* $Id$ C********************************************************************* SUBROUTINE LUFOWO_HIJING(H10,H20,H30,H40) C...Purpose: to calculate the first few Fox-Wolfram moments. #include "lujets_hijing.inc" #include "ludat1_hijing.inc" #include "ludat2_hijing.inc" C...Copy momenta for particles and calculate H0. NP=0 H0=0. HD=0. DO 110 I=1,N IF(K(I,1).LE.0.OR.K(I,1).GT.10) GOTO 110 IF(MSTU(41).GE.2) THEN KC=LUCOMP_HIJING(K(I,2)) IF(KC.EQ.0.OR.KC.EQ.12.OR.KC.EQ.14.OR.KC.EQ.16.OR. & KC.EQ.18) GOTO 110 IF(MSTU(41).GE.3.AND.KCHG(KC,2).EQ.0.AND.LUCHGE_HIJING(K(I,2)) $ .EQ.0)GOTO 110 ENDIF IF(N+NP.GE.MSTU(4)-MSTU(32)-5) THEN CALL LUERRM_HIJING(11 $ ,'(LUFOWO_HIJING:) no more memory left in LUJETS_HIJING') H10=-1. H20=-1. H30=-1. H40=-1. RETURN ENDIF NP=NP+1 DO 100 J=1,3 100 P(N+NP,J)=P(I,J) P(N+NP,4)=SQRT(P(I,1)**2+P(I,2)**2+P(I,3)**2) H0=H0+P(N+NP,4) HD=HD+P(N+NP,4)**2 110 CONTINUE H0=H0**2 C...Very low multiplicities (0 or 1) not considered. IF(NP.LE.1) THEN CALL LUERRM_HIJING(8 $ ,'(LUFOWO_HIJING:) too few particles for analysis') H10=-1. H20=-1. H30=-1. H40=-1. RETURN ENDIF C...Calculate H1 - H4. H10=0. H20=0. H30=0. H40=0. DO 120 I1=N+1,N+NP DO 120 I2=I1+1,N+NP CTHE=(P(I1,1)*P(I2,1)+P(I1,2)*P(I2,2)+P(I1,3)*P(I2,3))/ &(P(I1,4)*P(I2,4)) H10=H10+P(I1,4)*P(I2,4)*CTHE H20=H20+P(I1,4)*P(I2,4)*(1.5*CTHE**2-0.5) H30=H30+P(I1,4)*P(I2,4)*(2.5*CTHE**3-1.5*CTHE) H40=H40+P(I1,4)*P(I2,4)*(4.375*CTHE**4-3.75*CTHE**2+0.375) 120 CONTINUE C...Calculate H1/H0 - H4/H0. Output. MSTU(61)=N+1 MSTU(62)=NP H10=(HD+2.*H10)/H0 H20=(HD+2.*H20)/H0 H30=(HD+2.*H30)/H0 H40=(HD+2.*H40)/H0 RETURN END