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single.f@ 12426

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Last change on this file since 12426 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: 5.6 KB

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1	SUBROUTINE SINGLE( E,KIND,AMASS,ASMASS )
2
3	C-----------------------------------------------------------------------
4	C SINGLE (PARTICLE)
5	C
6	C NUCLEON, ANTINUCLEON, PION OR KAON INITIATED
7	C HANDLES SINGLE PARTICLE CASE
8	C THIS SUBROUTINE IS CALLED FROM MANY BOX ROUTINES
9	C ARGUMENTS:
10	C E = AVAILABLE ENERGY IN CM
11	C KIND = 1 BACKWARD PARTICLE
12	C = 0 FORWARD PARTICLE
13	C AMASS = MASS OF SINGLE PARTICLE
14	C ASMASS = MASS TO BE LEFT OVER FOR OTHER PARTICLES
15	C-----------------------------------------------------------------------
16
17	IMPLICIT DOUBLE PRECISION (A-H,O-Z)
18	*KEEP,CONST.
19	COMMON /CONST/ PI,PI2,OB3,TB3,ENEPER
20	DOUBLE PRECISION PI,PI2,OB3,TB3,ENEPER
21	*KEEP,ELASTY.
22	COMMON /ELASTY/ ELAST,IELIS,IELHM,IELNU,IELPI
23	DOUBLE PRECISION ELAST
24	INTEGER IELIS(20),IELHM(20),IELNU(20),IELPI(20)
25	*KEEP,PAM.
26	COMMON /PAM/ PAMA,SIGNUM
27	DOUBLE PRECISION PAMA(6000),SIGNUM(6000)
28	*KEEP,PARPAR.
29	COMMON /PARPAR/ CURPAR,SECPAR,PRMPAR,OUTPAR,C,
30	* E00,E00PN,PTOT0,PTOT0N,THICKH,ITYPE,LEVL
31	DOUBLE PRECISION CURPAR(14),SECPAR(14),PRMPAR(14),OUTPAR(14),
32	* C(50),E00,E00PN,PTOT0,PTOT0N,THICKH
33	INTEGER ITYPE,LEVL
34	*KEEP,PARPAE.
35	DOUBLE PRECISION GAMMA,COSTHE,PHI,H,T,X,Y,CHI,BETA,GCM,ECM
36	EQUIVALENCE (CURPAR(2),GAMMA), (CURPAR(3),COSTHE),
37	* (CURPAR(4), PHI ), (CURPAR(5), H ),
38	* (CURPAR(6), T ), (CURPAR(7), X ),
39	* (CURPAR(8), Y ), (CURPAR(9), CHI ),
40	* (CURPAR(10),BETA), (CURPAR(11),GCM ),
41	* (CURPAR(12),ECM )
42	*KEEP,RANDPA.
43	COMMON /RANDPA/ FAC,U1,U2,RD,NSEQ,ISEED,KNOR
44	DOUBLE PRECISION FAC,U1,U2
45	REAL RD(3000)
46	INTEGER ISEED(103,10),NSEQ
47	LOGICAL KNOR
48	*KEEP,RUNPAR.
49	COMMON /RUNPAR/ FIXHEI,THICK0,HILOECM,HILOELB,
50	* STEPFC,NRRUN,NSHOW,PATAPE,MONIIN,
51	* MONIOU,MDEBUG,NUCNUC,
52	* CETAPE,
53	* SHOWNO,ISHW,NOPART,NRECS,NBLKS,MAXPRT,NDEBDL,
54	* N1STTR,MDBASE,
55	* DEBDEL,DEBUG,FDECAY,FEGS,FIRSTI,FIXINC,FIXTAR,
56	* FIX1I,FMUADD,FNKG,FPRINT,FDBASE
57	* ,GHEISH,GHESIG
58	COMMON /RUNPAC/ DSN,HOST,USER
59	DOUBLE PRECISION FIXHEI,THICK0,HILOECM,HILOELB
60	REAL STEPFC
61	INTEGER NRRUN,NSHOW,PATAPE,MONIIN,MONIOU,MDEBUG,NUCNUC,
62	* SHOWNO,ISHW,NOPART,NRECS,NBLKS,MAXPRT,NDEBDL,
63	* N1STTR,MDBASE
64	INTEGER CETAPE
65	CHARACTER*79 DSN
66	CHARACTER*20 HOST,USER
67
68	LOGICAL DEBDEL,DEBUG,FDECAY,FEGS,FIRSTI,FIXINC,FIXTAR,
69	* FIX1I,FMUADD,FNKG,FPRINT,FDBASE
70	* ,GHEISH,GHESIG
71	*KEEP,VKIN.
72	COMMON /VKIN/ BETACM
73	DOUBLE PRECISION BETACM
74	*KEND.
75
76	C-----------------------------------------------------------------------
77
78	IF ( DEBUG ) WRITE(MDEBUG,201)E,KIND,AMASS,ASMASS
79	201 FORMAT(' SINGLE: E,KIND,AMASS,ASMASS=',1P,E10.4,I3,2E10.4)
80
81	IF ( KIND .NE. 0 ) GOTO 100
82
83	C - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
84	C FORWARD PARTICLE
85	C NUCLEON, ANTINUCLEON, PION, OR KAON
86	C PIONS AND / OR KAONS ARE ALWAYS FORWARD
87
88	GFCM = ( E2 + AMASS2 - ASMASS*2 ) 0.5D0 / (E*AMASS)
89	GFCM = MAX( 1.D0, GFCM )
90	BEFCM = SQRT( GFCM**2 - 1.D0 ) / GFCM
91	GFLAB = GCM * GFCM * ( 1.D0 + BETACM * BEFCM )
92	PT = PTRANS(DUMMY)
93	PLLAB2 = MAX( 1.D-6, AMASS*2(GFLAB**2-1.D0) )
94	CTHETA = SQRT( PLLAB2 / (PT**2+PLLAB2) )
95	IF ( CTHETA .LT. C(27) ) GOTO 3
96	CALL RMMAR( RD,2,1 )
97	CALL ADDANG( COSTHE,PHI, CTHETA,RD(1)*PI2, SECPAR(3),SECPAR(4) )
98	IF ( SECPAR(3) .LT. C(29) ) GOTO 3
99
100	C CHARGE ASSIGNMENT
101	IF ( ITYPE .EQ. 10 .OR. ITYPE .EQ. 11 .OR.
102	* ITYPE .EQ. 12 .OR. ITYPE .EQ. 16 ) THEN
103	SECPAR(1) = CURPAR(1)
104	ELSE
105	IF ( RD(2) .LT. 0.5 ) THEN
106	IADD = 1
107	ELSE
108	IADD = 0
109	ENDIF
110	IF ( ITYPE .EQ. 13 .OR. ITYPE .EQ. 14 ) THEN
111	SECPAR(1) = 13 + IADD
112	ELSEIF ( ITYPE .EQ. 8 .OR. ITYPE .EQ. 9 ) THEN
113	SECPAR(1) = 8 + IADD
114	ELSEIF ( ITYPE .EQ. 15 .OR. ITYPE .EQ. 25 ) THEN
115	SECPAR(1) = 15 + IADD * 10
116	ENDIF
117	ENDIF
118	SECPAR(2) = GFLAB
119	DO 1 J = 5,8
120	SECPAR(J) = CURPAR(J)
121	1 CONTINUE
122	CALL TSTACK
123
124	3 CONTINUE
125
126	C STATISTICS ON ELASTICITY
127	IN = 1.D0 + SECPAR(2) / GAMMA * 20.D0
128	IN = MIN( IN, 20 )
129	IF ( ITYPE .EQ. 13 .OR. ITYPE .EQ. 14 .OR.
130	* ITYPE .EQ. 15 .OR. ITYPE .EQ. 25 ) THEN
131	IELNU(IN) = IELNU(IN) + 1
132	ELSE
133	IELPI(IN) = IELPI(IN) + 1
134	ENDIF
135	RETURN
136
137	C - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
138	C RECOIL PARTICLE, NUCLEON ONLY
139	C FROM SIMPLE RECOIL SPECTRUM COMPUTED
140	100 CONTINUE
141	HELP = MIN( C(10), GAMMA*0.5D0 )
142	CALL RMMAR( RD,3,1 )
143	GRLAB = RD(1)*(HELP-1.D0)+ 1.D0
144	PT = PTRANS(DUMMY)
145	PLLAB2 = MAX( 1.D-6, PAMA(14)*2(GRLAB**2-1.D0) )
146	CTHETA = SQRT( PLLAB2 / (PT**2+PLLAB2) )
147	IF ( CTHETA .LT. C(27) ) RETURN
148	CALL ADDANG( COSTHE,PHI, CTHETA,RD(2)*PI2, SECPAR(3),SECPAR(4) )
149	IF ( SECPAR(3) .LT. C(29) ) RETURN
150	SECPAR(2)=GRLAB
151
152	C CHARGE ASSIGNEMENT
153	IF ( RD(3) .GE. 0.5 ) THEN
154	SECPAR(1) = 14.D0
155	ELSE
156	SECPAR(1) = 13.D0
157	ENDIF
158
159	DO 103 J = 5,8
160	SECPAR(J) = CURPAR(J)
161	103 CONTINUE
162	CALL TSTACK
163
164	RETURN
165	END

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