* * $Id$ * * $Log$ * Revision 1.1.1.2 1996/10/30 08:28:36 cernlib * Version 7.04 * * Revision 1.1.1.1 1996/04/12 15:29:22 plothow * Version 7.01 * * #include "pdf/pilot.h" * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * G R V - P R O T O N - P A R A M E T R I Z A T I O N S * * * * 1994 UPDATE * * * * FOR A DETAILED EXPLANATION SEE * * M. GLUECK, E.REYA, A.VOGT : * * DO-TH 94/24 = DESY 94-206 * * (TO APPEAR IN Z. PHYS. C) * * * * THE PARAMETRIZATIONS ARE FITTED TO THE EVOLVED PARTONS FOR * * Q**2 / GEV**2 BETWEEN 0.4 AND 1.E6 * * X BETWEEN 1.E-5 AND 1. * * LARGE-X REGIONS, WHERE THE DISTRIBUTION UNDER CONSIDERATION * * IS NEGLIGIBLY SMALL, WERE EXCLUDED FROM THE FIT. * * * * HEAVY QUARK THRESHOLDS Q(H) = M(H) IN THE BETA FUNCTION : * * M(C) = 1.5, M(B) = 4.5 * * CORRESPONDING LAMBDA(F) VALUES IN GEV FOR Q**2 > M(H)**2 : * * LO : LAMBDA(3) = 0.232, LAMBDA(4) = 0.200, * * LAMBDA(5) = 0.153, * * NLO : LAMBDA(3) = 0.248, LAMBDA(4) = 0.200, * * LAMBDA(5) = 0.131. * * THE NUMBER OF ACTIVE QUARK FLAVOURS IS NF = 3 EVERYWHERE * * EXCEPT IN THE BETA FUNCTION, I.E. THE HEAVY QUARKS C,B,... * * ARE NOT PRESENT AS PARTONS IN THE Q2-EVOLUTION. * * IF NEEDED, HEAVY QUARK DENSITIES CAN BE TAKEN FROM THE 1991 * * GRV PARAMETRIZATION. * * * * NLO DISTRIBUTIONS ARE GIVEN IN MS-BAR FACTORIZATION SCHEME * * (SUBROUTINE GRV94HO) AS WELL AS IN THE DIS SCHEME (GRV94DI), * * THE LEADING ORDER PARAMETRIZATION IS PROVIDED BY "GRV94LO". * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *...INPUT PARAMETERS : * * X = MOMENTUM FRACTION * Q2 = SCALE Q**2 IN GEV**2 * *...OUTPUT (ALWAYS X TIMES THE DISTRIBUTION) : * * UV = U(VAL) = U - U(BAR) * DV = D(VAL) = D - D(BAR) * DEL = D(BAR) - U(BAR) * UDB = U(BAR) + D(BAR) * SB = S = S(BAR) * GL = GLUON * *...LO PARAMETRIZATION : * SUBROUTINE GRV94LO (ZX,ZQ,ZUV,ZDV,ZUB,ZDB,ZSB,ZCB,ZBB,ZTB,ZGL) IMPLICIT REAL (A - Y) C+SEQ, IMPDP. #include "pdf/expdp.inc" + ZX,ZQ,ZUV,ZDV,ZDEL,ZUDB,ZUB,ZDB,ZSB,ZCB,ZBB,ZTB,ZGL REAL X, Q X = ZX Q = ZQ MU2 = 0.23 LAM2 = 0.2322 * 0.2322 Q2 = Q*Q ARG1 = MAX(MU2,Q2)/LAM2 ARG2 = MU2/LAM2 S = LOG ( LOG( ARG1 ) / LOG( ARG2 )) DS = SQRT (S) S2 = S * S S3 = S2 * S *...UV : NU = 2.284 + 0.802 * S + 0.055 * S2 AKU = 0.590 - 0.024 * S BKU = 0.131 + 0.063 * S AU = -0.449 - 0.138 * S - 0.076 * S2 BU = 0.213 + 2.669 * S - 0.728 * S2 CU = 8.854 - 9.135 * S + 1.979 * S2 DU = 2.997 + 0.753 * S - 0.076 * S2 UV = GR94FV (X, NU, AKU, BKU, AU, BU, CU, DU) ZUV = UV *...DV : ND = 0.371 + 0.083 * S + 0.039 * S2 AKD = 0.376 BKD = 0.486 + 0.062 * S AD = -0.509 + 3.310 * S - 1.248 * S2 BD = 12.41 - 10.52 * S + 2.267 * S2 CD = 6.373 - 6.208 * S + 1.418 * S2 DD = 3.691 + 0.799 * S - 0.071 * S2 DV = GR94FV (X, ND, AKD, BKD, AD, BD, CD, DD) ZDV = DV *...DEL : NE = 0.082 + 0.014 * S + 0.008 * S2 AKE = 0.409 - 0.005 * S BKE = 0.799 + 0.071 * S AE = -38.07 + 36.13 * S - 0.656 * S2 BE = 90.31 - 74.15 * S + 7.645 * S2 CE = 0.0 DE = 7.486 + 1.217 * S - 0.159 * S2 DEL = GR94FV (X, NE, AKE, BKE, AE, BE, CE, DE) ZDEL= DEL *...UDB : ALX = 1.451 BEX = 0.271 AKX = 0.410 - 0.232 * S BKX = 0.534 - 0.457 * S AGX = 0.890 - 0.140 * S BGX = -0.981 CX = 0.320 + 0.683 * S DX = 4.752 + 1.164 * S + 0.286 * S2 EX = 4.119 + 1.713 * S ESX = 0.682 + 2.978 * S UDB = GR94FW(X, S, ALX, BEX, AKX, BKX, AGX, BGX, CX, DX, EX, ESX) ZUDB= UDB *...UB ZUB = (ZUDB - ZDEL)/2.D0 *...DB ZDB = (ZUDB + ZDEL)/2.D0 *...SB : ALS = 0.914 BES = 0.577 AKS = 1.798 - 0.596 * S AS = -5.548 + 3.669 * DS - 0.616 * S BS = 18.92 - 16.73 * DS + 5.168 * S DST = 6.379 - 0.350 * S + 0.142 * S2 EST = 3.981 + 1.638 * S ESS = 6.402 SB = GR94FWS (X, S, ALS, BES, AKS, AS, BS, DST, EST, ESS) ZSB = SB *...GL : ALG = 0.524 BEG = 1.088 AKG = 1.742 - 0.930 * S BKG = - 0.399 * S2 AG = 7.486 - 2.185 * S BG = 16.69 - 22.74 * S + 5.779 * S2 CG = -25.59 + 29.71 * S - 7.296 * S2 DG = 2.792 + 2.215 * S + 0.422 * S2 - 0.104 * S3 EG = 0.807 + 2.005 * S ESG = 3.841 + 0.316 * S GL = GR94FW (X, S, ALG, BEG, AKG, BKG, AG, BG, CG, DG, EG, ESG) ZGL = GL *... ZCB = 0.D0 ZBB = 0.D0 ZTB = 0.D0 *... RETURN END