source: trunk/MagicSoft/Simulation/Corsika/Mmcs/pigen2.f@ 734

Last change on this file since 734 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: 9.2 KB
Line 
1 SUBROUTINE PIGEN2
2C
3C*********************************************************************
4C DESIGN : D. HECK IK3 FZK KARLSRUHE
5C DATE : JUL 31, 1989
6C*********************************************************************
7C THIS SUBROUTINE DESCRIBES THE PHOTONUCLEAR REACTION
8C GAMMA + NUCLEON -----> PION + PION + NUCLEON
9C*********************************************************************
10 DOUBLE PRECISION BETA,DUMMY,ECM,ENUCL,GAMMA,PEIG,PTRANS
11*KEEP,ELABCT.
12 COMMON /ELABCT/ ELCUT
13 DOUBLE PRECISION ELCUT(4)
14*KEEP,PAM.
15 COMMON /PAM/ PAMA,SIGNUM
16 DOUBLE PRECISION PAMA(6000),SIGNUM(6000)
17*KEEP,PARPAR.
18 COMMON /PARPAR/ CURPAR,SECPAR,PRMPAR,OUTPAR,C,
19 * E00,E00PN,PTOT0,PTOT0N,THICKH,ITYPE,LEVL
20 DOUBLE PRECISION CURPAR(14),SECPAR(14),PRMPAR(14),OUTPAR(14),
21 * C(50),E00,E00PN,PTOT0,PTOT0N,THICKH
22 INTEGER ITYPE,LEVL
23*KEND.
24 DOUBLE PRECISION PI0MSQ
25 COMMON/PION/PI0MSQ,PITHR,PICMAS,PI0MAS,AMASK0,AMASKC,AMASPR,AMASNT
26 *
27*KEEP,RANDPA.
28 COMMON /RANDPA/ FAC,U1,U2,RD,NSEQ,ISEED,KNOR
29 DOUBLE PRECISION FAC,U1,U2
30 REAL RD(3000)
31 INTEGER ISEED(103,10),NSEQ
32 LOGICAL KNOR
33*KEEP,RUNPAR.
34 COMMON /RUNPAR/ FIXHEI,THICK0,HILOECM,HILOELB,
35 * STEPFC,NRRUN,NSHOW,PATAPE,MONIIN,
36 * MONIOU,MDEBUG,NUCNUC,
37 * CETAPE,
38 * SHOWNO,ISHW,NOPART,NRECS,NBLKS,MAXPRT,NDEBDL,
39 * N1STTR,MDBASE,
40 * DEBDEL,DEBUG,FDECAY,FEGS,FIRSTI,FIXINC,FIXTAR,
41 * FIX1I,FMUADD,FNKG,FPRINT,FDBASE
42 * ,GHEISH,GHESIG
43 COMMON /RUNPAC/ DSN,HOST,USER
44 DOUBLE PRECISION FIXHEI,THICK0,HILOECM,HILOELB
45 REAL STEPFC
46 INTEGER NRRUN,NSHOW,PATAPE,MONIIN,MONIOU,MDEBUG,NUCNUC,
47 * SHOWNO,ISHW,NOPART,NRECS,NBLKS,MAXPRT,NDEBDL,
48 * N1STTR,MDBASE
49 INTEGER CETAPE
50 CHARACTER*79 DSN
51 CHARACTER*20 HOST,USER
52
53 LOGICAL DEBDEL,DEBUG,FDECAY,FEGS,FIRSTI,FIXINC,FIXTAR,
54 * FIX1I,FMUADD,FNKG,FPRINT,FDBASE
55 * ,GHEISH,GHESIG
56*KEEP,STACKE.
57 COMMON/STACKE/ E,TIME,X,Y,Z,U,V,W,DNEAR,IQ,IGEN,IR,IOBS,LPCTE,NP
58 DOUBLE PRECISION E(60),TIME(60)
59 REAL X(60),Y(60),Z(60),U(60),V(60),W(60),DNEAR(60)
60 INTEGER IQ(60),IGEN(60),IR(60),IOBS(60),LPCTE(60),NP
61*KEND.
62 COMMON/UPHIIN/SINC0,SINC1,SIN0(20002),SIN1(20002)
63 COMMON/UPHIOT/THETA,SINTHE,COSTHE,SINPHI, COSPHI,PI,TWOPI,PI5D2
64 COMMON/ACLOCK/NCLOCK,JCLOCK
65C_____IF (NCLOCK.GT.JCLOCK) THEN
66C______WRITE(MDEBUG,* )' PIGEN2:NP=',NP,' IR=',IR(NP),' IOBS=',IOBS(NP)
67C______CALL AUSGB2
68C_____END IF
69 IF(DEBUG)WRITE(MDEBUG,*)'PIGEN2: E=',E(NP)
70 PEIG=E(NP)
71C*** NUMBERS AT THE VARIABLES MEAN :
72C*** 1 INCOMING GAMMA RAY
73C*** 2 HIT NUCLEON
74C*** 3 FIRST PRODUCED PION
75C*** 4 SECOND PRODUCED PION
76C*** 5 RECOILING NUCLEON
77 CALL RMMAR(RD,2,2)
78 RNNO81=RD(1)
79 RNNO82=RD(2)
80C*** LOOK WHICH TYPE OF REACTION
81C*** 0.49923 IS THE FRACTION OF PROTONS IN AIR
82 IF (RNNO81.LE.0.49923) THEN
83C *** HIT NUCLEON IS PROTON
84 AMASS2=AMASPR
85C *** BRANCHING FOR COLLISION WITH PROTON
86 IF (RNNO82.LE.0.3) THEN
87C *** PI(0) + PI(0) + PROTON
88 IQ(NP)= 7
89 IQ(NP+1)= 7
90 IQ(NP+2)= 14
91 ELSE IF(RNNO82.LE.0.6) THEN
92C *** PI(+) + PI(-) + PROTON
93 IQ(NP)= 8
94 IQ(NP+1)= 9
95 IQ(NP+2)= 14
96 ELSE
97C *** PI(+) + PI(0) + NEUTRON
98 IQ(NP)= 8
99 IQ(NP+1)= 7
100 IQ(NP+2)= 13
101 END IF
102 ELSE
103C *** HIT NUCLEON IS NEUTRON
104C *** BRANCHING FOR COLLISION WITH NEUTRON
105 AMASS2=AMASNT
106 IF (RNNO82.LE.0.3) THEN
107C *** PI(0) + PI(0) + NEUTRON
108 IQ(NP)= 7
109 IQ(NP+1)= 7
110 IQ(NP+2)= 13
111 ELSE IF(RNNO82.LE.0.6) THEN
112C *** PI(+) + PI(-) + NEUTRON
113 IQ(NP)= 8
114 IQ(NP+1)= 9
115 IQ(NP+2)= 13
116 ELSE
117C *** PI(-) + PI(0) + PROTON
118 IQ(NP)= 9
119 IQ(NP+1)= 7
120 IQ(NP+2)= 14
121 END IF
122 END IF
123C*** CALCULATE AUXILIARY PARAMETERS
124 ECM=SQRT(AMASS2*(AMASS2+2.D0*PEIG))
125C*** NOTE: THE ENERGIES IN EGS ARE IN MEV, IN CORSIKA IN GEV
126 AMASS3=PAMA(IQ(NP))*1.D3
127 AMASS4=PAMA(IQ(NP+1))*1.D3
128 AMASS5=PAMA(IQ(NP+2))*1.D3
129 AUX1=(AMASS3+AMASS4)**2
130 AUX2A=(ECM - AMASS5)**2
131 AUX2=AUX2A-AUX1
132 AUX3=(AMASS3+AMASS5)**2
133 AUX4A=(ECM - AMASS4)**2
134 AUX4=AUX4A-AUX3
135 AUX5=AMASS3**2-AMASS4**2
136 AUX6=ECM**2-AMASS5**2
137 AUX7=0.5/ECM
138 AUX8=(ECM - AMASS3)**2
139 BETA=PEIG/(AMASS2+PEIG)
140 GAMMA=2.*(PEIG+AMASS2)*AUX7
141230 CONTINUE
142 CALL RMMAR(RD,2,2)
143 RNNO84=RD(1)
144 RNNO85=RD(2)
145C*** ARE INVARIANT MASS SQUARES INSIDE BOUNDARY OF DALITZ PLOT?
146 AM34SQ=AUX2*RNNO84+AUX1
147 AM35SQ=AUX4*RNNO85+AUX3
148 AM34I=0.5/SQRT(AM34SQ)
149 E3STAR=(AUX5+AM34SQ)*AM34I
150 E5STAR=(AUX6-AM34SQ)*AM34I
151 ROOT1=SQRT(E3STAR**2-AMASS3**2)
152 ROOT2=SQRT(E5STAR**2-AMASS5**2)
153C*** REJECT RANDOM NUMBERS, IF NOT INSIDE KINEMATIC BOUNDARY
154 DISCR=AM35SQ-(E3STAR+E5STAR)**2
155 IF((DISCR.GT.-(ROOT1-ROOT2)**2))GOTO 230
156 IF((DISCR.LT.-(ROOT1+ROOT2)**2))GOTO 230
157C*** E3CM,E4CM,E5CM ARE ENERGIES IN C.M. SYSTEM
158 E4CM=(ECM**2+AMASS4**2-AM35SQ)*AUX7
159 E5CM=(ECM**2+AMASS5**2-AM34SQ)*AUX7
160C*** NOW TAKE PION WITH HIGHEST ENERGY AS PARTICLE 3
161 E3CM=ECM-E4CM-E5CM
162 IF (E4CM.GT.E3CM) THEN
163C *** INTERCHANGE PARTICLE 3 AND 4
164 HELP=E3CM
165 E3CM=E4CM
166 E4CM=HELP
167 HELP=AMASS3
168 AMASS3=AMASS4
169 AMASS4=HELP
170 IHELP=IQ(NP)
171 IQ(NP)=IQ(NP+1)
172 IQ(NP+1)=IHELP
173 END IF
174C*** P3CM,P4CM,P5CM ARE MOMENTA IN C.M. SYSTEM
175C*** P3SQ,P4SQ,P5SQ ARE SQUARED MOMENTA IN C.M. SYSTEM
176 P3SQ=E3CM**2-AMASS3**2
177 P3CM=SQRT(MAX(0.,P3SQ))
178 P4SQ=E4CM**2-AMASS4**2
179 P4CM=SQRT(MAX(0.,P4SQ))
180 P5SQ=E5CM**2-AMASS5**2
181 P5CM=SQRT(MAX(0.,P5SQ))
182 COSA=(P5SQ-P3SQ-P4SQ)/(2.*P3CM*P4CM)
183 SINA=-SQRT(MAX(0.,1.-COSA**2))
184 COSB=(P4SQ-P3SQ-P5SQ)/(2.*P3CM*P5CM)
185 SINB= SQRT(MAX(0.,1.-COSB**2))
186C*** NOW SELECT THE THREE INDEPENDENT ANGLES IN C.M. SYSTEM
187 PT3=1.D3*PTRANS(DUMMY)
188 SIN3CM=MIN(1.,PT3/P3CM)
189 COS3CM=SQRT(1.-SIN3CM**2)
190 CALL RMMAR(RNNO86,1,2)
191 PSI=TWOPI*RNNO86
192 LPSI=SINC1*PSI+SINC0
193 SINPSI=SIN1(LPSI)*PSI+SIN0(LPSI)
194 CPSI=PI5D2-PSI
195 LCPSI=SINC1*CPSI+SINC0
196 COSPSI=SIN1(LCPSI)*CPSI+SIN0(LCPSI)
197C*** THIRD INDEPENDENT ANGLE PHI IS CHOOSEN LATER IN SUBROUTINE UPHI
198C*** NOW MAKE LORENTZ-TRANSFORMATION FOR PARTICLE 3 (PION)
199 E(NP)=GAMMA*(E3CM+BETA*P3CM*COS3CM)
200C*** COSTHE AND SINTHE ARE ANGLES IN LAB SYSTEM FOR PARTICLE 3 (PION)
201 COSTHE= MIN((BETA*E3CM+P3CM*COS3CM)*GAMMA/ SQRT(MAX(0.D0,E(NP)**2
202 *-AMASS3**2)),1.D0)
203 SINTHE=SQRT(MAX(0.0,1.-COSTHE**2))
204C*** SINPHI AND COSPHI ARE NOW SET IN SUBROUTINE UPHI
205 CALL UPHI(2,1)
206 SINFI3=SINPHI
207 COSFI3=COSPHI
208C*** NOW MAKE LORENTZ-TRANSFORMATION FOR PARTICLE 4 = PION
209 COS4CM=COS3CM*COSA-SIN3CM*COSPSI*SINA
210 NP=NP+1
211 E(NP)=GAMMA*(E4CM+BETA*P4CM*COS4CM)
212 SINT4=SQRT(MAX(0.,1.-COS4CM**2))
213 IF (SINT4.NE.0.) THEN
214 SINT4I =1./SINT4
215 AUXA=COS3CM*COSPSI*SINA+SIN3CM*COSA
216C *** COSPHI AND SINPHI ARE IN LAB SYSTEM FOR PARTICLE 4 (PION)
217 COSPHI=(COSFI3*AUXA-SINFI3*SINPSI*SINA)*SINT4I
218 SINPHI=(SINFI3*AUXA+COSFI3*SINPSI*SINA)*SINT4I
219 ELSE
220 COSPHI=0.
221 SINPHI=1.
222 END IF
223C*** COSTHE AND SINTHE ARE IN LAB SYSTEM FOR PARTICLE 4 (PION)
224 COSTHE= MIN((BETA*E4CM+P4CM*COS4CM)*GAMMA/ SQRT(MAX(0.D0,E(NP)**2
225 *-AMASS4**2)),1.D0)
226 SINTHE=SQRT(MAX(0.0,1.-COSTHE**2))
227 CALL UPHI(3,2)
228C*** NOW MAKE LORENTZ-TRANSFORMATION FOR PARTICLE 5 = RECOIL NUCLEON
229 COS5CM=COS3CM*COSB-SIN3CM*COSPSI*SINB
230 ENUCL=GAMMA*(E5CM+BETA*P5CM*COS5CM)
231 IF ((ENUCL-AMASS5).GT.ELCUT(1)*1000.D0) THEN
232C *** RECOIL NUCLEON IS ABOVE THRESHOLD AND MUST BE TREATED
233 NP=NP+1
234 E(NP)=ENUCL
235 SINT5=SQRT(MAX(0.,1.-COS5CM**2))
236 IF (SINT5.NE.0.) THEN
237 SINT5I =1./SINT5
238 AUXB=COS3CM*COSPSI*SINB+SIN3CM*COSB
239C *** COSPHI AND SINPHI ARE IN LAB SYSTEM FOR PART. 5 (NUCLEON)
240 COSPHI=(COSFI3*AUXB-SINFI3*SINPSI*SINB)*SINT5I
241 SINPHI=(SINFI3*AUXB+COSFI3*SINPSI*SINB)*SINT5I
242 ELSE
243 COSPHI=0.
244 SINPHI=1.
245 END IF
246C *** COSTHE AND SINTHE ARE IN LAB SYSTEM FOR PARTICLE 5 (NUCLEON)
247 COSTHE=MIN((BETA*E5CM+P5CM*COS5CM)*GAMMA/SQRT(ENUCL**2-AMASS5**2)
248 * , 1.D0)
249 SINTHE=SQRT(MAX(0.0,1.-COSTHE**2))
250 CALL UPHI(3,2)
251 IF (W(NP).GT.C(29)) THEN
252C *** ANGLE WITH RESPECT TO X AXIS
253 IF (U(NP)**2+V(NP)**2.GT.3.E-38) THEN
254 ANGLEX = -ATAN2(V(NP),U(NP))
255 ELSE
256 ANGLEX = 0.
257 END IF
258C *** ADD NUCLEON TO CORSIKA STACK
259 SECPAR(1)=IQ(NP)
260 SECPAR(2)=E(NP)/AMASS5
261 SECPAR(3)=W(NP)
262 SECPAR(4)=ANGLEX
263 SECPAR(5)=-Z(NP)
264 SECPAR(6)=TIME(NP)
265 SECPAR(7)=X(NP)
266 SECPAR(8)=-Y(NP)
267 SECPAR(11)=1.D0
268 SECPAR(12)=0.D0
269 CALL TSTOUT
270 END IF
271C *** ELIMINATE NUCLEON FROM EGS-STACK
272 NP=NP-1
273 END IF
274C*** END OF RECOIL NUCLEON TREATEMENT CASE
275 RETURN
276 END
Note: See TracBrowser for help on using the repository browser.