--- /dev/null
+*
+* $Id$
+*
+* $Log$
+* Revision 1.1.1.1 1995/10/24 10:21:35 cernlib
+* Geant
+*
+*
+#include "geant321/pilot.h"
+*CMZ : 3.21/02 29/03/94 15.41.23 by S.Giani
+*-- Author :
+ FUNCTION GVAVIV(RKAPPA,BETA2,RAN)
+C.
+C. ******************************************************************
+C. * *
+C. * *
+C. * GVAVIV *
+C. * ------ *
+C. * *
+C. * Initializes the parameters for a Vavilov distribution *
+C. * *
+C. * BETA2 is the particle velocity squared *
+C. * RKAPPA the usual straggling parameter *
+C. * *
+C. * This routine has been extracted from a proposed CERNLIB *
+C. * set of routines (VAVCOE,VAVFSM). *
+C. * The authors of these routines have submitted an article *
+C. * to NIM: *
+C. * *
+C. * Alberto Rotondi, Paolo Montagna *
+C. * Fast calculation of Vavilov distribution NIMB 1990 *
+C. * *
+C. * Author K.S.Koelbig ******** *
+C. * *
+C. * ==> Called by : GLANDO *
+C. * *
+C. ******************************************************************
+C.
+ DIMENSION AC(0:12),HC(0:8),H(9)
+
+ PARAMETER
+ 1(BKMNX1 = 0.02, BKMNY1 = 0.05, BKMNX2 = 0.12, BKMNY2 = 0.05,
+ 2 BKMNX3 = 0.22, BKMNY3 = 0.05, BKMXX1 = 0.1 , BKMXY1 = 1 ,
+ 3 BKMXX2 = 0.2 , BKMXY2 = 1 , BKMXX3 = 0.3 , BKMXY3 = 1 )
+ PARAMETER
+ 1(FBKX1 = 2/(BKMXX1-BKMNX1), FBKX2 = 2/(BKMXX2-BKMNX2),
+ 2 FBKX3 = 2/(BKMXX3-BKMNX3), FBKY1 = 2/(BKMXY1-BKMNY1),
+ 3 FBKY2 = 2/(BKMXY2-BKMNY2), FBKY3 = 2/(BKMXY3-BKMNY3))
+
+ DIMENSION EDGEC(2:7),FNINV(5),DRK(5),DSIGM(5),ALFA(2:5)
+ DIMENSION U1(13),U2(13),U3(13),U4(12),U5(13),U6(13),U7( 8),U8(13)
+ DIMENSION V1(12),V2(12),V3(13),V4(12),V5(13),V6(13),V7(11),V8(11)
+ DIMENSION W1(13),W2(11),W3(13),W4(13),W5(13),W6(13), W8( 8)
+
+ DATA FNINV /1, 0.5, 0.33333333, 0.25, 0.2/
+
+ DATA (EDGEC(J),J=2,7)
+ 1/ 0.16666667E+0, 0.41666667E-1, 0.83333333E-2,
+ 2 0.13888889E-1, 0.69444444E-2, 0.77160493E-3/
+
+ DATA (U1(K),K=1,13)
+ 1/ 0.25850868E+0, 0.32477982E-1, -0.59020496E-2,
+ 2 0. , 0.24880692E-1, 0.47404356E-2,
+ 3 -0.74445130E-3, 0.73225731E-2, 0. ,
+ 4 0.11668284E-2, 0. , -0.15727318E-2,-0.11210142E-2/
+
+ DATA (U2(K),K=1,13)
+ 1/ 0.43142611E+0, 0.40797543E-1, -0.91490215E-2,
+ 2 0. , 0.42127077E-1, 0.73167928E-2,
+ 3 -0.14026047E-2, 0.16195241E-1, 0.24714789E-2,
+ 4 0.20751278E-2, 0. , -0.25141668E-2,-0.14064022E-2/
+
+ DATA (U3(K),K=1,13)
+ 1/ 0.25225955E+0, 0.64820468E-1, -0.23615759E-1,
+ 2 0. , 0.23834176E-1, 0.21624675E-2,
+ 3 -0.26865597E-2, -0.54891384E-2, 0.39800522E-2,
+ 4 0.48447456E-2, -0.89439554E-2, -0.62756944E-2,-0.24655436E-2/
+
+ DATA (U4(K),K=1,12)
+ 1/ 0.12593231E+1, -0.20374501E+0, 0.95055662E-1,
+ 2 -0.20771531E-1, -0.46865180E-1, -0.77222986E-2,
+ 3 0.32241039E-2, 0.89882920E-2, -0.67167236E-2,
+ 4 -0.13049241E-1, 0.18786468E-1, 0.14484097E-1/
+
+ DATA (U5(K),K=1,13)
+ 1/-0.24864376E-1, -0.10368495E-2, 0.14330117E-2,
+ 2 0.20052730E-3, 0.18751903E-2, 0.12668869E-2,
+ 3 0.48736023E-3, 0.34850854E-2, 0. ,
+ 4 -0.36597173E-3, 0.19372124E-2, 0.70761825E-3, 0.46898375E-3/
+
+ DATA (U6(K),K=1,13)
+ 1/ 0.35855696E-1, -0.27542114E-1, 0.12631023E-1,
+ 2 -0.30188807E-2, -0.84479939E-3, 0. ,
+ 3 0.45675843E-3, -0.69836141E-2, 0.39876546E-2,
+ 4 -0.36055679E-2, 0. , 0.15298434E-2, 0.19247256E-2/
+
+ DATA (U7(K),K=1,8)
+ 1/ 0.10234691E+2, -0.35619655E+1, 0.69387764E+0,
+ 2 -0.14047599E+0, -0.19952390E+1, -0.45679694E+0,
+ 3 0. , 0.50505298E+0/
+
+ DATA (U8(K),K=1,13)
+ 1/ 0.21487518E+2, -0.11825253E+2, 0.43133087E+1,
+ 2 -0.14500543E+1, -0.34343169E+1, -0.11063164E+1,
+ 3 -0.21000819E+0, 0.17891643E+1, -0.89601916E+0,
+ 4 0.39120793E+0, 0.73410606E+0, 0. ,-0.32454506E+0/
+
+ DATA (V1(K),K=1,12)
+ 1/ 0.27827257E+0, -0.14227603E-2, 0.24848327E-2,
+ 2 0. , 0.45091424E-1, 0.80559636E-2,
+ 3 -0.38974523E-2, 0. , -0.30634124E-2,
+ 4 0.75633702E-3, 0.54730726E-2, 0.19792507E-2/
+
+ DATA (V2(K),K=1,12)
+ 1/ 0.41421789E+0, -0.30061649E-1, 0.52249697E-2,
+ 2 0. , 0.12693873E+0, 0.22999801E-1,
+ 3 -0.86792801E-2, 0.31875584E-1, -0.61757928E-2,
+ 4 0. , 0.19716857E-1, 0.32596742E-2/
+
+ DATA (V3(K),K=1,13)
+ 1/ 0.20191056E+0, -0.46831422E-1, 0.96777473E-2,
+ 2 -0.17995317E-2, 0.53921588E-1, 0.35068740E-2,
+ 3 -0.12621494E-1, -0.54996531E-2, -0.90029985E-2,
+ 4 0.34958743E-2, 0.18513506E-1, 0.68332334E-2,-0.12940502E-2/
+
+ DATA (V4(K),K=1,12)
+ 1/ 0.13206081E+1, 0.10036618E+0, -0.22015201E-1,
+ 2 0.61667091E-2, -0.14986093E+0, -0.12720568E-1,
+ 3 0.24972042E-1, -0.97751962E-2, 0.26087455E-1,
+ 4 -0.11399062E-1, -0.48282515E-1, -0.98552378E-2/
+
+ DATA (V5(K),K=1,13)
+ 1/ 0.16435243E-1, 0.36051400E-1, 0.23036520E-2,
+ 2 -0.61666343E-3, -0.10775802E-1, 0.51476061E-2,
+ 3 0.56856517E-2, -0.13438433E-1, 0. ,
+ 4 0. , -0.25421507E-2, 0.20169108E-2,-0.15144931E-2/
+
+ DATA (V6(K),K=1,13)
+ 1/ 0.33432405E-1, 0.60583916E-2, -0.23381379E-2,
+ 2 0.83846081E-3, -0.13346861E-1, -0.17402116E-2,
+ 3 0.21052496E-2, 0.15528195E-2, 0.21900670E-2,
+ 4 -0.13202847E-2, -0.45124157E-2, -0.15629454E-2, 0.22499176E-3/
+
+ DATA (V7(K),K=1,11)
+ 1/ 0.54529572E+1, -0.90906096E+0, 0.86122438E-1,
+ 2 0. , -0.12218009E+1, -0.32324120E+0,
+ 3 -0.27373591E-1, 0.12173464E+0, 0. ,
+ 4 0. , 0.40917471E-1/
+
+ DATA (V8(K),K=1,11)
+ 1/ 0.93841352E+1, -0.16276904E+1, 0.16571423E+0,
+ 2 0. , -0.18160479E+1, -0.50919193E+0,
+ 3 -0.51384654E-1, 0.21413992E+0, 0. ,
+ 4 0. , 0.66596366E-1/
+
+ DATA (W1(K),K=1,13)
+ 1/ 0.29712951E+0, 0.97572934E-2, 0. ,
+ 2 -0.15291686E-2, 0.35707399E-1, 0.96221631E-2,
+ 3 -0.18402821E-2, -0.49821585E-2, 0.18831112E-2,
+ 4 0.43541673E-2, 0.20301312E-2, -0.18723311E-2,-0.73403108E-3/
+
+ DATA (W2(K),K=1,11)
+ 1/ 0.40882635E+0, 0.14474912E-1, 0.25023704E-2,
+ 2 -0.37707379E-2, 0.18719727E+0, 0.56954987E-1,
+ 3 0. , 0.23020158E-1, 0.50574313E-2,
+ 4 0.94550140E-2, 0.19300232E-1/
+
+ DATA (W3(K),K=1,13)
+ 1/ 0.16861629E+0, 0. , 0.36317285E-2,
+ 2 -0.43657818E-2, 0.30144338E-1, 0.13891826E-1,
+ 3 -0.58030495E-2, -0.38717547E-2, 0.85359607E-2,
+ 4 0.14507659E-1, 0.82387775E-2, -0.10116105E-1,-0.55135670E-2/
+
+ DATA (W4(K),K=1,13)
+ 1/ 0.13493891E+1, -0.26863185E-2, -0.35216040E-2,
+ 2 0.24434909E-1, -0.83447911E-1, -0.48061360E-1,
+ 3 0.76473951E-2, 0.24494430E-1, -0.16209200E-1,
+ 4 -0.37768479E-1, -0.47890063E-1, 0.17778596E-1, 0.13179324E-1/
+
+ DATA (W5(K),K=1,13)
+ 1/ 0.10264945E+0, 0.32738857E-1, 0. ,
+ 2 0.43608779E-2, -0.43097757E-1, -0.22647176E-2,
+ 3 0.94531290E-2, -0.12442571E-1, -0.32283517E-2,
+ 4 -0.75640352E-2, -0.88293329E-2, 0.52537299E-2, 0.13340546E-2/
+
+ DATA (W6(K),K=1,13)
+ 1/ 0.29568177E-1, -0.16300060E-2, -0.21119745E-3,
+ 2 0.23599053E-2, -0.48515387E-2, -0.40797531E-2,
+ 3 0.40403265E-3, 0.18200105E-2, -0.14346306E-2,
+ 4 -0.39165276E-2, -0.37432073E-2, 0.19950380E-2, 0.12222675E-2/
+
+ DATA (W8(K),K=1,8)
+ 1/ 0.66184645E+1, -0.73866379E+0, 0.44693973E-1,
+ 2 0. , -0.14540925E+1, -0.39529833E+0,
+ 3 -0.44293243E-1, 0.88741049E-1/
+
+ GVAVIV=0
+ IF(RKAPPA .LT. 0.01 .OR. RKAPPA .GT. 12) RETURN
+ IF(RKAPPA .GE. 0.29) THEN
+ ITYPE=1
+ NPT=100
+ WK=1/SQRT(RKAPPA)
+ AC(0)=(-0.032227*BETA2-0.074275)*RKAPPA+
+ 1 (0.24533*BETA2+0.070152)*WK+(-0.55610*BETA2-3.1579)
+ AC(8)=(-0.013483*BETA2-0.048801)*RKAPPA+
+ 1 (-1.6921*BETA2+8.3656)*WK+(-0.73275*BETA2-3.5226)
+ DRK(1)=WK**2
+ DSIGM(1)=SQRT(RKAPPA/(1-0.5*BETA2))
+ DO 1 J = 1,4
+ DRK(J+1)=DRK(1)*DRK(J)
+ DSIGM(J+1)=DSIGM(1)*DSIGM(J)
+ 1 ALFA(J+1)=(FNINV(J)-BETA2*FNINV(J+1))*DRK(J)
+
+ HC(0)=LOG(RKAPPA)+BETA2+0.42278434
+ HC(1)=DSIGM(1)
+ HC(2)=ALFA(3)*DSIGM(3)
+ HC(3)=(3*ALFA(2)**2+ALFA(4))*DSIGM(4)-3
+ HC(4)=(10*ALFA(2)*ALFA(3)+ALFA(5))*DSIGM(5)-10*HC(2)
+ HC(5)=HC(2)**2
+ HC(6)=HC(2)*HC(3)
+ HC(7)=HC(2)*HC(5)
+ DO 2 J = 2,7
+ 2 HC(J)=EDGEC(J)*HC(J)
+ HC(8)=0.39894228*HC(1)
+ ELSEIF(RKAPPA .GE. 0.22) THEN
+ ITYPE=2
+ NPT=150
+ X=1+(RKAPPA-BKMXX3)*FBKX3
+ Y=1+(SQRT(BETA2)-BKMXY3)*FBKY3
+ XX=2*X
+ YY=2*Y
+ X2=XX*X-1
+ X3=XX*X2-X
+ Y2=YY*Y-1
+ Y3=YY*Y2-Y
+ XY=X*Y
+ P2=X2*Y
+ P3=X3*Y
+ Q2=Y2*X
+ Q3=Y3*X
+ PQ=X2*Y2
+ AC(1)=W1(1)+W1(2)*X+W1(4)*X3+W1(5)*Y+W1(6)*Y2+W1(7)*Y3+
+ 1 W1(8)*XY+W1(9)*P2+W1(10)*P3+W1(11)*Q2+W1(12)*Q3+W1(13)*PQ
+ AC(2)=W2(1)+W2(2)*X+W2(3)*X2+W2(4)*X3+W2(5)*Y+W2(6)*Y2+
+ 1 W2(8)*XY+W2(9)*P2+W2(10)*P3+W2(11)*Q2
+ AC(3)=W3(1)+W3(3)*X2+W3(4)*X3+W3(5)*Y+W3(6)*Y2+W3(7)*Y3+
+ 1 W3(8)*XY+W3(9)*P2+W3(10)*P3+W3(11)*Q2+W3(12)*Q3+W3(13)*PQ
+ AC(4)=W4(1)+W4(2)*X+W4(3)*X2+W4(4)*X3+W4(5)*Y+W4(6)*Y2+W4(7)*Y3+
+ 1 W4(8)*XY+W4(9)*P2+W4(10)*P3+W4(11)*Q2+W4(12)*Q3+W4(13)*PQ
+ AC(5)=W5(1)+W5(2)*X+W5(4)*X3+W5(5)*Y+W5(6)*Y2+W5(7)*Y3+
+ 1 W5(8)*XY+W5(9)*P2+W5(10)*P3+W5(11)*Q2+W5(12)*Q3+W5(13)*PQ
+ AC(6)=W6(1)+W6(2)*X+W6(3)*X2+W6(4)*X3+W6(5)*Y+W6(6)*Y2+W6(7)*Y3+
+ 1 W6(8)*XY+W6(9)*P2+W6(10)*P3+W6(11)*Q2+W6(12)*Q3+W6(13)*PQ
+ AC(8)=W8(1)+W8(2)*X+W8(3)*X2+W8(5)*Y+W8(6)*Y2+W8(7)*Y3+W8(8)*XY
+ AC(0)=-3.05
+ ELSEIF(RKAPPA .GE. 0.12) THEN
+ ITYPE=3
+ NPT=200
+ X=1+(RKAPPA-BKMXX2)*FBKX2
+ Y=1+(SQRT(BETA2)-BKMXY2)*FBKY2
+ XX=2*X
+ YY=2*Y
+ X2=XX*X-1
+ X3=XX*X2-X
+ Y2=YY*Y-1
+ Y3=YY*Y2-Y
+ XY=X*Y
+ P2=X2*Y
+ P3=X3*Y
+ Q2=Y2*X
+ Q3=Y3*X
+ PQ=X2*Y2
+ AC(1)=V1(1)+V1(2)*X+V1(3)*X2+V1(5)*Y+V1(6)*Y2+V1(7)*Y3+
+ 1 V1(9)*P2+V1(10)*P3+V1(11)*Q2+V1(12)*Q3
+ AC(2)=V2(1)+V2(2)*X+V2(3)*X2+V2(5)*Y+V2(6)*Y2+V2(7)*Y3+
+ 1 V2(8)*XY+V2(9)*P2+V2(11)*Q2+V2(12)*Q3
+ AC(3)=V3(1)+V3(2)*X+V3(3)*X2+V3(4)*X3+V3(5)*Y+V3(6)*Y2+V3(7)*Y3+
+ 1 V3(8)*XY+V3(9)*P2+V3(10)*P3+V3(11)*Q2+V3(12)*Q3+V3(13)*PQ
+ AC(4)=V4(1)+V4(2)*X+V4(3)*X2+V4(4)*X3+V4(5)*Y+V4(6)*Y2+V4(7)*Y3+
+ 1 V4(8)*XY+V4(9)*P2+V4(10)*P3+V4(11)*Q2+V4(12)*Q3
+ AC(5)=V5(1)+V5(2)*X+V5(3)*X2+V5(4)*X3+V5(5)*Y+V5(6)*Y2+V5(7)*Y3+
+ 1 V5(8)*XY+V5(11)*Q2+V5(12)*Q3+V5(13)*PQ
+ AC(6)=V6(1)+V6(2)*X+V6(3)*X2+V6(4)*X3+V6(5)*Y+V6(6)*Y2+V6(7)*Y3+
+ 1 V6(8)*XY+V6(9)*P2+V6(10)*P3+V6(11)*Q2+V6(12)*Q3+V6(13)*PQ
+ AC(7)=V7(1)+V7(2)*X+V7(3)*X2+V7(5)*Y+V7(6)*Y2+V7(7)*Y3+
+ 1 V7(8)*XY+V7(11)*Q2
+ AC(8)=V8(1)+V8(2)*X+V8(3)*X2+V8(5)*Y+V8(6)*Y2+V8(7)*Y3+
+ 1 V8(8)*XY+V8(11)*Q2
+ AC(0)=-3.04
+ ELSE
+ ITYPE=4
+ IF(RKAPPA .GE. 0.02) ITYPE=3
+ NPT=200
+ X=1+(RKAPPA-BKMXX1)*FBKX1
+ Y=1+(SQRT(BETA2)-BKMXY1)*FBKY1
+ XX=2*X
+ YY=2*Y
+ X2=XX*X-1
+ X3=XX*X2-X
+ Y2=YY*Y-1
+ Y3=YY*Y2-Y
+ XY=X*Y
+ P2=X2*Y
+ P3=X3*Y
+ Q2=Y2*X
+ Q3=Y3*X
+ PQ=X2*Y2
+ IF(ITYPE .EQ. 4) GO TO 4
+ AC(1)=U1(1)+U1(2)*X+U1(3)*X2+U1(5)*Y+U1(6)*Y2+U1(7)*Y3+
+ 1 U1(8)*XY+U1(10)*P3+U1(12)*Q3+U1(13)*PQ
+ AC(2)=U2(1)+U2(2)*X+U2(3)*X2+U2(5)*Y+U2(6)*Y2+U2(7)*Y3+
+ 1 U2(8)*XY+U2(9)*P2+U2(10)*P3+U2(12)*Q3+U2(13)*PQ
+ AC(3)=U3(1)+U3(2)*X+U3(3)*X2+U3(5)*Y+U3(6)*Y2+U3(7)*Y3+
+ 1 U3(8)*XY+U3(9)*P2+U3(10)*P3+U3(11)*Q2+U3(12)*Q3+U3(13)*PQ
+ AC(4)=U4(1)+U4(2)*X+U4(3)*X2+U4(4)*X3+U4(5)*Y+U4(6)*Y2+U4(7)*Y3+
+ 1 U4(8)*XY+U4(9)*P2+U4(10)*P3+U4(11)*Q2+U4(12)*Q3
+ AC(5)=U5(1)+U5(2)*X+U5(3)*X2+U5(4)*X3+U5(5)*Y+U5(6)*Y2+U5(7)*Y3+
+ 1 U5(8)*XY+U5(10)*P3+U5(11)*Q2+U5(12)*Q3+U5(13)*PQ
+ AC(6)=U6(1)+U6(2)*X+U6(3)*X2+U6(4)*X3+U6(5)*Y+U6(7)*Y3+
+ 1 U6(8)*XY+U6(9)*P2+U6(10)*P3+U6(12)*Q3+U6(13)*PQ
+ 4 AC(7)=U7(1)+U7(2)*X+U7(3)*X2+U7(4)*X3+U7(5)*Y+U7(6)*Y2+U7(8)*XY
+ AC(8)=U8(1)+U8(2)*X+U8(3)*X2+U8(4)*X3+U8(5)*Y+U8(6)*Y2+U8(7)*Y3+
+ 1 U8(8)*XY+U8(9)*P2+U8(10)*P3+U8(11)*Q2+U8(13)*PQ
+ AC(0)=-3.03
+ ENDIF
+ AC(9)=(AC(8)-AC(0))/NPT
+ IF(ITYPE .EQ. 3) THEN
+ X=(AC(7)-AC(8))/(AC(7)*AC(8))
+ Y=1/LOG(AC(8)/AC(7))
+ P2=AC(7)**2
+ AC(11)=P2*(AC(1)*EXP(-AC(2)*(AC(7)+AC(5)*P2)-
+ 1 AC(3)*EXP(-AC(4)*(AC(7)+AC(6)*P2)))-0.045*Y/AC(7))/
+ 2 (1+X*Y*AC(7))
+ AC(12)=(0.045+X*AC(11))*Y
+ ENDIF
+ IF(ITYPE .EQ. 4) AC(10)=0.995/GLANDS(AC(8))
+
+ T=2*RAN/AC(9)
+ RLAM=AC(0)
+ FL=0
+ S=0
+ DO 21 N = 1,NPT
+ RLAM=RLAM+AC(9)
+ IF(ITYPE .EQ. 1) THEN
+ FN=1
+ X=(RLAM+HC(0))*HC(1)
+ H(1)=X
+ H(2)=X**2-1
+ DO 31 K = 2,8
+ FN=FN+1
+ 31 H(K+1)=X*H(K)-FN*H(K-1)
+ Y=1+HC(7)*H(9)
+ DO 32 K = 2,6
+ 32 Y=Y+HC(K)*H(K+1)
+ FU=HC(8)*EXP(-0.5*X**2)*MAX(Y,0.)
+ ELSEIF(ITYPE .EQ. 2) THEN
+ X=RLAM**2
+ FU=AC(1)*EXP(-AC(2)*(RLAM+AC(5)*X)-
+ 1 AC(3)*EXP(-AC(4)*(RLAM+AC(6)*X)))
+ ELSEIF(ITYPE .EQ. 3) THEN
+ IF(RLAM .LT. AC(7)) THEN
+ X=RLAM**2
+ FU=AC(1)*EXP(-AC(2)*(RLAM+AC(5)*X)-
+ 1 AC(3)*EXP(-AC(4)*(RLAM+AC(6)*X)))
+ ELSE
+ X=1/RLAM
+ FU=(AC(11)*X+AC(12))*X
+ ENDIF
+ ELSE
+ FU=AC(10)*GLANDE(RLAM)
+ ENDIF
+ S=S+FL+FU
+ IF(S .GT. T) GO TO 22
+ 21 FL=FU
+
+ 22 S0=S-FL-FU
+ GVAVIV=RLAM-AC(9)
+ IF(S .GT. S0) GVAVIV=GVAVIV+AC(9)*(T-S0)/(S-S0)
+ RETURN
+ END
git://git.uio.no / u / mrichter / AliRoot.git / blobdiff