/* 2005-04-19 N.OTUKA MMT-EMT-LAB replaced by MOM-EMT-LAB */ /* 2006-02-23 N.OTUKA \\DATA.28[33; -> \\DATA,28[33; */ /* 2006-02-63 N.OTUKA INC-MMT-LAB -> INC-MOM-LAB in many sections */ \\BIB,1[34; D#=D500; TITLE=/INCLUSIVE PARTICLE PRODUCTION IN NUCLEI AT ANGLES OF 62 AND 188 MRAD BY PROTONS AT 3.95 - 9.7 GEV/C/; PURPOSE=/POSSIBILITY OF DETERMINING THE CROSS SECTIONS FOR THE INTERACTIONS OF YOUNG PIONS WITH THE NUCLEONS OF THE NUCLEUS FROM THE INCLUSIVE DATA IS ANALYZED./; ATH=(YU.D.BAYUKOV'1',A.E.BUKLEI'1',V.B.GAVRILOV'1',N.A.GORYAINOV'1', B.A.EZHOV'1',V.I.EFREMENKO'1',YU.M.ZAITSEV'1',M.M.KATS'1', L.N.KONDRATEV'1',M.V.KOSOV'1',G.A.LEKSIN'1',V.S.PAVLOV'1', N.N.POMELOV'1',V.YU.RUSINOV'1',V.V.STEPANOV'1',D.A.SUCHKOV'1', V.B.FEDOROV'1',B.B.SHVARTSMAN'1'); INST-ATH=(4CCPSCU'1'); REF=SNP; VLP=29(1979)487; RCTS=(BE(P,PIN,X)X,AL(P,PIN,X)X,CU(P,PIN,X)X,AU(P,PIN,X)X,AG(P,PIN,X)X, TA(P,PIN,X)X); /*@3@*/ \\EXP,1[34; THK-TGT=XMG/CM**2'5'; /*@5@*/ ACC=(X); INC-ENGY-RANGE=3.95GEV(XGEV)9.7GEV; DELTA-INC-ENGY=[1%; /*@6@*/ DET-PARTCL=(PIN); ANL=(X'9'); /*@19@*/ PHQ=(XSECTN,DSIGMA/DE,TOT-RCT-XSECTN,XSECTN-RATIO); /*@7@*/ \\EXP,1[13; /*@20@*/ \\EXP,14[21; /*@21@*/ \\EXP,22[25; /*@22@*/ \\EXP,26,34; RCT=BE(P,PIN,X)X'8'; /*@8@*/ /*@9@*/ /*@10@*/ \\EXP,1,5,9,22[25,26,27,28[33,34; RCT=BE(P,PIN,X)X'8'; /*@8@*/ \\EXP,2,6,10,23,28,31,34; RCT=AL(P,PIN,X)X'8'; /*@8@*/ \\EXP,7,11,24,29,32,34; RCT=CU(P,PIN,X)X'8'; /*@8@*/ \\EXP,3,12,34; RCT=AG(P,PIN,X)X'8'; /*@8@*/ \\EXP,4,8,25,30,34; RCT=AU(P,PIN,X)X'8'; /*@8@*/ \\EXP,13,33,34; RCT=TA(P,PIN,X)X'8'; /*@8@*/ \\EXP,14[21,34; /*@4@*/ ACC=(X); INC-ENGY-RANGE=(9GEV); DET-PARTCL=(P,PIN); DET-SYS=(MAG+PLST-SCT+CNTR-TLSCP); \\EXP,14,18,34; RCT=BE(P,P,X)X'8'; /*@8@*/ \\EXP,15,19,34; RCT=AL(P,P,X)X'8'; /*@8@*/ \\EXP,16,20,34; RCT=CU(P,P,X)X'8'; /*@8@*/ \\EXP,17,21,34; RCT=AU(P,P,X)X'8'; /*@8@*/ \\EXP,34; RCT=N(PIN,PIN,X)X; RCT=P(PIN,PIN,X)X; \\DATA,1[4; THTL=62MSR; INC-MOM-LAB=3.95GEV/C; /*@12@*/ \\DATA,1; TGT=BE; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 0.78 92.7 11.2 0.98 61.7 4.9 1.42 25.5 1.3 1.78 9.89 0.40 2.22 3.27 0.13 2.44 2.02 0.10 2.63 0.644 0.045 \END; \\DATA,2; TGT=AL; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 0.78 188 23 0.98 124 10 1.42 47.3 2.4 1.78 16.4 0.7 2.22 5.64 0.23 2.44 3.34 0.17 2.63 1.07 0.09 \END; \\DATA,3; TGT=AG; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 0.78 377 49 0.98 253 23 1.42 92.8 6.0 1.78 30.9 1.7 2.22 10.1 0.8 2.44 5.97 0.67 2.63 2.37 0.38 \END; \\DATA,4; TGT=AU; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 0.78 535 72 0.98 326 33 1.42 96.5 7.0 1.78 33.4 3.4 2.22 11.4 1.0 2.44 5.0 0.7 2.63 2.52 0.60 \END; \\DATA,5[8; THTL=62MRD; INC-MOM-LAB=6.7GEV/C; /*@12@*/ \\DATA,5; TGT=BE; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 0.81 171 16 0.98 131 9 1.35 84.9 4.2 1.71 54.4 2.2 1.97 39.8 1.2 2.23 27.6 0.8 2.50 18.7 0.6 2.75 13.4 0.4 3.02 9.64 0.29 3.25 7.34 0.22 3.47 5.71 0.17 3.77 3.97 0.12 3.95 3.08 0.09 4.23 1.70 0.05 4.60 0.439 0.018 4.99 0.0612 0.0078 5.10 0.0413 0.0065 \END; \\DATA,6; TGT=AL; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 0.81 350 34 0.96 263 19 1.35 159 8 1.71 97.1 3.9 1.97 68.8 2.1 2.23 46.2 1.4 2.50 31.2 0.9 2.75 21.5 0.6 3.02 15.2 0.5 3.25 11.4 0.3 3.47 8.73 0.26 3.77 5.98 0.18 3.95 4.24 0.13 4.23 2.19 0.07 4.60 0.519 0.026 4.99 0.0756 0.0138 5.10 0.0433 0.0097 \END; \\DATA,7; TGT=CU; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 0.81 582 56 0.98 414 30 1.35 248 13 1.71 147 6 1.97 103 3 2.23 68.5 2.1 2.50 45.3 1.4 2.75 32.4 1.0 3.02 22.5 0.7 3.25 16.4 0.5 3.47 13.1 0.4 3.77 8.25 0.25 3.95 5.90 0.18 4.23 3.11 0.12 4.60 0.830 0.042 4.99 0.111 0.024 5.10 0.066 0.023 \END; \\DATA,8; TGT=AU; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 0.81 954 95 0.98 672 52 1.35 403 24 1.71 223 11 1.97 153 6 2.23 93.9 3.8 2.50 65.8 2.6 2.75 43.8 1.8 3.02 31.0 1.2 3.25 24.4 1.0 3.47 17.7 0.7 3.77 11.2 0.5 3.95 9.51 0.48 4.23 4.83 0.29 4.60 1.19 0.14 4.99 0.151 0.071 5.10 0.082 0.046 \END; \\DATA,9[13; THTL=62MSR; INC-MOM-LAB=9.7GEV/C; /*@12@*/ \\DATA,9; TGT=BE; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 0.96 X X 1.02 160 14 1.19 141 10 1.51 97.4 4.9 1.67 X X 2.06 59.4 1.8 2.28 X X 2.34 46.9 1.4 2.39 43.5 1.3 3.15 X X 3.22 19.8 0.6 3.85 10.7 0.3 4.03 9.16 0.27 4.44 X X 4.54 5.84 0.18 5.17 3.54 0.11 5.30 X X 5.53 2.35 0.07 6.02 1.13 0.03 6.13 X X 6.69 X X 6.91 0.100 0.005 7.21 0.0512 0.0036 7.47 X X \END; \\DATA,10; TGT=AL; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 0.96 364 35 1.02 338 30 1.19 288 20 1.51 199 10 1.6 173 7 2.06 116 4 2.28 94.1 2.8 2.34 89.7 2.7 2.39 83.9 2.5 3.15 39.0 1.2 3.22 36.5 1.1 3.85 19.2 0.6 4.03 16.3 0.5 4.44 11.4 0.3 4.54 10.0 0.3 5.17 5.74 0.17 5.30 5.03 0.15 5.53 3.62 0.11 6.02 1.81 0.05 6.13 1.28 0.04 6.69 0.332 0.010 6.91 0.150 0.008 7.21 0.0861 0.0060 7.47 0.0368 0.0043 \END; \\DATA,11; TGT=CU; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 0.96 609 59 1.02 564 51 1.19 471 32 1.51 311 16 2.06 178 5 2.28 145 4 2.34 138 4 2.39 126 4 3.22 53.4 1.6 3.85 27.2 0.8 4.03 22.9 0.7 4.54 13.8 0.4 5.17 7.62 0.23 5.30 6.94 0.21 5.53 4.93 0.15 6.02 2.38 0.07 6.69 0.449 0.018 6.91 0.205 0.012 7.21 0.122 0.009 7.47 0.0462 0.0061 \END; \\DATA,12; TGT=AG; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 0.96 859 82 1.02 779 70 1.51 430 22 1.67 375 19 2.06 239 10 2.28 198 6 2.39 173 5 3.15 78.7 2.4 3.85 36.1 1.1 4.44 21.2 0.6 4.54 18.0 0.5 5.30 9.11 0.27 5.53 6.57 0.20 6.13 2.39 0.07 6.69 0.617 0.025 6.91 0.288 0.023 7.47 0.081 0.011 \END; \\DATA,13; TGT=TA; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 0.96 989 95 1.67 410 16 2.28 214 6 3.15 84.4 2.5 3.85 38.6 1.2 4.44 21.8 0.7 5.30 9.64 0.29 6.13 2.58 0.06 6.69 0.678 0.027 7.47 0.092 0.012 \END; \\DATA,14[17; THTL=188MSR; INC-MOM-LAB=9GEV/C; /*@12@*/ \\DATA,14; TGT=BE; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 1.59 34.8 2.1 2.11 14.7 0.9 2.64 6.93 0.42 3.16 3.23 0.20 3.69 1.42 0.09 4.21 0.523 0.037 4.72 0.193 0.018 5.28 0.040 0.011 \END; \\DATA,15; TGT=AL; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 1.59 71.5 3.0 2.11 30.6 1.3 2.64 14.1 0.6 3.16 6.29 0.30 3.69 2.70 0.14 4.21 0.983 0.065 4.72 0.344 0.037 5.28 0.053 0.024 \END; \\DATA,16; TGT=CU; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 1.59 115 4.7 2.11 50.4 2.1 2.64 23.2 1.0 3.16 9.88 0.46 3.69 4.31 0.23 4.21 1.59 0.11 4.72 0.569 0.067 5.28 0.124 0.052 \END; \\DATA,17; TGT=AU; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 1.59 226 11 2.11 87.1 4.0 2.64 43.5 2.2 3.16 15.9 0.9 3.69 8.20 0.56 4.21 2.70 0.27 4.72 1.17 0.18 5.28 0.205 0.125 \END; \\DATA,18[21; THTL=188MSR; INC-MOM-LAB=9GEV/C; /*@12@*/ \\DATA,18; TGT=BE; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 4.72 5.09 0.33 5.26 2.95 0.17 5.78 1.66 0.10 6.32 0.813 0.049 6.83 0.366 0.022 7.36 0.160 0.011 7.90 0.045 0.004 \END; \\DATA,19; TGT=AL; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 4.72 11.0 0.5 5.26 6.78 0.28 5.78 3.78 0.15 6.32 1.93 0.081 6.83 0.901 0.040 7.36 0.396 0.019 7.90 1.142 0.010 \END; \\DATA,20; TGT=CU; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 4.72 17.8 0.8 5.26 10.6 0.4 5.78 6.15 0.23 6.32 3.20 0.12 6.83 1.52 0.068 7.36 0.717 0.034 7.90 0.257 0.021 \END; \\DATA,21; TGT=AU; \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 4.72 34.5 1.8 5.26 20.8 0.9 5.78 11.8 0.52 6.32 6.06 0.25 6.83 2.92 0.16 7.36 1.55 0.09 7.90 0.680 0.058 \END; \\DATA,22; TGT=BE; THTL=62MSR; INC-MOM-LAB=8.8GEV/C; /*@12@*/ \DATA; MOM-EMT-LAB IVR-FUNCT IVR-FUNCT-ERR (GEV/C) (UNIT'2') (UNIT'2') 5.93 3.13E-1 0.09E-1 5.95 2.95E-1 0.09E-1 5.97 2.74E-1 0.08E-1 5.99 2.69E-1 0.08E-1 6.01 2.51E-1 0.08E-1 6.03 2.33E-1 0.07E-1 6.05 2.23E-1 0.07E-1 6.08 2.10E-1 0.06E-1 6.42 6.75E-2 0.20E-2 6.45 6.18E-2 0.19E-2 6.47 5.70E-2 0.17E-2 6.49 5.45E-2 0.16E-2 6.51 4.82E-2 0.14E-2 6.53 4.50E-2 0.18E-2 6.56 4.20E-2 0.17E-2 6.58 3.93E-2 0.16E-2 7.17 2.55E-3 0.13E-3 7.19 2.10E-3 0.11E-3 7.21 1.85E-3 0.09E-3 7.24 1.65E-3 0.08E-3 7.26 1.24E-3 0.06E-3 7.28 1.09E-3 0.05E-3 7.31 9.29E-4 0.46E-4 7.34 8.13E-4 0.41E-4 7.51 9.0E-5 0.9E-5 7.54 7.1E-5 0.7E-5 7.56 4.8E-5 0.7E-5 7.58 3.5E-5 0.5E-5 7.62 2.2E-5 0.4E-5 7.64 1.4E-5 0.3E-5 7.66 9.4E-6 2.4E-6 7.69 7.2E-6 1.8E-6 7.71 4.1E-6 1.2E-6 \END; \\DATA,23[25; /*@11@*/ \\DATA,23; \DATA; MOM-EMT-LAB RATIO'1' RATIO-ERR'1' (GEV/C) (REL-UNIT) (REL-UNIT) 5.5 0.728 0.022 6.0 0.729 0.022 6.5 0.771 0.023 7.0 0.719 0.036 7.21 0.794 0.040 7.32 0.879 0.035 7.40 0.932 0.037 7.52 1.15 0.07 7.57 1.29 0.08 7.61 1.33 0.09 7.65 1.28 0.10 7.69 1.50 0.14 \END; \\DATA,24; \DATA; MOM-EMT-LAB RATIO'1' RATIO-ERR'1' (GEV/C) (REL-UNIT) (REL-UNIT) 5.5 0.504 0.015 6.0 0.494 0.015 6.5 0.514 0.015 7.0 0.523 0.026 7.21 0.516 0.026 7.32 0.566 0.023 7.40 0.604 0.036 7.52 0.713 0.043 7.57 0.797 0.048 7.61 0.802 0.056 7.65 0.908 0.073 7.69 1.09 0.10 \END; \\DATA,25; \DATA; MOM-EMT-LAB RATIO'1' RATIO-ERR'1' (GEV/C) (REL-UNIT) (REL-UNIT) 5.5 0.362 0.011 6.0 0.361 0.011 6.5 0.387 0.012 7.0 0.417 0.021 7.21 0.465 0.028 7.32 0.500 0.030 7.40 0.554 0.039 7.52 0.655 0.046 7.57 0.802 0.064 7.61 0.774 0.070 7.65 0.771 0.060 7.69 1.07 0.11 \END; \\DATA,26; INC-MOM-LAB=9.7GEV/C; THTL=62MSR; /*@23@*/ /*FIG.1*/ /* D500 FIG.1 */ /* SER#= 1 */ /* XSCALE=LINEAR YSCALE=LOG */ /* XMAX= 1.00000000E+00 YMAX= 3.00000000E+02 */ /* XMIN= 0.00000000E+00 YMIN= 9.99999791E-03 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; FYM-SCL IVR-FUNCT DELTA-IVR-FUNT (REL-UNIT) (MB*C**3/GEV**2/SR) (MB*C**3/GEV**2/SR) 0.109 1.641E+02 2.142E+01 0.128 1.466E+02 2.084E+01 0.165 1.036E+02 8.829E+00 0.235 6.147E+01 8.026E+00 0.267 4.712E+01 6.152E+00 0.275 4.760E+01 5.126E+00 0.366 2.144E+01 2.552E+00 0.378 2.166E+01 2.578E+00 0.455 1.126E+01 1.866E+00 0.464 1.048E+01 1.247E+00 0.473 1.016E+01 1.209E+00 0.530 6.032E+00 7.875E-01 0.537 6.348E+00 7.558E-01 0.553 4.966E+00 6.484E-01 0.607 3.807E+00 5.413E-01 0.653 2.555E+00 3.932E-01 0.710 1.236E+00 1.330E-01 0.813 1.030E-01 1.584E-02 0.850 5.136E-02 8.516E-03 \END; \\DATA,27; INC-MOM-LAB=8.8GEV/C; THTL=62MSR; /*FIG.2*/ /* D500 FIG.2 */ /* SER#= 1 */ /* XSCALE=LINEAR YSCALE=LOG */ /* XMAX= 7.50000000E+00 YMAX= 1.00000000E+01 */ /* XMIN= 6.00000000E+00 YMIN= 9.99999656E-08 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; MOM-EMT-LAB IVR-FUNCT DELTA-IVR-FUNCT (GEV/C) (MB*C**3/GEV**2/SR) (MB*C**3/GEV**2/SR) 5.908 3.128E-01 XXXXXXXXX 5.935 3.128E-01 XXXXXXXXX 5.958 2.933E-01 XXXXXXXXX 5.979 2.691E-01 XXXXXXXXX 5.995 2.523E-01 XXXXXXXXX 6.021 2.365E-01 XXXXXXXXX 6.035 2.265E-01 XXXXXXXXX 6.060 2.079E-01 XXXXXXXXX 6.411 6.936E-02 XXXXXXXXX 6.434 6.644E-02 XXXXXXXXX 6.457 5.966E-02 XXXXXXXXX 6.480 5.593E-02 XXXXXXXXX 6.498 5.244E-02 XXXXXXXXX 6.522 4.916E-02 XXXXXXXXX 6.547 4.608E-02 XXXXXXXXX 6.570 4.320E-02 XXXXXXXXX 7.165 2.870E-03 XXXXXXXXX 7.186 2.265E-03 XXXXXXXXX 7.207 2.079E-03 XXXXXXXXX 7.235 1.867E-03 XXXXXXXXX 7.253 1.381E-03 XXXXXXXXX 7.278 1.163E-03 XXXXXXXXX 7.306 1.000E-03 XXXXXXXXX 7.332 9.787E-04 XXXXXXXXX 7.509 9.787E-05 1.591E-05 7.542 7.560E-05 1.615E-05 7.581 3.716E-05 6.041E-06 7.620 2.315E-05 3.763E-06 7.641 1.538E-05 2.500E-06 7.655 1.044E-05 2.506E-06 7.689 8.064E-06 1.310E-06 7.703 4.608E-06 1.230E-06 \END; \\DATA,28[33; THTL=62MSR; /*@11@*/ \\DATA,28; INC-MOM-LAB=8.8GEV/C; TGT=AL; /*FIG.3-(A)*/ /* D500 FIG.3-(A) */ /* SER#= 3 */ /* XSCALE=LINEAR YSCALE=LINEAR */ /* XMAX= 1.00000000E+00 YMAX= 1.39999962E+00 */ /* XMIN= 0.00000000E+00 YMIN= 0.00000000E+00 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; FYM-SCL RATIO'1' DELTA-RATIO'1' (REL-UNIT) (REL-UNIT) (REL-UNIT) 0.723 7.269E-01 2.788E-02 0.858 7.727E-01 2.588E-02 0.923 7.169E-01 3.584E-02 0.947 7.946E-01 2.788E-02 0.961 8.802E-01 2.788E-02 0.971 9.340E-01 3.783E-02 0.988 1.143E+00 5.775E-02 0.992 1.284E+00 5.576E-02 0.998 1.318E+00 7.766E-02 1.004 1.277E+00 9.160E-02 1.009 1.492E+00 1.035E-01 1.011 1.085E+00 7.368E-02 1.005 1.071E+00 7.766E-02 \END; \\DATA,29; INC-MOM-LAB=8.8GEV/C; TGT=CU; /*FIG.3-(B)*/ /* D500 FIG.3-(B) */ /* SER#= 4 */ /* XSCALE=LINEAR YSCALE=LINEAR */ /* XMAX= 1.00000000E+00 YMAX= 1.39999962E+00 */ /* XMIN= 0.00000000E+00 YMIN= 0.00000000E+00 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; FYM-SCL RATIO'1' DELTA-RATIO'1' (REL-UNIT) (REL-UNIT) (REL-UNIT) 0.723 5.073E-01 1.797E-02 0.793 4.973E-01 1.597E-02 0.858 5.213E-01 1.398E-02 0.922 5.272E-01 1.797E-02 0.949 5.193E-01 1.597E-02 0.962 5.612E-01 2.796E-02 0.974 5.991E-01 3.794E-02 0.989 7.150E-01 3.195E-02 1.003 9.067E-01 5.592E-02 \END; \\DATA,30; INC-MOM-LAB=8.8GEV/C; TGT=AU; /*FIG.3-(C)*/ /* D500 FIG.3-(C) */ /* SER#= 5 */ /* XSCALE=LINEAR YSCALE=LINEAR */ /* XMAX= 1.00000000E+00 YMAX= 1.39999962E+00 */ /* XMIN= 0.00000000E+00 YMIN= 0.00000000E+00 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; FYM-SCL RATIO'1' DELTA-RATIO'1' (REL-UNIT) (REL-UNIT) (REL-UNIT) 0.722 3.650E-01 2.792E-02 0.792 3.689E-01 2.393E-02 0.857 3.929E-01 1.994E-02 0.924 4.168E-01 2.193E-02 0.951 4.726E-01 2.592E-02 0.963 5.046E-01 2.193E-02 0.976 5.544E-01 2.792E-02 0.988 6.521E-01 3.390E-02 1.000 7.658E-01 4.387E-02 1.007 7.738E-01 5.185E-02 \END; \\DATA,31; INC-MOM-LAB=9.7GEV/C; TGT=AL; /*FIG.3-(D)*/ /* D500 FIG.3-(D) */ /* SER#= 6 */ /* XSCALE=LINEAR YSCALE=LINEAR */ /* XMAX= 1.00000000E+00 YMAX= 1.39999962E+00 */ /* XMIN= 0.00000000E+00 YMIN= 0.00000000E+00 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; FYM-SCL RATIO'1' DELTA-RATIO'1' (REL-UNIT) (REL-UNIT) (REL-UNIT) 0.128 1.013E+00 4.586E-02 0.192 9.991E-01 2.791E-02 0.281 9.373E-01 2.393E-02 0.379 9.074E-01 2.991E-02 0.469 8.735E-01 2.393E-02 0.533 8.376E-01 2.592E-02 0.630 7.698E-01 2.393E-02 0.802 7.299E-01 2.991E-02 \END; \\DATA,32; INC-MOM-LAB=9.7GEV/C; TGT=CU; /*FIG.3-(E)*/ /* D500 FIG.3-(E) */ /* SER#= 7 */ /* XSCALE=LINEAR YSCALE=LINEAR */ /* XMAX= 1.00000000E+00 YMAX= 1.39999962E+00 */ /* XMIN= 0.00000000E+00 YMIN= 0.00000000E+00 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; FYM-SCL RATIO'1' DELTA-RATIO'1' (REL-UNIT) (REL-UNIT) (REL-UNIT) 0.127 9.453E-01 3.789E-02 0.195 8.815E-01 2.592E-02 0.281 8.077E-01 2.792E-02 0.380 7.419E-01 2.792E-02 0.467 6.920E-01 2.393E-02 0.533 6.501E-01 2.393E-02 0.630 5.923E-01 2.193E-02 0.802 5.564E-01 2.792E-02 \END; \\DATA,33; INC-MOM-LAB=9.7GEV/C; TGT=TA; /*FIG.3-(F)*/ /* D500 FIG.3-(F) */ /* SER#= 8 */ /* XSCALE=LINEAR YSCALE=LINEAR */ /* XMAX= 1.00000000E+00 YMAX= 1.39999962E+00 */ /* XMIN= 0.00000000E+00 YMIN= 0.00000000E+00 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; FYM-SCL RATIO'1' DELTA-RATIO'1' (REL-UNIT) (REL-UNIT) (REL-UNIT) 0.128 7.649E-01 4.194E-02 0.191 6.650E-01 2.196E-02 0.278 6.051E-01 1.198E-02 0.377 5.552E-01 1.198E-02 0.467 4.893E-01 1.597E-02 0.534 4.434E-01 1.797E-02 0.630 4.154E-01 1.198E-02 0.803 4.234E-01 1.198E-02 \END; \\DATA,34; /*FIG.4*/ /* D500 FIG.4 */ /* SER#= 2 */ /* XSCALE=LOG YSCALE=LINEAR */ /* XMAX= 2.00000000E+01 YMAX= 3.00000000E+01 */ /* XMIN= 2.00000000E+00 YMIN= 0.00000000E+00 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; MOM-EMT-LAB SIGMA'3' DELTA-SIGMA'3' (GEV/C) (MB) (MB) 2.206 1.830E+01 5.909E+00 4.080 2.091E+01 3.465E+00 6.366 2.023E+01 2.840E+00 13.073 1.307E+01 1.420E+00 16.762 1.415E+01 1.874E+00 \END; /*@13@*/ \\END; @@3; PRELIMINARY RESULTS WERE PUBLISHED ELSEWHERE. SES REFERNCES 1 TO 5 IN THIS WORK. @@4; METHOD = EXPERIMENTAL ARRANGEMENT AND A DETAILED DESCRIOTION OF THE EXPERIMENTAL PROCEDURE ARE GIVEN IN REFS. 1 - 5. @@5; '5' USED A TARGET PRACED DIRECTLY IN THE CIRCULATING BEAM IN THE ACCELERATOR. @@6; ANALYSIS = USED A MONITORING PROCEDURE WHICH INVOLVES MEASURING THE ACTIVITY OF THE TARGET AFTER ITS BOMBARDMENT WITH PROTONS IN THE COURSE OF THE MEASUREMENTS. THIS PROCEDURE IS DESCRIBED IN DETAIL IN REF.9. @@7; ERR-ANALYS = MADE THE STANDARD CORRECTIONS FOR PI- DECAY, FOR MULTIPLE SCATTERING AND NUCLEAR ABSORPTION IN THE TELESCOPE COUNTERS, FOR RANDOM COINCIDENCES, FOR THE MUON-, ELECTRON, AND KAON- INPURITIES IN THE PION- BEAM AND THE PION+ IMPURITIES IN THE PROTON BEAM, AND FOR FORCUSI NG IN THE FRINGING MAGNETIC FIELD OF THE ACCELERATOR. THE NUCERTAINTY IN THESE CORRECTIONS IS REFLECTED IN THE STATED MEASUREMENT ERROR, WHICH IS 3 - 5 PERCENT. THE NUCERTAINTY IN THE ABSOLUTE NORMALIZATION OF THE DATA IS 15 - 20 PERCENT. IT SHOULD ALSO BE NOTED THAT BY MEASURING THE RATIO OF THE CROSS SECTI N FOR NUCLEUS A AND FOR BE, MOST OF THE UNCERTAINTY IN THE ABSOLUTE NORMARIZATION OF THE CROSS SECTIONS AND THE CORRECTIONS ARE ELIMINATED. @@8; '8' INCLUSIVE CROSS SECTION @@11; '1' RATIO = R(P,PO) = R(A,P,PO)/R(BE,P,PO) WITH R(A,P,PO) = (INVARIANT FNUCTION)/(TOTAL INELASTIC CROSS SECTION) FOR THE TARGET NUCLEUS OF MASS NUMBER OR SIMBOL A, WHERE P AND PO ARE MOMENTUM OF THE PARTICL C AND AO IN THE REACTION AO(B,C,X)X, AND BE IS BERYLLIUM NUCLUS. @@20; ANALYSIS = DATA WERE MEASURED WITH A MOMENTUM RESOLUTION DP/P =+-2.9 PERCENT @@21; ANALYSIS = DATA WERE MEASURED WITH A MOMENTUM RESOLUTION DP/P =+-2.6 PERCENT @@22; ANALYSIS = DATA WERE MEASURED WITH A MOMENTUM RESOLUTION DP/P =+-0.23 PERCENT @@9; ANALYSIS = TO DETERMINE THE FEYNMAN SCALE VARIABLE(X) FOR INCLUSIVE PRODUCTION IN A NUCLEUS THE AUTHORS ADOPTED THE ARBITRARY ASSUMPTION THAT THE ARGET IS A FREE NUCLEON AT REST. SEE TEXT IN THE PAPER. @@10; COMMENT = DATA DEMONSTRATE SCALI NG FOR REACTION A(B,C,X)X, AT PO.GT.9. 7 GEV/C, A CONSEQUENCE OF SCALING FOR THE ELEMENTARY REACTION N(P, PION-,X)X. @@23; THE TRANSVERSE MOMENTUM(PT) OF THE PION- IS GIVEN BY PT = 0.53*(FEYNMAN SCALE VARIABLE) AS TAKEN FROM THE EXPERIMENTAL CONDITIONS AT 9.7 GEV/C . @@12; '2' UNIT = MB*C**3/GEV**2/SR @@19; '9' TO DETERMINE THE CROSS SECTION FOR THE INTERACTION OF THE NUCLEONS OF THE NUCLEUS WITH THE PARTICLES WHICH HAS JUST BEEN PRODUCED(THE YOUNG PARTICLES), OR THE CROSS SECTIONS FOR THE INTERACTION OF THE NUCLEUS WITH THAT INTERMEDIATE HADRON STATE FROM WHICH THESE YOUNG PARTICLES ARE SUBSEQUENTLY PRODUCED. SEE TEXT IN THE PAPER. @@13; '3' SIGMA = TOTAL CROSS SECTION FOR THE INTERACTION OF THE YOUNG PION- MESON (SEE TEXT) WITH A NUCLEON. @@;