/* 2005-04-19 N.OTUKA JAP replaced by JPN */ \\BIB,1[18; D#=D52; TITLE=/STRUCTURE OF THE TRANSITIONAL NUCLEUS 149EU/; ATH=(H.NAKAYAMA'1',J.CHIBA'1',M.SEKIMOTO'1',K.NAKAI'1'); INST-ATH=(2JPNTOK'1'); REF=NP/A; VLP=293(1977)137; RCTS=(150SM(P,2*N,GAMMA)149EU); \\EXP,1[18; RCT=150SM(P,N,N,GAMMA)149EU; CHM=150SM2O3; THK-TGT=1.5MG/CM**2; BAC=MYLAR; THK-BAC=4UM; POL-TGT=NO; ALGN-TGT=NO; ACC=(CYC); INST-ACC=(2JPNTOK'2',2JPNINS'3'); INC-ENGY-RANGE=(26MEV'2',22MEV'2',20MEV'3'); /* '2' Institute of Medical Science */ DELTA-INC-ENGY=XKEV; ERS-PRJ=XKEV; BEAM-INTNSTY=XUA; POL-PRJ=NO; DET-PARTCL=(GAMMA); DET-SYS=(GE); SOLID-ANGL=XMSR; ERS-DET=2.5KEV; /* EVERGY RESOLUTION OF ABOUT 2.5KRV FWHMAT 1.3MEV */ ANL=(STATIST-MODEL,NILS-MODEL,COLL-MODEL); PHQ=(EXC-FUNCT,ANGL-DSTRN,ENGY-SPEC,QVL,EXC-ENGY,SPIN,PTY); \\DATA,1; RSD=149EU; INC-ENGY-RANGE=18[26MEV; /* THE ERERGY OF GAMMA-RAYS FROM 150SM (P,2NGAMMA) 149EU ERACTION IS 149.8KEV, */ \DATA; INC-ENGY DATA'A' DATA'B' (MEV) (NODIM) (NODIM) 18 09 +-0.01 20 1.3 +-0.05 22 1.1 +-0.05 24 0.48 +-0.01 26 0.06 +-0.01 \END; /* 'A', 'B', RELATIVE ENERGY AND ITS ERROR, RESPECTIVELY */ /* NUMERICAL VALUES ARE ERAD FROM THE GRAPH */ \\DATA,2; RSD=149EU; INC-ENGY-RANGE=18[26MEV; /* THE ENERGY OF GAMMA-RAYS FROM 150SM (P,2N GAMMA) 149EU REACTION IS 346.5KEV, */ \DATA; INC-ENGY DATA'A' DATA'B' (MEV) (NODIM) (NODIM) 18 2.0 +-0.05 20 3.8 +-0.05 22 3.7 +-0.05 24 1.2 +-0.05 26 0.5 +-0.05 \END; /* 'A','B': RELATIVE ENERGY AND ITS ERROR, SESPECTIVELY */ /* NUMERICAL VALUES ARE READ FROM THE GRAPH */ \\DATA,3; RSD=149EU; INC-ENGY-RANGE=18[26MEV; /* THE ENERGY OF GAMMA-RAYS FROM 150SM (P,2N GAMMA)149EU REUCTION IS 459.5 KEV. */ \DATA; INC-ENGY DATA'A' DATA'B' (MEV) (NODIM) (NODIM) 18 7.1 +-0.1 20 8 +-0.1 22 5 +-0.1 24 2.5 +-0.1 26 1.7 +-0.2 \END; /* 'A','B'; RELATIVE GIELD AND ITS ERROR, RESPECTIVELY */ /* NUMERICAL VALUES ARE READ FROM THE GRAPH */ \\DATA,4; RSD=149EU; INC-ENGY-RANGE=18[26MEV; /* THE ENERGY OF GAMMA-RAYS FROM 150SM(P.2N GAMMA)149EU REUCTION IS 534.0 KEV.*/ \DATA; INC-ENGY DATA'A' DATA'B' (MEV) (NODIM) (NODIM) 18 1.05 +-0.02 20 1.2 +-0.02 22 1.05 +-0.02 24 0.37 +-0.02 26 0.12 +-0.01 \END; /* 'A','B'; RELATIVE YIELD AND ITS ERROR, RESPECTIVELY */ /* NUMERICAL VALUES ARE READ FROM THR GRAPH */ \\DATA,5; RSD=149EU; INC-ENGY-RANGE=18[26MEV; /* THE ENERGY OF GAMMA-RAYS FROM 150SM(P,2NGAMMA)149EU REUCTION IS 298.4 KEV.*/ \DATA; INC-ENGY DATA'A' DATA'B' (MEV) (NODIM) (NODIM) 18 0.9 +-0.03 20 1.1 +-0.01 22 0.8 +-0.03 24 0.2 +-0.02 26 0.1 +-0.03 \END; /* 'A','B'; RELATIVE YIELD AND ITS ARROR, RESPECTIVELY */ /* NUMERICAL VALUES ARE READ FROM THE GRAPH */ \\DATA,6; RSD=149EU; INC-ENGY-RANGE=18[26MEV; /* THE ENERGY OF GAMMA-RAYS FROM 150SM(P,2NGAMMA)149EU REUCTION IS 947.2KEV. */ \DATA; INC-ENGY DATA'A' DATA'B' (MEV) (NODIM) (MODIM) 18 0.52 +-0.1 20 0.8 +-0.15 22 0.9 +-0.1 24 0.45 +-0.15 26 0.23 +-0.15 \END; /* 'A', 'B' : RELATIVE YIELD AND ITS ERROR, RESPECTIVELY */ /* NUMERICAL VALUES ARE READ FROM THE GRAPH */ \\DATA,7; RSD=149EU; INC-ENGY-RANGE=18[26MEV; /* THE ENERGY OF GAMMA-RAYS FROM 150SM(P,2N GAMMA)149EU REUCTION IS 748.3 KEV. */ \DATA; INC-ENGY DATA'A' DATA'B' (MEV) (NODIM) (NODIM) 18 0.33 +-0.02 20 0.42 +-0.02 22 0.3 +-0.02 24 0.1 +-0.015 \END; /* 'A','B'; RELATIVE ENERGY AND ITS ERROR,RESPECTIVELY */ /* NUMERICAL VALUES ARE READ FROM THE GRAPH */ \\DATA,8; RSD=149EU; INC-ENGY-RANGE=18[26; /* THE ENERGY OF GAMMA-RAYS FROM 150SM(P,2N GAMM)149EU REUCTION IS 498.0 KEV. */ \DATA; INC-ENGY DATA'A' PATA'B' (MEV) (NODIM) (NODIM) 18 0.3 +-0.02 20 0.93 +-0.03 22 1 +-0.01 24 0.4 +-0.02 26 0.12 +-0.02 \END; /* 'A','B'; RELATIVE YIELD AND ITS ERROR , RESPECTIVELY */ /* NUMERICAL VALUES ARE READ FROM THE GRAPH */ \\DATA,9; RSD=149EU; INC-ENGY-RANGE=18[26MEV; /* THE ENERGY OF GAMMA-RAYS FROM 150SM(P,2N GAMMA)149EU REUCTION IS 798.6 KEV. */ \DATA; INC-ENGY DATA'A' DATA'B' (MEV) (NODIM) (NODIM) 18 0.13 +-0.02 20 0.21 +-0.01 22 0.2 +-0.01 24 0.1 +-0.03 \END; /* 'A','B' : RELATIUE YIELD AND ITS ERROR, RESPECTIVELY */ /* NUMERICAL VALUES ARE READ FROM THE GRAPH */ \\DATA,10; RSD=149EU; INC-ENGY-RANGE=18[26MEV; /* THE ENERGY OF GAMMA-RAYS FROM 150SM(P,2N GAMMA)149EU REUCTION IS 680.7 KEV. */ \DATA; INC-ENGY DATA'A' DATA'B' (MEV) (NODIM) (NODIM) 18 0.5 +-0.15 20 1.5 +-0.2 22 2.5 +-0.2 24 1.2 +-0.2 26 1.0 +-0.3 \END; /* 'A','B' : RELATIVE YIELD AND ITS ERROR , RESPECTIVELY */ /* NUMERICAL VALUES ARE READ FROM THE GRAPH */ \\DATA,11; RSD=149EU; INC-ENGY-RANGE=18[26MEV; /* THE ENERGY OF GAMMA-RAYS FROM 150SM(P,2N GAMMA)149EU REUCTION IS 264.5 KEV. */ \DATA; INC-ENGY DATA'A' DATA'B' (MEV) (NODIM) (NODIM) 18 0.4 +-0.02 20 0.6 +-0.02 22 0.45 +-0.02 24 0.18 +-0.03 26 0.09 +-0.02 \END; /* 'A','B' : RELATIVE YIELD AND ITS ERROR, RESPECTIVELY */ /* NUMERICAL VALUES ARE READ FROM THE GRAPH */ \\DATA,12; RSD=149EU; INC-ENGY-RANGE=18[26MEV; /* THE ENERGY OF GAMMA-RAYS FROM 150SM(P,2N GAMMA)149EU REUCTION IS 760.8 KEV. */ \DATA; INC-ENGY DATA'A' DATA'B' (MEV) (NODIM) (NODIM) 18 0.15 +-0.02 20 0.29 +-0.01 22 0.28 +-0.01 24 0.1 +-0.015 26 0.06 +-0.015 \END; /* 'A','B' : RELATIVE YIELD AND ITS ERROR, RESPECTIVELY */ /* NUMERICAL VALUES ARE READ FROM THE GRAPH */ \\DATA,13; INC-ENGY=20MEV; /* THE ENERGY OF GAMMA-RAYS FROM THE 150SM(P,2N GAMMA)149EU REUCTION IS 149.8 KEV. */ \DATA; THTL DATA'C' DATA'D' (DEG) (NODIM) (NODIM) 90 1.0 +-0.02 105 1.0 +-0.02 120 0.95 +-0.02 135 0.95 +-0.02 150 0.92 +-0.02 \END; /* 'C','D' : RELATIVE YIELD AND ITS ERROR , RESPECTIVELY */ /* NUMERICAL VALUES ARE READ FROM THE GRAPH */ \\DATA,14; INC-ENGY=20MEV; /* THE ENERGY OF GAMMA-RAYS FROM THE 150SM(P,2N GAMMA)149EU REUCTION IS 298.4 KEV. */ \DATA; THTL DATA'C' DATA'D' (DEG) (NODIM) (NODIM) 90 1.0 +-0.02 105 0.98 +-0.02 120 0.92 +-0.02 135 0.75 +-0.05 150 0.7 +-0.05 \END; /* 'C','D' : RELATIVE YIELD AND ITS ERROR , RESPECTIVELY */ /* NUMERICAL VALUES ARE READ FROM THE GRAPH */ \\DATA,15; INC-ENGY=20MEV; /* THE ENERGY OF GAMMA-RAYS FROM THE 150SM(P,2N GAMMA)149EU REUCTION IS 680.7 KEV. */ \DATA; THTL DATA'C' DATA'D' (DEG) (NODIM) (NODIM) 90 1.0 +-0.06 105 0.85 +-0.06 120 0.75 +-0.06 135 0.60 +-0.06 150 0.45 +-0.06 \END; /* 'C','D' : RELATIVE YIELD AND ITS ERROR , RESPECTIVELY */ /* NUMCRICAL VALUES ARE READ FROM THE GRAPH */ \\DATA,16; INC-ENGY=20MEV; /* THE ENERGY OF GAMMA-RAYS FROM THE 150SM(P,2N GAMMA)149EU REUCTION IS 498.0KEV. */ \DATA; THTL DATA'C' DATA'D' (DEG) (NODIM) (NODIM) 90 1.0 +-0.05 105 1.02 +-0.05 120 1.1 +-0.05 135 1.2 +-0.05 150 1.3 +-0.05 \END; /* 'C','D' : RELATIVE YIELD AND ITS ERROR , RESPECTIVELY */ /* NUMCRICAL VALUES ARE READ FROM THE GRAPH */ \\DATA,17; INC-ENGY=20MEV; /* THE ENERGY OF GAMMA-RAYS FROM THE 150SM(P,2N GAMMA)149EU REUCTION IS 615.0 KEV. */ \DATA; THTL DATA'C' DATA'D' (DEG) (NODIM) (NODIM) 90 1.0 +-0.1 105 1.1 +-0.1 120 1.0 +-0.1 135 1.25 +-0.1 150 1.36 +-0.1 \END; /* 'C','D' : RELATIVE YIELD AND ITS ERROR , RESPECTIVELY */ /* NUMERICAL VALUES ARE READ FROM THE GRAPH */ \\DATA,18; INC-ENGY=20MEV; /* THE ENERGY OF GAMMA-RAYS FROM THE 150SM(P,2N GAMMA)149EU REUCTION IS 760.8 KEV. */ \DATA; THTL DATA'C' DATA'D' (DEG) (NODIM) (NODIM) 90 1.0 +-0.07 105 1.1 +-0.07 120 1.1 +-0.07 135 1.25 +-0.05 150 1.28 +-0.05 \END; /* 'C','D' : RELATIVE YIELD AND ITS ERROR , RESPECTIVELY */ /* NUMERICAL VALUES ARE READ FROM THE GRAPH */ \\END;