| e74335a4 |
1 | * $Id$ |
| 2 | |
| 3 | C********************************************************************* |
| 4 | |
| 5 | SUBROUTINE PYTHIA_HIJING |
| 6 | |
| 7 | C...Administers the generation of a high-pt event via calls to a number |
| 8 | C...of subroutines; also computes cross-sections. |
| 9 | #include "lujets_hijing.inc" |
| 10 | #include "ludat1_hijing.inc" |
| 11 | #include "ludat2_hijing.inc" |
| 12 | #include "pysubs_hijing.inc" |
| 13 | #include "pypars_hijing.inc" |
| 14 | #include "pyint1_hijing.inc" |
| 15 | #include "pyint2_hijing.inc" |
| 16 | #include "pyint5_hijing.inc" |
| 17 | |
| 18 | C...Loop over desired number of overlayed events (normally 1). |
| 19 | MINT(7)=0 |
| 20 | MINT(8)=0 |
| 21 | NOVL=1 |
| 22 | IF(MSTP(131).NE.0) CALL PYOVLY_HIJING(2) |
| 23 | IF(MSTP(131).NE.0) NOVL=MINT(81) |
| 24 | MINT(83)=0 |
| 25 | MINT(84)=MSTP(126) |
| 26 | MSTU(70)=0 |
| 27 | DO 190 IOVL=1,NOVL |
| 28 | IF(MINT(84)+100.GE.MSTU(4)) THEN |
| 29 | CALL LUERRM_HIJING(11, |
| 30 | & '(PYTHIA_HIJING:) no more space in LUJETS_HIJING '/ |
| 31 | $ /'for overlayed events') |
| 32 | IF(MSTU(21).GE.1) GOTO 200 |
| 33 | ENDIF |
| 34 | MINT(82)=IOVL |
| 35 | |
| 36 | C...Generate variables of hard scattering. |
| 37 | 100 CONTINUE |
| 38 | IF(IOVL.EQ.1) NGEN(0,2)=NGEN(0,2)+1 |
| 39 | MINT(31)=0 |
| 40 | MINT(51)=0 |
| 41 | CALL PYRAND_HIJING |
| 42 | ISUB=MINT(1) |
| 43 | IF(IOVL.EQ.1) THEN |
| 44 | NGEN(ISUB,2)=NGEN(ISUB,2)+1 |
| 45 | |
| 46 | C...Store information on hard interaction. |
| 47 | DO 110 J=1,200 |
| 48 | MSTI(J)=0 |
| 49 | 110 PARI(J)=0. |
| 50 | MSTI(1)=MINT(1) |
| 51 | MSTI(2)=MINT(2) |
| 52 | MSTI(11)=MINT(11) |
| 53 | MSTI(12)=MINT(12) |
| 54 | MSTI(15)=MINT(15) |
| 55 | MSTI(16)=MINT(16) |
| 56 | MSTI(17)=MINT(17) |
| 57 | MSTI(18)=MINT(18) |
| 58 | PARI(11)=VINT(1) |
| 59 | PARI(12)=VINT(2) |
| 60 | IF(ISUB.NE.95) THEN |
| 61 | DO 120 J=13,22 |
| 62 | 120 PARI(J)=VINT(30+J) |
| 63 | PARI(33)=VINT(41) |
| 64 | PARI(34)=VINT(42) |
| 65 | PARI(35)=PARI(33)-PARI(34) |
| 66 | PARI(36)=VINT(21) |
| 67 | PARI(37)=VINT(22) |
| 68 | PARI(38)=VINT(26) |
| 69 | PARI(41)=VINT(23) |
| 70 | ENDIF |
| 71 | ENDIF |
| 72 | |
| 73 | IF(MSTP(111).EQ.-1) GOTO 160 |
| 74 | IF(ISUB.LE.90.OR.ISUB.GE.95) THEN |
| 75 | C...Hard scattering (including low-pT): |
| 76 | C...reconstruct kinematics and colour flow of hard scattering. |
| 77 | CALL PYSCAT_HIJING |
| 78 | IF(MINT(51).EQ.1) GOTO 100 |
| 79 | |
| 80 | C...Showering of initial state partons (optional). |
| 81 | IPU1=MINT(84)+1 |
| 82 | IPU2=MINT(84)+2 |
| 83 | IF(MSTP(61).GE.1.AND.MINT(43).NE.1.AND.ISUB.NE.95) |
| 84 | & CALL PYSSPA_HIJING(IPU1,IPU2) |
| 85 | NSAV1=N |
| 86 | |
| 87 | C...Multiple interactions. |
| 88 | IF(MSTP(81).GE.1.AND.MINT(43).EQ.4.AND.ISUB.NE.95) |
| 89 | & CALL PYMULT_HIJING(6) |
| 90 | MINT(1)=ISUB |
| 91 | NSAV2=N |
| 92 | |
| 93 | C...Hadron remnants and primordial kT. |
| 94 | CALL PYREMN_HIJING(IPU1,IPU2) |
| 95 | IF(MINT(51).EQ.1) GOTO 100 |
| 96 | NSAV3=N |
| 97 | |
| 98 | C...Showering of final state partons (optional). |
| 99 | IPU3=MINT(84)+3 |
| 100 | IPU4=MINT(84)+4 |
| 101 | IF(MSTP(71).GE.1.AND.ISUB.NE.95.AND.K(IPU3,1).GT.0.AND. |
| 102 | & K(IPU3,1).LE.10.AND.K(IPU4,1).GT.0.AND.K(IPU4,1).LE.10) THEN |
| 103 | QMAX=SQRT(PARP(71)*VINT(52)) |
| 104 | IF(ISUB.EQ.5) QMAX=SQRT(PMAS(23,1)**2) |
| 105 | IF(ISUB.EQ.8) QMAX=SQRT(PMAS(24,1)**2) |
| 106 | CALL LUSHOW_HIJING(IPU3,IPU4,QMAX) |
| 107 | ENDIF |
| 108 | |
| 109 | C...Sum up transverse and longitudinal momenta. |
| 110 | IF(IOVL.EQ.1) THEN |
| 111 | PARI(65)=2.*PARI(17) |
| 112 | DO 130 I=MSTP(126)+1,N |
| 113 | IF(K(I,1).LE.0.OR.K(I,1).GT.10) GOTO 130 |
| 114 | PT=SQRT(P(I,1)**2+P(I,2)**2) |
| 115 | PARI(69)=PARI(69)+PT |
| 116 | IF(I.LE.NSAV1.OR.I.GT.NSAV3) PARI(66)=PARI(66)+PT |
| 117 | IF(I.GT.NSAV1.AND.I.LE.NSAV2) PARI(68)=PARI(68)+PT |
| 118 | 130 CONTINUE |
| 119 | PARI(67)=PARI(68) |
| 120 | PARI(71)=VINT(151) |
| 121 | PARI(72)=VINT(152) |
| 122 | PARI(73)=VINT(151) |
| 123 | PARI(74)=VINT(152) |
| 124 | ENDIF |
| 125 | |
| 126 | C...Decay of final state resonances. |
| 127 | IF(MSTP(41).GE.1.AND.ISUB.NE.95) CALL PYRESD_HIJING |
| 128 | |
| 129 | ELSE |
| 130 | C...Diffractive and elastic scattering. |
| 131 | CALL PYDIFF_HIJING |
| 132 | IF(IOVL.EQ.1) THEN |
| 133 | PARI(65)=2.*PARI(17) |
| 134 | PARI(66)=PARI(65) |
| 135 | PARI(69)=PARI(65) |
| 136 | ENDIF |
| 137 | ENDIF |
| 138 | |
| 139 | C...Recalculate energies from momenta and masses (if desired). |
| 140 | IF(MSTP(113).GE.1) THEN |
| 141 | DO 140 I=MINT(83)+1,N |
| 142 | 140 IF(K(I,1).GT.0.AND.K(I,1).LE.10) P(I,4)=SQRT(P(I,1)**2+ |
| 143 | & P(I,2)**2+P(I,3)**2+P(I,5)**2) |
| 144 | ENDIF |
| 145 | |
| 146 | C...Rearrange partons along strings, check invariant mass cuts. |
| 147 | MSTU(28)=0 |
| 148 | CALL LUPREP_HIJING(MINT(84)+1) |
| 149 | IF(MSTP(112).EQ.1.AND.MSTU(28).EQ.3) GOTO 100 |
| 150 | IF(MSTP(125).EQ.0.OR.MSTP(125).EQ.1) THEN |
| 151 | DO 150 I=MINT(84)+1,N |
| 152 | IF(K(I,2).NE.94) GOTO 150 |
| 153 | K(I+1,3)=MOD(K(I+1,4)/MSTU(5),MSTU(5)) |
| 154 | K(I+2,3)=MOD(K(I+2,4)/MSTU(5),MSTU(5)) |
| 155 | 150 CONTINUE |
| 156 | CALL LUEDIT_HIJING(12) |
| 157 | CALL LUEDIT_HIJING(14) |
| 158 | IF(MSTP(125).EQ.0) CALL LUEDIT_HIJING(15) |
| 159 | IF(MSTP(125).EQ.0) MINT(4)=0 |
| 160 | ENDIF |
| 161 | |
| 162 | C...Introduce separators between sections in LULIST_HIJING event listing. |
| 163 | IF(IOVL.EQ.1.AND.MSTP(125).LE.0) THEN |
| 164 | MSTU(70)=1 |
| 165 | MSTU(71)=N |
| 166 | ELSEIF(IOVL.EQ.1) THEN |
| 167 | MSTU(70)=3 |
| 168 | MSTU(71)=2 |
| 169 | MSTU(72)=MINT(4) |
| 170 | MSTU(73)=N |
| 171 | ENDIF |
| 172 | |
| 173 | C...Perform hadronization (if desired). |
| 174 | IF(MSTP(111).GE.1) CALL LUEXEC_HIJING |
| 175 | IF(MSTP(125).EQ.0.OR.MSTP(125).EQ.1) CALL LUEDIT_HIJING(14) |
| 176 | |
| 177 | C...Calculate Monte Carlo estimates of cross-sections. |
| 178 | 160 IF(IOVL.EQ.1) THEN |
| 179 | IF(MSTP(111).NE.-1) NGEN(ISUB,3)=NGEN(ISUB,3)+1 |
| 180 | NGEN(0,3)=NGEN(0,3)+1 |
| 181 | XSEC(0,3)=0. |
| 182 | DO 170 I=1,200 |
| 183 | IF(I.EQ.96) THEN |
| 184 | XSEC(I,3)=0. |
| 185 | ELSEIF(MSUB(95).EQ.1.AND.(I.EQ.11.OR.I.EQ.12.OR.I.EQ.13.OR. |
| 186 | & I.EQ.28.OR.I.EQ.53.OR.I.EQ.68)) THEN |
| 187 | XSEC(I,3)=XSEC(96,2)*NGEN(I,3)/MAX(1.,FLOAT(NGEN(96,1))* |
| 188 | & FLOAT(NGEN(96,2))) |
| 189 | ELSEIF(NGEN(I,1).EQ.0) THEN |
| 190 | XSEC(I,3)=0. |
| 191 | ELSEIF(NGEN(I,2).EQ.0) THEN |
| 192 | XSEC(I,3)=XSEC(I,2)*NGEN(0,3)/(FLOAT(NGEN(I,1))* |
| 193 | & FLOAT(NGEN(0,2))) |
| 194 | ELSE |
| 195 | XSEC(I,3)=XSEC(I,2)*NGEN(I,3)/(FLOAT(NGEN(I,1))* |
| 196 | & FLOAT(NGEN(I,2))) |
| 197 | ENDIF |
| 198 | 170 XSEC(0,3)=XSEC(0,3)+XSEC(I,3) |
| 199 | IF(MSUB(95).EQ.1) THEN |
| 200 | NGENS=NGEN(91,3)+NGEN(92,3)+NGEN(93,3)+NGEN(94,3)+NGEN(95,3) |
| 201 | XSECS=XSEC(91,3)+XSEC(92,3)+XSEC(93,3)+XSEC(94,3)+XSEC(95,3) |
| 202 | XMAXS=XSEC(95,1) |
| 203 | IF(MSUB(91).EQ.1) XMAXS=XMAXS+XSEC(91,1) |
| 204 | IF(MSUB(92).EQ.1) XMAXS=XMAXS+XSEC(92,1) |
| 205 | IF(MSUB(93).EQ.1) XMAXS=XMAXS+XSEC(93,1) |
| 206 | IF(MSUB(94).EQ.1) XMAXS=XMAXS+XSEC(94,1) |
| 207 | FAC=1. |
| 208 | IF(NGENS.LT.NGEN(0,3)) FAC=(XMAXS-XSECS)/(XSEC(0,3)-XSECS) |
| 209 | XSEC(11,3)=FAC*XSEC(11,3) |
| 210 | XSEC(12,3)=FAC*XSEC(12,3) |
| 211 | XSEC(13,3)=FAC*XSEC(13,3) |
| 212 | XSEC(28,3)=FAC*XSEC(28,3) |
| 213 | XSEC(53,3)=FAC*XSEC(53,3) |
| 214 | XSEC(68,3)=FAC*XSEC(68,3) |
| 215 | XSEC(0,3)=XSEC(91,3)+XSEC(92,3)+XSEC(93,3)+XSEC(94,3)+ |
| 216 | & XSEC(95,1) |
| 217 | ENDIF |
| 218 | |
| 219 | C...Store final information. |
| 220 | MINT(5)=MINT(5)+1 |
| 221 | MSTI(3)=MINT(3) |
| 222 | MSTI(4)=MINT(4) |
| 223 | MSTI(5)=MINT(5) |
| 224 | MSTI(6)=MINT(6) |
| 225 | MSTI(7)=MINT(7) |
| 226 | MSTI(8)=MINT(8) |
| 227 | MSTI(13)=MINT(13) |
| 228 | MSTI(14)=MINT(14) |
| 229 | MSTI(21)=MINT(21) |
| 230 | MSTI(22)=MINT(22) |
| 231 | MSTI(23)=MINT(23) |
| 232 | MSTI(24)=MINT(24) |
| 233 | MSTI(25)=MINT(25) |
| 234 | MSTI(26)=MINT(26) |
| 235 | MSTI(31)=MINT(31) |
| 236 | PARI(1)=XSEC(0,3) |
| 237 | PARI(2)=XSEC(0,3)/MINT(5) |
| 238 | PARI(31)=VINT(141) |
| 239 | PARI(32)=VINT(142) |
| 240 | IF(ISUB.NE.95.AND.MINT(7)*MINT(8).NE.0) THEN |
| 241 | PARI(42)=2.*VINT(47)/VINT(1) |
| 242 | DO 180 IS=7,8 |
| 243 | PARI(36+IS)=P(MINT(IS),3)/VINT(1) |
| 244 | PARI(38+IS)=P(MINT(IS),4)/VINT(1) |
| 245 | I=MINT(IS) |
| 246 | PR=MAX(1E-20,P(I,5)**2+P(I,1)**2+P(I,2)**2) |
| 247 | PARI(40+IS)=SIGN(LOG(MIN((SQRT(PR+P(I,3)**2)+ABS(P(I,3)))/ |
| 248 | & SQRT(PR),1E20)),P(I,3)) |
| 249 | PR=MAX(1E-20,P(I,1)**2+P(I,2)**2) |
| 250 | PARI(42+IS)=SIGN(LOG(MIN((SQRT(PR+P(I,3)**2)+ABS(P(I,3)))/ |
| 251 | & SQRT(PR),1E20)),P(I,3)) |
| 252 | PARI(44+IS)=P(I,3)/SQRT(P(I,1)**2+P(I,2)**2+P(I,3)**2) |
| 253 | PARI(46+IS)=ULANGL_HIJING(P(I,3),SQRT(P(I,1)**2+P(I,2)**2)) |
| 254 | PARI(48+IS)=ULANGL_HIJING(P(I,1),P(I,2)) |
| 255 | 180 CONTINUE |
| 256 | ENDIF |
| 257 | PARI(61)=VINT(148) |
| 258 | IF(ISET(ISUB).EQ.1.OR.ISET(ISUB).EQ.3) THEN |
| 259 | MSTU(161)=MINT(21) |
| 260 | MSTU(162)=0 |
| 261 | ELSE |
| 262 | MSTU(161)=MINT(21) |
| 263 | MSTU(162)=MINT(22) |
| 264 | ENDIF |
| 265 | ENDIF |
| 266 | |
| 267 | C...Prepare to go to next overlayed event. |
| 268 | MSTI(41)=IOVL |
| 269 | IF(IOVL.GE.2.AND.IOVL.LE.10) MSTI(40+IOVL)=ISUB |
| 270 | IF(MSTU(70).LT.10) THEN |
| 271 | MSTU(70)=MSTU(70)+1 |
| 272 | MSTU(70+MSTU(70))=N |
| 273 | ENDIF |
| 274 | MINT(83)=N |
| 275 | MINT(84)=N+MSTP(126) |
| 276 | 190 CONTINUE |
| 277 | |
| 278 | C...Information on overlayed events. |
| 279 | IF(MSTP(131).EQ.1.AND.MSTP(133).GE.1) THEN |
| 280 | PARI(91)=VINT(132) |
| 281 | PARI(92)=VINT(133) |
| 282 | PARI(93)=VINT(134) |
| 283 | IF(MSTP(133).EQ.2) PARI(93)=PARI(93)*XSEC(0,3)/VINT(131) |
| 284 | ENDIF |
| 285 | |
| 286 | C...Transform to the desired coordinate frame. |
| 287 | 200 CALL PYFRAM_HIJING(MSTP(124)) |
| 288 | |
| 289 | RETURN |
| 290 | END |
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