/* 2018-06-29 File is generated by HENDEL. */ \\BIB,1[12; D#=D2539; TITLE=/ Study of proton- and deuteron-induced spallation reactions on the long-lived fission product 93Zr at 105 MeV/nucleon in inverse kinematics /; PURPOSE=/ Spallation reactions for the long-lived fission product 93Zr have been studied in order to provide basic data necessary for nuclear waste transmutation. /; ATH=(S.KAWASE'1', K.NAKANO'1,2', Y.WATANABE'1', H.WANG'2', H.OTSU'2', H.SAKURAI'2', D.S.AHN'2', M.AIKAWA'3', T.ANDO'4', S.ARAKI'1,2', S.CHEN'2', N.CHIGA'2', P.DOORNENBAL'2', N.FUKUDA'2', T.ISOBE'2', S.KAWAKAMI'6,2', T.KIN'1', Y.KONDO'5', S.KOYAMA'4', S.KUBONO'2', Y.MAEDA'6', A.MAKINAGA'7,8', M.MATSUSHITA'9', T.MATSUZAKI'2', S.MICHIMASA'9', S.MOMIYAMA'4', S.NAGAMINE'4', T.NAKAMURA'5', M.NIIKURA'4', T.OZAKI'5', A.SAITO'5', T.SAITO'4', Y.SHIGA'10,2', M.SHIKATA'5', Y.SHIMIZU'2', S.SHIMOURA'9', T.SUMIKAMA'2', P.SODERSTROM'2', H.SUZUKI'2', H.TAKEDA'2', S.TAKEUCHI'5', R.TANIUCHI'4', Y.TOGANO'5', J.TSUBOTA'5', M.UESAKA'2', Y.WATANABE'2', K.WIMMER'4,9,2', T.YAMAMOTO'6,2', K.YOSHIDA'2'); INST-ATH=(2JPNKYU'1', 2JPNIPC'2', 2JPNHOK'3', 2JPNTOK'4', 2JPNTIT'5', 2JPNMZK'6', 2JPNJPN'7', 2JPNHOK'8', 2JPNTOK'9', 2JPNRIK'10'); /* '1' Department of Advanced Energy Engineering Sciences */ /* '2' Nishina Center */ /* '3' Faculty of Science */ /* '7' JEin Institute for Fundamental Science, NPO Einstein, Kyoto */ /* '8' Graduate School of Medicine */ /* '9' Center for Nuclear Study */ /* '10' Department of Physics */ REF=PTEP; VLP=2017(2017)093D03; /* Secondary reference - EPJ/CS, 146(2017)03012 (S.Kawase et al., preliminary result) */ RCTS=(P(93ZR,X)X, 93ZR(P,X)X, D(93ZR,X)X, 93ZR(D,X)X); PHQS=XSECTN; \\EXP,1[12; /* 2017-01-30 : Received, Received by e-mail from S.Kawase */ /* 2017-09-25 : Compiled+Checked, MA */ /* 2018-03-07 : Altered, MA: REFERENCE: EPJ/CS,146,03012,2017 added. */ PHQ=XSECTN; POL-TGT=0%; ALGN-TGT=0%; ACC=(CYC'12',PRJFS'13'); /* '13' BigRIPS */ INST-ACC=(2JPNIPC'12',2JPNIPC'13'); INC-ENGY-LAB-RANGE=105MEV/A; BEAM-INTNSTY=7.1E+3PPS; POL-PRJ=0%; COINC=NO; ANT-COINC=NO; DET-SYS=(MAG'14',TOF,EDE); /* '14' ZeroDegree */ \\DATA,1[12; INC-ENGY-LAB=105MEV/A; SYS-ERR=(<2%'15',<5%'16'); /* '15' target thickness */ /* '16' charge state distribution in the ZeroDegree spectrometer */ \\EXP,1; RCT=(P(93ZR,X)X=93ZR(P,X)X)'17'; /* '17' See DATA section for atomic number (Z) and mass number (A) of products */ CHM=CH2; PHYS-FORM=SLD; THK-TGT=179.2MG/CM**2; \\DATA,1; Z-EMT=41; \DATA; A SIGMA DELTA-SIGMA'18' (NODIM) (MB) (MB) 93 5.82E+00 +-6.50E-01 92 1.46E+01 +-1.05E+00 91 2.95E+01 +-1.54E+00 90 2.43E+01 +-7.61E-01 89 1.68E+01 +-7.17E-01 88 6.47E+00 +-4.31E-01 87 1.82E+00 +-2.19E-01 \END; /* Plotted in Fig.3 of Prog. Theor. Exp. Phys. 2017, 093D03 (2017) */ /* '18' Statistical error */ \\EXP,2; RCT=(P(93ZR,X)X=93ZR(P,X)X)'19'; /* '19' See DATA section for atomic number (Z) and mass number (A) of products */ CHM=CH2; PHYS-FORM=SLD; THK-TGT=179.2MG/CM**2; \\DATA,2; Z-EMT=40; \DATA; A SIGMA DELTA-SIGMA'20' (NODIM) (MB) (MB) 92 9.88E+01 +-5.18E+00 91 7.89E+01 +-2.73E+00 90 1.04E+02 +-2.85E+00 89 9.80E+01 +-2.82E+00 88 7.03E+01 +-1.28E+00 87 3.71E+01 +-1.09E+00 86 8.84E+00 +-5.88E-01 85 7.07E-01 +-2.08E-01 \END; /* Plotted in Fig.3 of Prog. Theor. Exp. Phys. 2017, 093D03 (2017) */ /* '20' Statistical error */ \\EXP,3; RCT=(P(93ZR,X)X=93ZR(P,X)X)'21'; /* '21' See DATA section for atomic number (Z) and mass number (A) of products */ CHM=CH2; PHYS-FORM=SLD; THK-TGT=179.2MG/CM**2; \\DATA,3; Z-EMT=39; \DATA; A SIGMA DELTA-SIGMA'22' (NODIM) (MB) (MB) 92 1.07E+01 +-2.28E+00 91 1.34E+01 +-3.04E+00 90 1.82E+01 +-2.24E+00 89 4.22E+01 +-1.91E+00 88 4.40E+01 +-1.90E+00 87 4.61E+01 +-1.92E+00 86 3.07E+01 +-9.87E-01 85 1.38E+01 +-7.27E-01 84 4.20E+00 +-5.33E-01 83 8.74E-01 +-2.88E-01 \END; /* Plotted in Fig.3 of Prog. Theor. Exp. Phys. 2017, 093D03 (2017) */ /* '22' Statistical error */ \\EXP,4; RCT=(P(93ZR,X)X=93ZR(P,X)X)'23'; /* '23' See DATA section for atomic number (Z) and mass number (A) of products */ CHM=CH2; PHYS-FORM=SLD; THK-TGT=179.2MG/CM**2; \\DATA,4; Z-EMT=38; \DATA; A SIGMA DELTA-SIGMA'24' (NODIM) (MB) (MB) 90 9.96E-01 +-6.66E-01 89 1.01E+00 +-7.21E-01 88 7.73E+00 +-2.13E+00 87 1.00E+01 +-2.53E+00 86 1.58E+01 +-1.25E+00 85 1.96E+01 +-1.48E+00 84 1.89E+01 +-8.60E-01 83 7.76E+00 +-8.09E-01 82 1.38E+00 +-5.50E-01 \END; /* Plotted in Fig.3 of Prog. Theor. Exp. Phys. 2017, 093D03 (2017) */ /* '24' Statistical error */ \\EXP,5; RCT=(P(93ZR,X)X=93ZR(P,X)X)'25'; /* '25' See DATA section for atomic number (Z) and mass number (A) of products */ CHM=CH2; PHYS-FORM=SLD; THK-TGT=179.2MG/CM**2; \\DATA,5; Z-EMT=37; \DATA; A SIGMA DELTA-SIGMA'26' (NODIM) (MB) (MB) 87 1.90E-01 +-5.63E-01 85 6.51E+00 +-1.72E+00 84 4.92E+00 +-8.54E-01 83 4.15E+00 +-1.02E+00 82 4.02E+00 +-1.05E+00 81 1.45E+00 +-7.16E-01 80 2.58E-02 +-5.47E-01 \END; /* Plotted in Fig.3 of Prog. Theor. Exp. Phys. 2017, 093D03 (2017) */ /* '26' Statistical error */ \\EXP,6; RCT=(P(93ZR,X)X=93ZR(P,X)X)'27'; /* '27' See DATA section for atomic number (Z) and mass number (A) of products */ CHM=CH2; PHYS-FORM=SLD; THK-TGT=179.2MG/CM**2; \\DATA,6; Z-EMT=36; \DATA; A SIGMA DELTA-SIGMA'28' (NODIM) (MB) (MB) 82 1.55E+00 +-7.17E-01 81 3.25E+00 +-7.14E-01 80 2.52E+00 +-9.07E-01 79 2.76E+00 +-8.91E-01 78 6.92E-01 +-5.85E-01 77 6.82E-01 +-3.75E-01 \END; /* Plotted in Fig.3 of Prog. Theor. Exp. Phys. 2017, 093D03 (2017) */ /* '28' Statistical error */ \\EXP,7; RCT=(D(93ZR,X)X=93ZR(D,X)X)'29'; /* '29' See DATA section for atomic number (Z) and mass number (A) of products */ CHM=CD2; PHYS-FORM=SLD; THK-TGT=218.2MG/CM**2; \\DATA,7; Z-EMT=41; \DATA; A SIGMA DELTA-SIGMA'30' (NODIM) (MB) (MB) 93 3.88E+00 +-5.06E-01 92 7.40E+00 +-7.64E-01 91 1.49E+01 +-6.87E-01 90 1.31E+01 +-6.33E-01 89 8.87E+00 +-6.00E-01 88 3.43E+00 +-3.56E-01 87 3.97E-01 +-1.49E-01 \END; /* Plotted in Fig.3 of Prog. Theor. Exp. Phys. 2017, 093D03 (2017) */ /* '30' Statistical error */ \\EXP,8; RCT=(D(93ZR,X)X=93ZR(D,X)X)'31'; /* '31' See DATA section for atomic number (Z) and mass number (A) of products */ CHM=CD2; PHYS-FORM=SLD; THK-TGT=218.2MG/CM**2; \\DATA,8; Z-EMT=40; \DATA; A SIGMA DELTA-SIGMA'32' (NODIM) (MB) (MB) 92 8.53E+01 +-4.10E+00 91 7.58E+01 +-2.33E+00 90 8.95E+01 +-2.38E+00 89 7.64E+01 +-1.40E+00 88 5.87E+01 +-1.16E+00 87 2.95E+01 +-1.02E+00 86 8.93E+00 +-5.81E-01 85 1.47E+00 +-2.38E-01 \END; /* Plotted in Fig.3 of Prog. Theor. Exp. Phys. 2017, 093D03 (2017) */ /* '32' Statistical error */ \\EXP,9; RCT=(D(93ZR,X)X=93ZR(D,X)X)'33'; /* '33' See DATA section for atomic number (Z) and mass number (A) of products */ CHM=CD2; PHYS-FORM=SLD; THK-TGT=218.2MG/CM**2; \\DATA,9; Z-EMT=39; \DATA; A SIGMA DELTA-SIGMA'34' (NODIM) (MB) (MB) 92 2.36E+01 +-1.79E+00 91 2.88E+01 +-2.96E+00 90 3.28E+01 +-2.02E+00 89 5.56E+01 +-1.74E+00 88 6.28E+01 +-1.78E+00 87 6.21E+01 +-1.20E+00 86 4.52E+01 +-1.02E+00 85 2.49E+01 +-7.82E-01 84 9.48E+00 +-6.03E-01 83 1.64E+00 +-3.00E-01 \END; /* Plotted in Fig.3 of Prog. Theor. Exp. Phys. 2017, 093D03 (2017) */ /* '34' Statistical error */ \\EXP,10; RCT=(D(93ZR,X)X=93ZR(D,X)X)'35'; /* '35' See DATA section for atomic number (Z) and mass number (A) of products */ CHM=CD2; PHYS-FORM=SLD; THK-TGT=218.2MG/CM**2; \\DATA,10; Z-EMT=38; \DATA; A SIGMA DELTA-SIGMA'36' (NODIM) (MB) (MB) 90 1.34E+00 +-6.68E-01 89 6.30E+00 +-9.11E-01 88 1.08E+01 +-2.26E+00 87 2.10E+01 +-2.18E+00 86 3.16E+01 +-1.25E+00 85 3.81E+01 +-1.55E+00 84 3.52E+01 +-8.96E-01 83 2.54E+01 +-9.56E-01 82 9.45E+00 +-6.49E-01 \END; /* Plotted in Fig.3 of Prog. Theor. Exp. Phys. 2017, 093D03 (2017) */ /* '36' Statistical error */ \\EXP,11; RCT=(D(93ZR,X)X=93ZR(D,X)X)'37'; /* '37' See DATA section for atomic number (Z) and mass number (A) of products */ CHM=CD2; PHYS-FORM=SLD; THK-TGT=218.2MG/CM**2; \\DATA,11; Z-EMT=37; \DATA; A SIGMA DELTA-SIGMA'38' (NODIM) (MB) (MB) 87 3.92E-01 +-5.61E-01 85 1.09E+01 +-1.44E+00 84 1.41E+01 +-8.50E-01 83 1.90E+01 +-1.16E+00 82 1.81E+01 +-6.87E-01 81 1.52E+01 +-8.41E-01 80 5.77E+00 +-6.17E-01 \END; /* Plotted in Fig.3 of Prog. Theor. Exp. Phys. 2017, 093D03 (2017) */ /* '38' Statistical error */ \\EXP,12; RCT=(D(93ZR,X)X=93ZR(D,X)X)'39'; /* '39' See DATA section for atomic number (Z) and mass number (A) of products */ CHM=CD2; PHYS-FORM=SLD; THK-TGT=218.2MG/CM**2; \\DATA,12; Z-EMT=36; \DATA; A SIGMA DELTA-SIGMA'40' (NODIM) (MB) (MB) 82 6.44E+00 +-6.32E-01 81 8.40E+00 +-7.17E-01 80 1.03E+01 +-5.75E-01 79 8.04E+00 +-5.71E-01 78 4.69E+00 +-6.28E-01 77 1.56E+00 +-3.90E-01 \END; /* Plotted in Fig.3 of Prog. Theor. Exp. Phys. 2017, 093D03 (2017) */ /* '40' Statistical error */ \\END;