| 1 | SUBROUTINE UPHI(IENTRY,LVL)
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| 2 | C VERSION 4.00 -- 26 JAN 1986/1900
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| 3 | C******************************************************************
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| 4 | C UPHI STANDS FOR 'UNIFORM PHI DISTRIBUTION'.
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| 5 | C SET COORDINATES FOR NEW PARTICLE OR RESET DIRECTION COSINES OF
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| 6 | C OLD ONE. GENERATE RANDOM AZIMUTH SELECTION AND REPLACE THE
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| 7 | C DIRECTION COSINES WITH THEIR NEW VALUES.
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| 8 | C******************************************************************
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| 9 | *KEEP,EPCONT.
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| 10 | COMMON/EPCONT/ EDEP,RATIO,TSTEP,TUSTEP,USTEP,TVSTEP,VSTEP,IDISC,
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| 11 | * IROLD,IRNEW,RHOFAC, EOLD,ENEW,EKE,ELKE,BETA2,GLE,
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| 12 | * TSCAT,IAUSFL
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| 13 | DOUBLE PRECISION EDEP,RATIO
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| 14 | REAL TSTEP,TUSTEP,USTEP,TVSTEP,VSTEP,RHOFAC,EOLD,ENEW,
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| 15 | * EKE,ELKE,BETA2,GLE,TSCAT
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| 16 | INTEGER IDISC,IROLD,IRNEW,IAUSFL(29)
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| 17 | *KEEP,RANDPA.
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| 18 | COMMON /RANDPA/ FAC,U1,U2,RD,NSEQ,ISEED,KNOR
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| 19 | DOUBLE PRECISION FAC,U1,U2
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| 20 | REAL RD(3000)
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| 21 | INTEGER ISEED(103,10),NSEQ
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| 22 | LOGICAL KNOR
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| 23 | *KEEP,RUNPAR.
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| 24 | COMMON /RUNPAR/ FIXHEI,THICK0,HILOECM,HILOELB,
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| 25 | * STEPFC,NRRUN,NSHOW,PATAPE,MONIIN,
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| 26 | * MONIOU,MDEBUG,NUCNUC,
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| 27 | * CETAPE,
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| 28 | * SHOWNO,ISHW,NOPART,NRECS,NBLKS,MAXPRT,NDEBDL,
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| 29 | * N1STTR,MDBASE,
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| 30 | * DEBDEL,DEBUG,FDECAY,FEGS,FIRSTI,FIXINC,FIXTAR,
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| 31 | * FIX1I,FMUADD,FNKG,FPRINT,FDBASE
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| 32 | * ,GHEISH,GHESIG
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| 33 | COMMON /RUNPAC/ DSN,HOST,USER
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| 34 | DOUBLE PRECISION FIXHEI,THICK0,HILOECM,HILOELB
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| 35 | REAL STEPFC
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| 36 | INTEGER NRRUN,NSHOW,PATAPE,MONIIN,MONIOU,MDEBUG,NUCNUC,
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| 37 | * SHOWNO,ISHW,NOPART,NRECS,NBLKS,MAXPRT,NDEBDL,
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| 38 | * N1STTR,MDBASE
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| 39 | INTEGER CETAPE
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| 40 | CHARACTER*79 DSN
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| 41 | CHARACTER*20 HOST,USER
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| 42 |
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| 43 | LOGICAL DEBDEL,DEBUG,FDECAY,FEGS,FIRSTI,FIXINC,FIXTAR,
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| 44 | * FIX1I,FMUADD,FNKG,FPRINT,FDBASE
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| 45 | * ,GHEISH,GHESIG
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| 46 | *KEEP,STACKE.
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| 47 | COMMON/STACKE/ E,TIME,X,Y,Z,U,V,W,DNEAR,IQ,IGEN,IR,IOBS,LPCTE,NP
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| 48 | DOUBLE PRECISION E(60),TIME(60)
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| 49 | REAL X(60),Y(60),Z(60),U(60),V(60),W(60),DNEAR(60)
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| 50 | INTEGER IQ(60),IGEN(60),IR(60),IOBS(60),LPCTE(60),NP
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| 51 | *KEND.
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| 52 | COMMON/UPHIIN/SINC0,SINC1,SIN0(20002),SIN1(20002)
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| 53 | COMMON/UPHIOT/THETA,SINTHE,COSTHE,SINPHI, COSPHI,PI,TWOPI,PI5D2
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| 54 | SAVE A,B,C
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| 55 | IF((IENTRY.EQ.2))GO TO1070
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| 56 | IF((IENTRY.EQ.3))GO TO1080
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| 57 | 1090 LTHETA=SINC1*THETA+SINC0
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| 58 | SINTHE=SIN1(LTHETA)*THETA+SIN0(LTHETA)
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| 59 | CTHET=PI5D2-THETA
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| 60 | LCTHET=SINC1*CTHET+SINC0
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| 61 | COSTHE=SIN1(LCTHET)*CTHET+SIN0(LCTHET)
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| 62 | C USE THE FOLLOWING ENTRY IF SINTHE AND COSTHE ARE ALREADY KNOWN.
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| 63 | C SELECT PHI UNIFORMLY OVER THE INTERVAL (0,TWO PI). THEN USE
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| 64 | C PWLF OF SIN FUNCTION TO GET SIN(PHI) AND COS(PHI). THE COSINE
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| 65 | C IS GOTTEN BY COS(PHI)=SIN(9*PI/4 - PHI).
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| 66 | 1070 CALL RMMAR(RNNO38,1,2)
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| 67 | PHI=RNNO38*TWOPI
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| 68 | LPHI=SINC1*PHI+SINC0
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| 69 | SINPHI=SIN1(LPHI)*PHI+SIN0(LPHI)
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| 70 | CPHI=PI5D2-PHI
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| 71 | LCPHI=SINC1*CPHI+SINC0
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| 72 | COSPHI=SIN1(LCPHI)*CPHI+SIN0(LCPHI)
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| 73 | C USE THE FOLLOWING ENTRY FOR THE SECOND OF TWO PARTICLES WHEN WE
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| 74 | C KNOW TWO PARTICLES HAVE A RELATIONSHIP IN THEIR CORRECTIONS.
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| 75 | C NOTE: SINTHE AND COSTHE CAN BE CHANGED OUTSIDE THROUGH COMMON.
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| 76 | C LVL IS A PARAMETER TELLING WHICH PARTICLES TO WORK WITH.
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| 77 | C THETA (SINTHE AND COSTHE) ARE ALWAYS RELATIVE TO THE DIRECTION
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| 78 | C OF THE INCIDENT PARTICLE BEFORE ITS DIRECTION WAS ADJUSTED.
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| 79 | C THUS WHEN TWO PARTICLES NEED TO HAVE THEIR DIRECTIONS COMPUTED,
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| 80 | C THE ORIGINAL INCIDENT DIRECTION IS SAVED IN THE VARIABLE A,B,C
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| 81 | C SO THAT IT CAN BE USED ON BOTH CALLS.
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| 82 | C LVL=1 -- OLD PARTICLE, SAVE ITS DIRECTION AND ADJUST IT
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| 83 | C LVL=2 -- NEW PARTICLE. ADJUST DIRECTION USING SAVED A,B,C
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| 84 | C LVL=3 -- BREMSSTRAHLUNG GAMMA. SAVE ELECTRON DIRECTION (NEXT
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| 85 | C TO TOP OF STACK), AND THEN ADJUST GAMMA DIRECTION.
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| 86 | 1080 IF (LVL.EQ.2) GO TO1100
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| 87 | IF((LVL.EQ.3))GO TO1110
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| 88 | 1120 A=U(NP)
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| 89 | B=V(NP)
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| 90 | C=W(NP)
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| 91 | GO TO 1130
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| 92 | 1110 A=U(NP-1)
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| 93 | B=V(NP-1)
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| 94 | C=W(NP-1)
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| 95 | 1100 X(NP)=X(NP-1)
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| 96 | Y(NP)=Y(NP-1)
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| 97 | Z(NP)=Z(NP-1)
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| 98 | LPCTE(NP)=LPCTE(NP-1)
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| 99 | IR(NP)=IR(NP-1)
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| 100 | DNEAR(NP)=DNEAR(NP-1)
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| 101 | TIME(NP)=TIME(NP-1)
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| 102 | IGEN(NP)=IGEN(NP-1)
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| 103 | IOBS(NP)=IOBS(NP-1)
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| 104 | 1130 SINPS2=A*A+B*B
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| 105 | IF (SINPS2.LT.1.0E-10) THEN
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| 106 | U(NP)=SINTHE*COSPHI
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| 107 | V(NP)=SINTHE*SINPHI
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| 108 | W(NP)=C*COSTHE
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| 109 | ELSE
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| 110 | SINPSI=SQRT(SINPS2)
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| 111 | US=SINTHE*COSPHI
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| 112 | VS=SINTHE*SINPHI
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| 113 | SINDEL=B*(1./SINPSI)
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| 114 | COSDEL=A*(1./SINPSI)
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| 115 | U(NP)=C*COSDEL*US-SINDEL*VS+A*COSTHE
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| 116 | V(NP)=C*SINDEL*US+COSDEL*VS+B*COSTHE
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| 117 | W(NP)=-SINPSI*US+C*COSTHE
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| 118 | END IF
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| 119 | RADINV=1.5-0.5*(U(NP)**2+V(NP)**2+W(NP)**2)
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| 120 | U(NP)=U(NP)*RADINV
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| 121 | V(NP)=V(NP)*RADINV
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| 122 | W(NP)=W(NP)*RADINV
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| 123 | RETURN
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| 124 | END
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