAY ) THEN
265	C KAON DECAYS. DETERMINE DECAY MODE FOR KAONS AND SET LIFE TIME
266	IF ( ITYPE .EQ. 10 ) THEN
267	C K(0,L)-MESON
268	IGO = 4
269	ELSEIF ( ITYPE .EQ. 11 ) THEN
270	C K(+)-MESON
271	IGO = 1
272	ELSEIF ( ITYPE .EQ. 12 ) THEN
273	C K(-)-MESON
274	IGO = 2
275	ELSE
276	C K(0,S)-MESON
277	IGO = 3
278	ENDIF
279	CALL KDECAY( IGO )
280	RETURN
281
282	ELSE
283	C- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
284	C KAON INTERACTS
285	C CALCULATE GAMMA, BETA AND ENERGY IN CENTER OF MASS
286	ECM = SQRT( CKA(13) * GAMMA + CKA(14) )
287	GCM = ( PAMA(ITYPE) * GAMMA + PAMA(14) ) / ECM
288	BETACM = SQRT( 1.D0 - 1.D0 / GCM**2 )
289	C LOW ENERGY HADRONIC INTERACTIONS
290	C USE GHEISHA IF THE CROSS SECTION HAS BEEN CALCULATED FOR GHEISHA
291	IF ( GHEISH ) THEN
292	IF ( GHESIG ) THEN
293	CALL CGHEI
294	ELSE
295	CALL SDPM
296	ENDIF
297	ELSE
298	C KAON INTERACTS. DETERMINE TYPE OF INTERACTION FOR KAONS
299	IF ( ECM .GT. CC(12) ) THEN
300	C DUAL PARTON MODEL
301	CALL SDPM
302	C USE THE INTERACTION ROUTINES OF PKF GRIEDER
303	ELSEIF ( ECM .GT. CC(11) ) THEN
304	C HEAVY ISOBAR + STRANGE MESON
305	CALL BOX74
306	ELSEIF ( ECM .GT. CC(10) ) THEN
307	CALL RMMAR( RD,1,1 )
308	IF ( RD(1) .GT. CKA(21) ) THEN
309	C HEAVY ISOBAR + KAON
310	CALL BOX73
311	ELSE
312	C STRANGE MESON + NUCLEON
313	CALL BOX72
314	ENDIF
315	ELSEIF ( ECM .GT. CC(9) ) THEN
316	C LIGHT ISOBAR + KAON
317	CALL BOX71
318	ELSE
319	C ELASTIC SCATTERING
320	CALL BOX70
321	ENDIF
322	ENDIF
323	ENDIF
324
325	C-----------------------------------------------------------------------
326	C STRANGE BARYON (LAMDA, SIGMA) INCIDENT
327	ELSEIF ( (ITYPE .GE. 18 .AND. ITYPE .LE. 24) .OR.
328	* (ITYPE .GE. 26 .AND. ITYPE .LE. 32) ) THEN
329	IF ( DEBUG ) WRITE(MDEBUG,*) 'NUCINT: SBAR EKINL=',SNGL(EKINL)
330	IHBIN(KJ) = IHBIN(KJ) + 1
331	C DECAY OR INTERACTION FOR STRANGE BARYONS?
332	IF ( FDECAY ) THEN
333	CALL STRDEC
334	RETURN
335	ENDIF
336	C CALCULATE GAMMA, BETA AND ENERGY IN CENTER OF MASS
337	ECM = SQRT( 2.D0 * PAMA(ITYPE) * PAMA(14) * GAMMA
338	* + PAMA(ITYPE)2 + PAMA(14)2 )
339	GCM = ( PAMA(ITYPE) * GAMMA + PAMA(14)) / ECM
340	BETACM = SQRT( 1.D0 - 1.D0 / GCM**2 )
341	C LOW ENERGY HADRONIC INTERACTIONS
342	C USE GHEISHA IF THE CROSS SECTION HAS BEEN CALCULATED FOR GHEISHA
343	IF ( GHEISH ) THEN
344	IF ( GHESIG ) THEN
345	CALL CGHEI
346	ELSE
347	C VENUS TREATS STRANGE BARYONS
348	CALL SDPM
349	ENDIF
350	ELSE
351	IF ( ECM .GT. CC(4) ) THEN
352	CALL SDPM
353	ELSE
354	C USE THE INTERACTION ROUTINES OF PKF GRIEDER
355	C ELASTIC SCATTERING
356	CALL BOX60
357	ENDIF
358	ENDIF
359
360	C-----------------------------------------------------------------------
361	C HEAVY PRIMARY INCIDENT
362	ELSEIF ( ITYPE .GT. 100 ) THEN
363	IF (DEBUG) WRITE(MDEBUG,*) 'NUCINT: HEAVY PRIMARY EKINL=',
364	* SNGL(EKINL)
365	C USE GHEISHA IF THE CROSS SECTION HAS BEEN CALCULATED FOR GHEISHA
366	C (THIS MIGHT BE THE CASE FOR DEUTERONS, TRITONS AND ALPHAS)
367	IF ( GHEISH ) THEN
368	IF ( GHESIG ) THEN
369	CALL CGHEI
370	ELSE
371	CALL SDPM
372	ENDIF
373	ELSE
374	C TREAT HEAVY PRIMARY IN SDPM
375	CALL SDPM
376	ENDIF
377
378	C-----------------------------------------------------------------------
379	C ILLEGAL PARTICLE
380	ELSE
381	WRITE(MONIOU,*) 'NUCINT: ILLEGAL PARTICLE = ',ITYPE
382	STOP
383	ENDIF
384
385	C-----------------------------------------------------------------------
386	C KILL PARTICLE
387	IRET1 = 1
388
389	RETURN
390	END

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