3 C*********************************************************************
5 SUBROUTINE LUPREP_HIJING(IP)
7 C...Purpose: to rearrange partons along strings, to allow small systems
8 C...to collapse into one or two particles and to check flavours.
9 IMPLICIT DOUBLE PRECISION(D)
10 #include "lujets_hijing.inc"
11 #include "ludat1_hijing.inc"
12 #include "ludat2_hijing.inc"
13 #include "ludat3_hijing.inc"
14 DIMENSION DPS(5),DPC(5),UE(3)
16 C...Rearrange parton shower product listing along strings: begin loop.
20 IF(K(I,1).NE.3) GOTO 120
21 KC=LUCOMP_HIJING(K(I,2))
24 IF(KQ.EQ.0.OR.(MQGST.EQ.1.AND.KQ.EQ.2)) GOTO 120
26 C...Pick up loose string end.
28 IF(KQ*ISIGN(1,K(I,2)).LT.0) KCS=5
34 $ ,'(LUPREP_HIJING:) caught in infinite loop')
38 C...Copy undecayed parton.
40 IF(I1.GE.MSTU(4)-MSTU(32)-5) THEN
42 $ ,'(LUPREP_HIJING:) no more memory left in LUJETS_HIJING'
48 IF(NSTP.GE.2.AND.IABS(K(IA,2)).NE.21) K(I1,1)=1
57 IF(K(I1,1).EQ.1) GOTO 120
60 C...Go to next parton in colour space.
62 IF(MOD(K(IB,KCS)/MSTU(5)**2,2).EQ.0.AND.MOD(K(IB,KCS),MSTU(5)).
64 IA=MOD(K(IB,KCS),MSTU(5))
65 K(IB,KCS)=K(IB,KCS)+MSTU(5)**2
68 IF(K(IB,KCS).GE.2*MSTU(5)**2.OR.MOD(K(IB,KCS)/MSTU(5),MSTU(5)).
70 IA=MOD(K(IB,KCS)/MSTU(5),MSTU(5))
71 K(IB,KCS)=K(IB,KCS)+2*MSTU(5)**2
74 IF(IA.LE.0.OR.IA.GT.N) THEN
76 $ ,'(LUPREP_HIJING:) colour rearrangement failed')
79 IF(MOD(K(IA,4)/MSTU(5),MSTU(5)).EQ.IB.OR.MOD(K(IA,5)/MSTU(5),
81 IF(MREV.EQ.1) KCS=9-KCS
82 IF(MOD(K(IA,KCS)/MSTU(5),MSTU(5)).NE.IB) KCS=9-KCS
83 K(IA,KCS)=K(IA,KCS)+2*MSTU(5)**2
85 IF(MREV.EQ.0) KCS=9-KCS
86 IF(MOD(K(IA,KCS),MSTU(5)).NE.IB) KCS=9-KCS
87 K(IA,KCS)=K(IA,KCS)+MSTU(5)**2
95 C...Find lowest-mass colour singlet jet system, OK if above threshold.
96 IF(MSTJ(14).LE.0) GOTO 320
101 DO 190 I=MAX(1,IP),NS
102 IF(K(I,1).NE.1.AND.K(I,1).NE.2) THEN
103 ELSEIF(K(I,1).EQ.2.AND.IC.EQ.0) THEN
109 DPS(5)=ULMASS_HIJING(K(I,2))
110 ELSEIF(K(I,1).EQ.2) THEN
112 160 DPS(J)=DPS(J)+P(I,J)
113 ELSEIF(IC.NE.0.AND.KCHG(LUCOMP_HIJING(K(I,2)),2).NE.0) THEN
115 170 DPS(J)=DPS(J)+P(I,J)
117 DPS(5)=DPS(5)+ULMASS_HIJING(K(I,2))
118 PD=SQRT(MAX(0D0,DPS(4)**2-DPS(1)**2-DPS(2)**2-DPS(3)**2))-DPS(5)
131 IF(PDM.GE.PARJ(32)) GOTO 320
133 C...Fill small-mass system as cluster.
135 PECM=SQRT(MAX(0D0,DPC(4)**2-DPC(1)**2-DPC(2)**2-DPC(3)**2))
147 C...Form two particles from flavours of lowest-mass system, if feasible.
150 IF(MSTU(16).NE.2) THEN
161 IF(IABS(K(IC1,2)).NE.21) THEN
162 KC1=LUCOMP_HIJING(K(IC1,2))
163 KC2=LUCOMP_HIJING(K(IC2,2))
164 IF(KC1.EQ.0.OR.KC2.EQ.0) GOTO 320
165 KQ1=KCHG(KC1,2)*ISIGN(1,K(IC1,2))
166 KQ2=KCHG(KC2,2)*ISIGN(1,K(IC2,2))
167 IF(KQ1+KQ2.NE.0) GOTO 320
168 200 CALL LUKFDI_HIJING(K(IC1,2),0,KFLN,K(N+2,2))
169 CALL LUKFDI_HIJING(K(IC2,2),-KFLN,KFLDMP,K(N+3,2))
170 IF(K(N+2,2).EQ.0.OR.K(N+3,2).EQ.0) GOTO 200
172 IF(IABS(K(IC2,2)).NE.21) GOTO 320
173 210 CALL LUKFDI_HIJING(1+INT((2.+PARJ(2))*RLU_HIJING(0)),0,KFLN
175 CALL LUKFDI_HIJING(KFLN,0,KFLM,K(N+2,2))
176 CALL LUKFDI_HIJING(-KFLN,-KFLM,KFLDMP,K(N+3,2))
177 IF(K(N+2,2).EQ.0.OR.K(N+3,2).EQ.0) GOTO 210
179 P(N+2,5)=ULMASS_HIJING(K(N+2,2))
180 P(N+3,5)=ULMASS_HIJING(K(N+3,2))
181 IF(P(N+2,5)+P(N+3,5)+PARJ(64).GE.PECM.AND.NSIN.EQ.1) GOTO 320
182 IF(P(N+2,5)+P(N+3,5)+PARJ(64).GE.PECM) GOTO 260
184 C...Perform two-particle decay of jet system, if possible.
185 IF(PECM.GE.0.02*DPC(4)) THEN
186 PA=SQRT((PECM**2-(P(N+2,5)+P(N+3,5))**2)*(PECM**2-
187 & (P(N+2,5)-P(N+3,5))**2))/(2.*PECM)
188 UE(3)=2.*RLU_HIJING(0)-1.
189 PHI=PARU(2)*RLU_HIJING(0)
190 UE(1)=SQRT(1.-UE(3)**2)*COS(PHI)
191 UE(2)=SQRT(1.-UE(3)**2)*SIN(PHI)
194 220 P(N+3,J)=-PA*UE(J)
195 P(N+2,4)=SQRT(PA**2+P(N+2,5)**2)
196 P(N+3,4)=SQRT(PA**2+P(N+3,5)**2)
197 CALL LUDBRB_HIJING(N+2,N+3,0.,0.,DPC(1)/DPC(4),DPC(2)/DPC(4),
202 230 IF(K(I,1).EQ.1.OR.K(I,1).EQ.2) NP=NP+1
203 HA=P(IC1,4)*P(IC2,4)-P(IC1,1)*P(IC2,1)-P(IC1,2)*P(IC2,2)-
205 IF(NP.GE.3.OR.HA.LE.1.25*P(IC1,5)*P(IC2,5)) GOTO 260
206 HD1=0.5*(P(N+2,5)**2-P(IC1,5)**2)
207 HD2=0.5*(P(N+3,5)**2-P(IC2,5)**2)
208 HR=SQRT(MAX(0.,((HA-HD1-HD2)**2-(P(N+2,5)*P(N+3,5))**2)/
209 & (HA**2-(P(IC1,5)*P(IC2,5))**2)))-1.
210 HC=P(IC1,5)**2+2.*HA+P(IC2,5)**2
211 HK1=((P(IC2,5)**2+HA)*HR+HD1-HD2)/HC
212 HK2=((P(IC1,5)**2+HA)*HR+HD2-HD1)/HC
214 P(N+2,J)=(1.+HK1)*P(IC1,J)-HK2*P(IC2,J)
215 240 P(N+3,J)=(1.+HK2)*P(IC2,J)-HK1*P(IC1,J)
220 250 V(N+3,J)=V(IC2,J)
227 C...Else form one particle from the flavours available, if possible.
229 IF(IABS(K(IC1,2)).GT.100.AND.IABS(K(IC2,2)).GT.100) THEN
231 ELSEIF(IABS(K(IC1,2)).NE.21) THEN
232 CALL LUKFDI_HIJING(K(IC1,2),K(IC2,2),KFLDMP,K(N+2,2))
234 KFLN=1+INT((2.+PARJ(2))*RLU_HIJING(0))
235 CALL LUKFDI_HIJING(KFLN,-KFLN,KFLDMP,K(N+2,2))
237 IF(K(N+2,2).EQ.0) GOTO 260
238 P(N+2,5)=ULMASS_HIJING(K(N+2,2))
240 C...Find parton/particle which combines to largest extra mass.
246 IF(K(I,1).LE.0.OR.K(I,1).GT.10.OR.(I.GE.IC1.AND.I.LE.IC2.
247 &AND.K(I,1).GE.1.AND.K(I,1).LE.2)) GOTO 270
248 IF(MCOMB.EQ.1) KCI=LUCOMP_HIJING(K(I,2))
249 IF(MCOMB.EQ.1.AND.KCI.EQ.0) GOTO 270
250 IF(MCOMB.EQ.1.AND.KCHG(KCI,2).EQ.0.AND.I.LE.NS) GOTO 270
251 IF(MCOMB.EQ.2.AND.IABS(K(I,2)).GT.10.AND.IABS(K(I,2)).LE.100)
253 HCR=DPC(4)*P(I,4)-DPC(1)*P(I,1)-DPC(2)*P(I,2)-DPC(3)*P(I,3)
261 C...Shuffle energy and momentum to put new particle on mass shell.
265 C******************CHANGES BY HIJING************
267 IF(HA**2-(PECM*P(IR,5))**2.EQ.0.0.OR.HB+HD.EQ.0.0) GO TO 285
269 HK2=0.5*(HB*SQRT(((HB+HC)**2-4.*(HB+HD)*P(N+2,5)**2)/
270 &(HA**2-(PECM*P(IR,5))**2))-(HB+HC))/(HB+HD)
271 285 HK1=(0.5*(P(N+2,5)**2-PECM**2)+HD*HK2)/HB
273 P(N+2,J)=(1.+HK1)*DPC(J)-HK2*P(IR,J)
274 P(IR,J)=(1.+HK2)*P(IR,J)-HK1*DPC(J)
276 290 V(N+2,J)=V(IC1,J)
281 C...Mark collapsed system and store daughter pointers. Iterate.
283 IF((K(I,1).EQ.1.OR.K(I,1).EQ.2).AND.KCHG(LUCOMP_HIJING(K(I,2))
286 IF(MSTU(16).NE.2) THEN
295 IF(N.LT.MSTU(4)-MSTU(32)-5) GOTO 140
297 C...Check flavours and invariant masses in parton systems.
304 IF(K(I,1).LE.0.OR.K(I,1).GT.10) GOTO 360
305 KC=LUCOMP_HIJING(K(I,2))
307 KQ=KCHG(KC,2)*ISIGN(1,K(I,2))
314 DPS(5)=DPS(5)+ULMASS_HIJING(K(I,2))
317 340 DPS(J)=DPS(J)+P(I,J)
319 IF(NP.NE.1.AND.(KFN.EQ.1.OR.KFN.GE.3.OR.KQS.NE.0)) CALL
321 $ ,'(LUPREP_HIJING:) unphysical flavour combination')
322 IF(NP.NE.1.AND.DPS(4)**2-DPS(1)**2-DPS(2)**2-DPS(3)**2.LT.
323 & (0.9*PARJ(32)+DPS(5))**2) CALL LUERRM_HIJING(3,
324 & '(LUPREP_HIJING:) too small mass in jet system')