/* 2007-07-29 File is generated by HENDEL. */ \\BIB,1[131; D#=D2023; TITLE=/ Target-dependence of light fragment production in photonuclear reactions at intermediate energies /; ATH=(H.MATSUMURA'1', K.WASHIYAMA'1', H.HABA'1', Y.MIYAMOTO'1', Y.OURA'2', K.SAKAMOTO'1,3', S.SHIBATA'4', M.FURUKAWA'5', I.FUJIWARA'6', H.NAGAI'7', T.KOBAYASHI'7', K.KOBAYASHI'8'); INST-ATH=(2JPNKNZ'1', 2JPNTMU'2', 2JPNKNZ'3', 2JPNKTO'4', 2JPNJPN'5', 2JPNJPN'6', 2JPNJPN'7', 2JPNTOK'8'); /* '1' Division of Physical Sciences, Graduate School of Natural Science and Technology */ /* '2' Department of Chemistry, Graduate School of Schience */ /* '3' Department of Chemistry, Faculty of Science */ /* '4' Research Reactor Institute */ /* '5' Faculty of Environmental and Information Sciences, Yokkaichi University */ /* '6' School of Economics, Otemon Gakuin University, Ibaragi */ /* '7' College of Humanities and Sciences, Nihon University */ /* '8' Research Center for Nuclear Science and Technology */ REF=RCA; VLP=88(2000)313; /* Secondary reference - Matsumura, Thesis(2000) */ RCTS=(B(GAMMA,X)7BE, C(GAMMA,X)7BE, O(GAMMA,X)7BE, 23NA(GAMMA,X)7BE, 27AL(GAMMA,X)7BE, SI(GAMMA,X)7BE, S(GAMMA,X)7BE, CL(GAMMA,X)7BE, FE(GAMMA,X)7BE, 59CO(GAMMA,X)7BE, CU(GAMMA,X)7BE, 89Y(GAMMA,X)7BE, AG(GAMMA,X)7BE, IN(GAMMA,X)7BE, 141PR(GAMMA,X)7BE, 159TB(GAMMA,X)7BE, 165HO(GAMMA,X)7BE, 197AU(GAMMA,X)7BE, O(GAMMA,X)10BE, S(GAMMA,X)10BE, FE(GAMMA,X)10BE, 59CO(GAMMA,X)10BE, CU(GAMMA,X)10BE, 89Y(GAMMA,X)10BE, AG(GAMMA,X)10BE, IN(GAMMA,X)10BE, 141PR(GAMMA,X)10BE, 159TB(GAMMA,X)10BE, 165HO(GAMMA,X)10BE, 197AU(GAMMA,X)10BE, 23NA(GAMMA,X)22NA, 27AL(GAMMA,X)22NA, SI(GAMMA,X)22NA, S(GAMMA,X)22NA, CL(GAMMA,X)22NA, CA(GAMMA,X)22NA, V(GAMMA,X)22NA, 55MN(GAMMA,X)22NA, FE(GAMMA,X)22NA, 59CO(GAMMA,X)22NA, CU(GAMMA,X)22NA, 89Y(GAMMA,X)22NA, AG(GAMMA,X)22NA, IN(GAMMA,X)22NA, 159TB(GAMMA,X)22NA, 165HO(GAMMA,X)22NA, 197AU(GAMMA,X)22NA, SI(GAMMA,X)24NA, S(GAMMA,X)24NA, CL(GAMMA,X)24NA, K(GAMMA,X)24NA, CA(GAMMA,X)24NA, V(GAMMA,X)24NA, 55MN(GAMMA,X)24NA, FE(GAMMA,X)24NA, 59CO(GAMMA,X)24NA, NI(GAMMA,X)24NA, CU(GAMMA,X)24NA, 89Y(GAMMA,X)24NA, AG(GAMMA,X)24NA, IN(GAMMA,X)24NA, 159TB(GAMMA,X)24NA, 165HO(GAMMA,X)24NA, 197AU(GAMMA,X)24NA, 30SI(GAMMA,X)28MG, S(GAMMA,X)28MG, CL(GAMMA,X)28MG, K(GAMMA,X)28MG, CA(GAMMA,X)28MG, V(GAMMA,X)28MG, 55MN(GAMMA,X)28MG, FE(GAMMA,X)28MG, 59CO(GAMMA,X)28MG, CU(GAMMA,X)28MG, 89Y(GAMMA,X)28MG, AG(GAMMA,X)28MG, IN(GAMMA,X)28MG, 159TB(GAMMA,X)28MG, 165HO(GAMMA,X)28MG, 197AU(GAMMA,X)28MG, CU(GAMMA,X)39CL, 89Y(GAMMA,X)39CL, 159TB(GAMMA,X)39CL, 165HO(GAMMA,X)39CL, CU(GAMMA,X)43SC, CU(GAMMA,X)44SC, CU(GAMMA,X)46SC, CU(GAMMA,X)47SC, CU(GAMMA,X)48SC, 89Y(GAMMA,X)44SC, 89Y(GAMMA,X)46SC, 89Y(GAMMA,X)47SC, 89Y(GAMMA,X)48SC, AG(GAMMA,X)44SC, AG(GAMMA,X)46SC, AG(GAMMA,X)47SC, AG(GAMMA,X)48SC, IN(GAMMA,X)44SC, IN(GAMMA,X)46SC, IN(GAMMA,X)47SC, IN(GAMMA,X)48SC, 165HO(GAMMA,X)44SC, 165HO(GAMMA,X)46SC, 165HO(GAMMA,X)47SC, 165HO(GAMMA,X)48SC, 197AU(GAMMA,X)44SC, 197AU(GAMMA,X)46SC, 197AU(GAMMA,X)47SC, 197AU(GAMMA,X)48SC, CU(GAMMA,X)59FE, 89Y(GAMMA,X)59FE, AG(GAMMA,X)59FE, 159TB(GAMMA,X)59FE, 165HO(GAMMA,X)59FE, 197AU(GAMMA,X)59FE, 89Y(GAMMA,X)56CO, 89Y(GAMMA,X)57CO, 89Y(GAMMA,X)58CO, 89Y(GAMMA,X)60CO, AG(GAMMA,X)56CO, AG(GAMMA,X)57CO, AG(GAMMA,X)58CO, AG(GAMMA,X)60CO, 165HO(GAMMA,X)57CO, 165HO(GAMMA,X)58CO, 165HO(GAMMA,X)60CO, 197AU(GAMMA,X)56CO, 197AU(GAMMA,X)57CO, 197AU(GAMMA,X)58CO, 197AU(GAMMA,X)60CO); PHQS=XSECTN; \\EXP,1[131; /* 2007-01-26 : Recieved, N.Otuka. Receved by e-mail from H.Matsumura */ /* 2007-02-08 : Compiled, N.Otuka */ PHQ=XSECTN; POL-TGT=0%; ALGN-TGT=0%; ACC=SYN'9'; /* '9' 1.3 GeV electron synchrotron */ INST-ACC=2JPNKEK'10'; /* '10' Tanashi Branch */ INC-ENGY-LAB-RANGE=<1200MEV; BEAM-INTNSTY=XMA'11'; /* '11' 1e+09 to 1e+10 equivalent quanta per second */ POL-PRJ=0%; ION-SOURCE=/ Bremsstrahlung (By internal target of Pt with 0.05 mm thickness) /; COINC=NO; ANT-COINC=NO; /* Experimental Method: - Activation (Irradiated for 0.5-8 hours, typically 4 hours) - Stacked target irradiation (Stacked by sandwiching with Al plates) */ /* Authors give yield with unit of [micro-barn/equivalent quantum]. */ /* Energy repetition in some data tables are from more than one mesurements. */ /* Contributions from the secondary reactions were assumed to be negligible by authors. */ \\DATA,1[131; TOT-ERR=X%'12'; /* '12' Uncertainty in beam-intensity calibration is not included in tabulated errors. */ SYS-ERR=15%'13'; /* '13' Unertainty in beam-intensity calibration in bremsstrahlung irradiation */ \\EXP,1; RCT=B(GAMMA,X)7BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=500MG/CM**2'14'; /* '14' Typical thickness */ DET-PARTCL=GAMMA'15'; /* '15' Delayed gamma from 7Be */ DET-SYS=HPGE'16'; /* '16' To perform Gamma-ray spectrometry */ \\DATA,1; SYS-ERR=7%'17'; /* '17' Uncertainty in detector efficiency */ ENGY-GAMMA=477.6KEV'18'; INTNSTY-GAMMA=0.1052'18'; HALF-LIFE=53.29DAY'18'; /* '18' Delayed gamma from 7Be */ \DATA; INC-ENGY-LAB-MAX SIGMA'19' DELTA-SIGMA'19' (MEV) (UB) (UB) 1000 376 +-69 850 268 +-48 700 298 +-75 600 337 +-62 475 222 +-45 400 285 +-59 325 243 +-65 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '19' Independent cross section */ \\EXP,2; RCT=C(GAMMA,X)7BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=300MG/CM**2'20'; /* '20' Typical thickness */ DET-PARTCL=GAMMA'21'; /* '21' Delayed gamma from 7Be */ DET-SYS=HPGE'22'; /* '22' To perform Gamma-ray spectrometry */ \\DATA,2; SYS-ERR=7%'23'; /* '23' Uncertainty in detector efficiency */ ENGY-GAMMA=477.6KEV'24'; INTNSTY-GAMMA=0.1052'24'; HALF-LIFE=53.29DAY'24'; /* '24' Delayed gamma from 7Be */ \DATA; INC-ENGY-LAB-MAX SIGMA'25' DELTA-SIGMA'25' (MEV) (UB) (UB) 1000 639 +-84 1000 732 +-76 700 644 +-66 600 570 +-110 550 596 +-65 450 627 +-69 400 590 +-110 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '25' Independent cross section */ \\EXP,3; RCT=O(GAMMA,X)7BE; CHM=X'26'; /* '26' H2O */ PHYS-FORM=LIQD; THK-TGT=1000MG/CM**2'27'; /* '27' Typical thickness */ DET-PARTCL=GAMMA'28'; /* '28' Delayed gamma from 7Be */ DET-SYS=HPGE'29'; /* '29' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,3; SYS-ERR=7%'30'; /* '30' Uncertainty in detector efficiency */ ENGY-GAMMA=477.6KEV'31'; INTNSTY-GAMMA=0.1052'31'; HALF-LIFE=53.29DAY'31'; /* '31' Delayed gamma from 7Be */ \DATA; INC-ENGY-LAB-MAX SIGMA'32' DELTA-SIGMA'32' (MEV) (UB) (UB) 1000 378 +-38 850 315 +-34 700 290 +-30 600 295 +-31 475 244 +-25 400 229 +-26 325 169 +-18 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '32' Independent cross section */ \\EXP,4; RCT=23NA(GAMMA,X)7BE; CHM=X'33'; /* '33' NaCl */ PHYS-FORM=SLD; THK-TGT=1000MG/CM**2'34'; /* '34' Typical thickness */ DET-PARTCL=GAMMA'35'; /* '35' Delayed gamma from 7Be */ DET-SYS=HPGE'36'; /* '36' To perform Gamma-ray spectrometry */ \\DATA,4; SYS-ERR=7%'37'; /* '37' Uncertainty in detector efficiency */ ENGY-GAMMA=477.6KEV'38'; INTNSTY-GAMMA=0.1052'38'; HALF-LIFE=53.29DAY'38'; /* '38' Delayed gamma from 7Be */ \DATA; INC-ENGY-LAB-MAX SIGMA'39' DELTA-SIGMA'39' (MEV) (UB) (UB) 1000 174 +-21 700 102 +-14 550 127 +-15 450 83 +-11 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '39' Independent cross section : Measured with NaCl target (Contribution of Cl is subtracted.) */ \\EXP,5; RCT=27AL(GAMMA,X)7BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=270MG/CM**2'40'; /* '40' Typical thickness */ DET-PARTCL=GAMMA'41'; /* '41' Delayed gamma from 7Be */ DET-SYS=HPGE'42'; /* '42' To perform Gamma-ray spectrometry */ \\DATA,5; SYS-ERR=7%'43'; /* '43' Uncertainty in detector efficiency */ ENGY-GAMMA=477.6KEV'44'; INTNSTY-GAMMA=0.1052'44'; HALF-LIFE=53.29DAY'44'; /* '44' Delayed gamma from 7Be */ \DATA; INC-ENGY-LAB-MAX SIGMA'45' DELTA-SIGMA'45' (MEV) (UB) (UB) 1100 131 +-16 1000 153 +-16 1000 133 +-14 1000 172 +-18 950 113 +-14 950 116 +-15 950 142 +-18 900 119 +-13 850 118 +-13 850 119 +-12 800 106 +-13 800 96 +-13 750 126 +-23 700 130 +-17 700 121 +-16 700 123 +-17 700 109 +-14 650 79 +-11 600 108 +-12 600 108 +-12 600 90.8 +-9.9 550 73.8 +-8.6 550 77 +-10 550 97 +-11 500 72 +-13 500 70.5 +-7.7 475 66.7 +-8.5 475 80.2 +-9.0 450 77 +-13 450 81 +-10 400 65.1 +-9.2 400 67 +-11 400 58.0 +-8.5 400 57.2 +-8.5 400 68.2 +-9.4 350 43.8 +-6.5 350 43.3 +-5.5 300 43.5 +-6.4 250 18.2 +-4.0 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '45' Independent cross section */ \\EXP,6; RCT=SI(GAMMA,X)7BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=300MG/CM**2'46'; /* '46' Typical thickness */ DET-PARTCL=GAMMA'47'; /* '47' Delayed gamma from 7Be */ DET-SYS=HPGE'48'; /* '48' To perform Gamma-ray spectrometry */ \\DATA,6; SYS-ERR=7%'49'; /* '49' Uncertainty in detector efficiency */ ENGY-GAMMA=477.6KEV'50'; INTNSTY-GAMMA=0.1052'50'; HALF-LIFE=53.29DAY'50'; /* '50' Delayed gamma from 7Be */ \DATA; INC-ENGY-LAB-MAX SIGMA'51' DELTA-SIGMA'51' (MEV) (UB) (UB) 1000 195 +-21 1000 176 +-20 1000 227 +-24 750 136 +-16 700 118 +-13 700 121 +-16 700 152 +-16 600 121 +-16 550 132 +-14 500 90 +-11 450 101 +-11 400 76.4 +-8.6 320 34.0 +-8.1 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '51' Independent cross section */ \\EXP,7; RCT=S(GAMMA,X)7BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=1000MG/CM**2'52'; /* '52' Typical thickness */ DET-PARTCL=GAMMA'53'; /* '53' Delayed gamma from 7Be */ DET-SYS=HPGE'54'; /* '54' To perform Gamma-ray spectrometry */ \\DATA,7; SYS-ERR=7%'55'; /* '55' Uncertainty in detector efficiency */ ENGY-GAMMA=477.6KEV'56'; INTNSTY-GAMMA=0.1052'56'; HALF-LIFE=53.29DAY'56'; /* '56' Delayed gamma from 7Be */ \DATA; INC-ENGY-LAB-MAX SIGMA'57' DELTA-SIGMA'57' (MEV) (UB) (UB) 1000 160 +-16 700 109 +-12 550 99 +-11 450 73.0 +-8.2 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '57' Independent cross section */ \\EXP,8; RCT=CL(GAMMA,X)7BE; CHM=X'58'; /* '58' FeCl3 */ PHYS-FORM=SLD; THK-TGT=1000MG/CM**2'59'; /* '59' Typical thickness */ DET-PARTCL=GAMMA'60'; /* '60' Delayed gamma from 7Be */ DET-SYS=HPGE'61'; /* '61' To perform Gamma-ray spectrometry */ \\DATA,8; SYS-ERR=7%'62'; /* '62' Uncertainty in detector efficiency */ ENGY-GAMMA=477.6KEV'63'; INTNSTY-GAMMA=0.1052'63'; HALF-LIFE=53.29DAY'63'; /* '63' Delayed gamma from 7Be */ \DATA; INC-ENGY-LAB-MAX SIGMA'64' DELTA-SIGMA'64' (MEV) (UB) (UB) 1000 113 +-13 700 82.3 +-9.9 550 61.1 +-7.3 450 51.1 +-7.1 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '64' Independent cross section : Measured with FeCl3 target (Contribution of Fe is subtracted.) */ \\EXP,9; RCT=FE(GAMMA,X)7BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=900MG/CM**2'65'; /* '65' Typical thickness */ DET-PARTCL=GAMMA'66'; /* '66' Delayed gamma from 7Be */ DET-SYS=HPGE'67'; /* '67' To perform Gamma-ray spectrometry */ \\DATA,9; SYS-ERR=7%'68'; /* '68' Uncertainty in detector efficiency */ ENGY-GAMMA=477.6KEV'69'; INTNSTY-GAMMA=0.1052'69'; HALF-LIFE=53.29DAY'69'; /* '69' Delayed gamma from 7Be */ \DATA; INC-ENGY-LAB-MAX SIGMA'70' DELTA-SIGMA'70' (MEV) (UB) (UB) 1000 72.4 +-9.5 1000 74 +-16 1000 84.2 +-9.6 900 67 +-15 850 43.4 +-6.2 850 52.1 +-6.7 700 37.5 +-9.5 700 42.2 +-6.0 600 19.3 +-6.1 550 39 +-14 550 46.6 +-6.3 475 18.9 +-6.8 450 33.7 +-5.3 400 21.1 +-6.0 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '70' Independent cross section */ \\EXP,10; RCT=59CO(GAMMA,X)7BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=1000MG/CM**2'71'; /* '71' Typical thickness */ DET-PARTCL=GAMMA'72'; /* '72' Delayed gamma from 7Be */ DET-SYS=HPGE'73'; /* '73' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,10; SYS-ERR=7%'74'; /* '74' Uncertainty in detector efficiency */ ENGY-GAMMA=477.6KEV'75'; INTNSTY-GAMMA=0.1052'75'; HALF-LIFE=53.29DAY'75'; /* '75' Delayed gamma from 7Be */ \DATA; INC-ENGY-LAB-MAX SIGMA'76' DELTA-SIGMA'76' (MEV) (UB) (UB) 1000 73.5 +-9.7 850 57.2 +-8.6 600 43.6 +-9.5 475 33.7 +-8.5 400 42 +-12 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '76' Independent cross section */ \\EXP,11; RCT=CU(GAMMA,X)7BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=400[1200MG/CM**2'77'; /* '77' Typical thickness */ DET-PARTCL=GAMMA'78'; /* '78' Delayed gamma from 7Be */ DET-SYS=HPGE'79'; /* '79' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation (Nondestructive measurement was also done) */ \\DATA,11; SYS-ERR=7%'80'; /* '80' Uncertainty in detector efficiency */ ENGY-GAMMA=477.6KEV'81'; INTNSTY-GAMMA=0.1052'81'; HALF-LIFE=53.29DAY'81'; /* '81' Delayed gamma from 7Be */ \DATA; INC-ENGY-LAB-MAX SIGMA'82' DELTA-SIGMA'82' (MEV) (UB) (UB) 1100 69 +-15 1000 52.0 +-8.8 1000 50.1 +-6.2 1000 43 +-19 900 35.6 +-5.2 850 43.1 +-5.8 800 41.6 +-6.8 800 47.0 +-6.0 700 28.2 +-7.7 700 41 +-13 700 37.5 +-9.0 600 27.2 +-5.6 600 32 +-10 600 28.7 +-6.9 600 27 +-11 550 21.3 +-5.7 475 31.2 +-5.9 475 20.3 +-6.0 400 14.8 +-4.4 400 13.6 +-2.9 400 12.1 +-2.4 315 11.0 +-8.4 300 10.9 +-6.0 250 9.6 +-4.4 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '82' Independent cross section */ \\EXP,12; RCT=89Y(GAMMA,X)7BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=900MG/CM**2'83'; /* '83' Typical thickness */ DET-PARTCL=GAMMA'84'; /* '84' Delayed gamma from 7Be */ DET-SYS=HPGE'85'; /* '85' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,12; SYS-ERR=7%'86'; /* '86' Uncertainty in detector efficiency */ ENGY-GAMMA=477.6KEV'87'; INTNSTY-GAMMA=0.1052'87'; HALF-LIFE=53.29DAY'87'; /* '87' Delayed gamma from 7Be */ \DATA; INC-ENGY-LAB-MAX SIGMA'88' DELTA-SIGMA'88' (MEV) (UB) (UB) 1000 46.9 +-5.4 950 71 +-10 900 56.0 +-8.3 800 49.1 +-5.7 700 46.1 +-7.8 650 32.8 +-5.0 550 38.1 +-4.5 500 33.8 +-5.0 450 31.6 +-3.6 400 23.8 +-3.5 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '88' Independent cross section */ \\EXP,13; RCT=AG(GAMMA,X)7BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'89'; /* '89' Typical thickness */ DET-PARTCL=GAMMA'90'; /* '90' Delayed gamma from 7Be */ DET-SYS=HPGE'91'; /* '91' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,13; SYS-ERR=7%'92'; /* '92' Uncertainty in detector efficiency */ ENGY-GAMMA=477.6KEV'93'; INTNSTY-GAMMA=0.1052'93'; HALF-LIFE=53.29DAY'93'; /* '93' Delayed gamma from 7Be */ \DATA; INC-ENGY-LAB-MAX SIGMA'94' DELTA-SIGMA'94' (MEV) (UB) (UB) 1100 29.3 +-3.1 1000 37.4 +-4.0 1000 34.3 +-3.6 950 44.0 +-5.1 900 29.4 +-3.5 850 32.9 +-4.7 800 27.9 +-3.5 700 22.8 +-6.7 700 20.9 +-2.6 700 25.9 +-2.8 650 17.7 +-2.9 600 19.5 +-2.7 550 16.4 +-2.3 475 11.3 +-3.7 400 13.1 +-2.6 400 9.1 +-1.5 350 2.5 +-2.1 325 10.9 +-5.7 250 3.9 +-3.0 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '94' Independent cross section */ \\EXP,14; RCT=IN(GAMMA,X)7BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'95'; /* '95' Typical thickness */ DET-PARTCL=GAMMA'96'; /* '96' Delayed gamma from 7Be */ DET-SYS=HPGE'97'; /* '97' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,14; SYS-ERR=7%'98'; /* '98' Uncertainty in detector efficiency */ ENGY-GAMMA=477.6KEV'99'; INTNSTY-GAMMA=0.1052'99'; HALF-LIFE=53.29DAY'99'; /* '99' Delayed gamma from 7Be */ \DATA; INC-ENGY-LAB-MAX SIGMA'100' DELTA-SIGMA'100' (MEV) (UB) (UB) 1000 22.6 +-2.6 1000 35.5 +-3.9 950 32.9 +-3.9 900 23.8 +-3.0 800 20.0 +-2.5 700 18.0 +-2.0 500 8.3 +-1.1 400 11.0 +-1.5 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '100' Independent cross section */ \\EXP,15; RCT=141PR(GAMMA,X)7BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=1400MG/CM**2'101'; /* '101' Typical thickness */ DET-PARTCL=GAMMA'102'; /* '102' Delayed gamma from 7Be */ DET-SYS=HPGE'103'; /* '103' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,15; SYS-ERR=7%'104'; /* '104' Uncertainty in detector efficiency */ ENGY-GAMMA=477.6KEV'105'; INTNSTY-GAMMA=0.1052'105'; HALF-LIFE=53.29DAY'105'; /* '105' Delayed gamma from 7Be */ \DATA; INC-ENGY-LAB-MAX SIGMA'106' DELTA-SIGMA'106' (MEV) (UB) (UB) 1000 24.5 +-3.7 950 29.3 +-8.5 900 17.5 +-3.5 800 20.2 +-3.2 700 22.4 +-5.5 650 14.5 +-3.2 550 19.5 +-2.3 500 12.8 +-2.2 450 15.1 +-2.2 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '106' Independent cross section */ \\EXP,16; RCT=159TB(GAMMA,X)7BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=1700MG/CM**2'107'; /* '107' Typical thickness */ DET-PARTCL=GAMMA'108'; /* '108' Delayed gamma from 7Be */ DET-SYS=HPGE'109'; /* '109' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,16; SYS-ERR=7%'110'; /* '110' Uncertainty in detector efficiency */ ENGY-GAMMA=477.6KEV'111'; INTNSTY-GAMMA=0.1052'111'; HALF-LIFE=53.29DAY'111'; /* '111' Delayed gamma from 7Be */ \DATA; INC-ENGY-LAB-MAX SIGMA'112' DELTA-SIGMA'112' (MEV) (UB) (UB) 1000 30.8 +-3.5 950 36.0 +-5.7 700 19.8 +-2.5 600 18.9 +-2.6 500 11.0 +-1.9 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '112' Independent cross section */ \\EXP,17; RCT=165HO(GAMMA,X)7BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=1900MG/CM**2'113'; /* '113' Typical thickness */ DET-PARTCL=GAMMA'114'; /* '114' Delayed gamma from 7Be */ DET-SYS=HPGE'115'; /* '115' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,17; SYS-ERR=7%'116'; /* '116' Uncertainty in detector efficiency */ ENGY-GAMMA=477.6KEV'117'; INTNSTY-GAMMA=0.1052'117'; HALF-LIFE=53.29DAY'117'; /* '117' Delayed gamma from 7Be */ \DATA; INC-ENGY-LAB-MAX SIGMA'118' DELTA-SIGMA'118' (MEV) (UB) (UB) 1000 27.8 +-3.3 950 35 +-12 900 25.4 +-3.7 850 29.4 +-4.4 800 31.5 +-4.2 700 24.5 +-5.2 650 20.3 +-3.6 550 33.9 +-3.8 500 22.7 +-4.1 450 30.5 +-3.4 400 11.0 +-1.8 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '118' Independent cross section */ \\EXP,18; RCT=197AU(GAMMA,X)7BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=3000MG/CM**2'119'; /* '119' Typical thickness */ DET-PARTCL=GAMMA'120'; /* '120' Delayed gamma from 7Be */ DET-SYS=HPGE'121'; /* '121' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,18; SYS-ERR=7%'122'; /* '122' Uncertainty in detector efficiency */ ENGY-GAMMA=477.6KEV'123'; INTNSTY-GAMMA=0.1052'123'; HALF-LIFE=53.29DAY'123'; /* '123' Delayed gamma from 7Be */ \DATA; INC-ENGY-LAB-MAX SIGMA'124' DELTA-SIGMA'124' (MEV) (UB) (UB) 1100 16.1 +-1.9 1000 12.1 +-1.4 950 12.3 +-1.8 900 6.9 +-1.6 800 8.0 +-1.8 700 7.9 +-3.2 650 8.6 +-2.5 550 6.0 +-0.8 500 4.9 +-0.7 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '124' Independent cross section */ \\EXP,19; RCT=O(GAMMA,X)10BE; CHM=X'125'; /* '125' H2O */ PHYS-FORM=LIQD; THK-TGT=1000MG/CM**2'126'; /* '126' Typical thickness */ ACC=X'127'; /* '127' Accelerator, Used for accelerator mass spectrometry */ INST-ACC=2JPNTOK'128'; /* '128' Research Center for Nuclear Science and Technology, Univ. of Tokyo */ DET-PARTCL=10BE; DET-SYS=SBD'129'; /* '129' Used in accelerator mass spectroscopy */ \\DATA,19; SYS-ERR=(1%'130',3%'131'); /* '130' Uncertainty in amount of beryllium carrier added */ /* '131' Uncertainty in measurement of standard sample */ \DATA; INC-ENGY-LAB-MAX SIGMA'132' DELTA-SIGMA'132' (MEV) (UB) (UB) 1000 89.3 +-8.8 850 69.7 +-6.5 700 56.0 +-6.3 600 62.1 +-6.9 475 49.0 +-5.0 400 41.9 +-7.5 325 33.8 +-4.9 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '132' Independent cross section */ \\EXP,20; RCT=S(GAMMA,X)10BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=1000MG/CM**2'133'; /* '133' Typical thickness */ ACC=X'134'; /* '134' Accelerator, Used for accelerator mass spectrometry */ INST-ACC=2JPNTOK'135'; /* '135' Research Center for Nuclear Science and Technology, Univ. of Tokyo */ DET-PARTCL=10BE; DET-SYS=SBD'136'; /* '136' Used in accelerator mass spectroscopy */ \\DATA,20; SYS-ERR=(1%'137',3%'138'); /* '137' Uncertainty in amount of beryllium carrier added */ /* '138' Uncertainty in measurement of standard sample */ \DATA; INC-ENGY-LAB-MAX SIGMA'139' DELTA-SIGMA'139' (MEV) (UB) (UB) 1000 19.2 +-1.5 700 14.2 +-1.3 550 9.5 +-0.9 450 7.7 +-0.8 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '139' Independent cross section */ \\EXP,21; RCT=FE(GAMMA,X)10BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=900MG/CM**2'140'; /* '140' Typical thickness */ ACC=X'141'; /* '141' Accelerator, Used for accelerator mass spectrometry */ INST-ACC=2JPNTOK'142'; /* '142' Research Center for Nuclear Science and Technology, Univ. of Tokyo */ DET-PARTCL=10BE; DET-SYS=SBD'143'; /* '143' Used in accelerator mass spectroscopy */ \\DATA,21; SYS-ERR=(1%'144',3%'145'); /* '144' Uncertainty in amount of beryllium carrier added */ /* '145' Uncertainty in measurement of standard sample */ \DATA; INC-ENGY-LAB-MAX SIGMA'146' DELTA-SIGMA'146' (MEV) (UB) (UB) 1000 17 +-2 900 16 +-2 850 13 +-1 850 11.1 +-1.3 700 10 +-4 600 7.4 +-2.4 550 6.5 +-1.0 475 6 +-1 400 5.9 +-2.1 350 10 +-6 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '146' Independent cross section */ \\EXP,22; RCT=59CO(GAMMA,X)10BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=1000MG/CM**2'147'; /* '147' Typical thickness */ ACC=X'148'; /* '148' Accelerator, Used for accelerator mass spectrometry */ INST-ACC=2JPNTOK'149'; /* '149' Research Center for Nuclear Science and Technology, Univ. of Tokyo */ DET-PARTCL=10BE; DET-SYS=SBD'150'; /* '150' Used in accelerator mass spectroscopy */ \\DATA,22; SYS-ERR=(1%'151',3%'152'); /* '151' Uncertainty in amount of beryllium carrier added */ /* '152' Uncertainty in measurement of standard sample */ \DATA; INC-ENGY-LAB-MAX SIGMA'153' DELTA-SIGMA'153' (MEV) (UB) (UB) 475 7.5 +-1.2 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '153' Independent cross section */ \\EXP,23; RCT=CU(GAMMA,X)10BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=400[1200MG/CM**2'154'; /* '154' Typical thickness */ ACC=X'155'; /* '155' Accelerator, Used for accelerator mass spectrometry */ INST-ACC=2JPNTOK'156'; /* '156' Research Center for Nuclear Science and Technology, Univ. of Tokyo */ DET-PARTCL=10BE; DET-SYS=SBD'157'; /* '157' Used in accelerator mass spectroscopy */ \\DATA,23; SYS-ERR=(1%'158',3%'159'); /* '158' Uncertainty in amount of beryllium carrier added */ /* '159' Uncertainty in measurement of standard sample */ \DATA; INC-ENGY-LAB-MAX SIGMA'160' DELTA-SIGMA'160' (MEV) (UB) (UB) 1000 14.6 +-1.8 900 16.0 +-1.5 850 13.3 +-1.2 700 10.7 +-1.3 600 6.0 +-2.4 550 6.8 +-2.7 475 8.8 +-2.4 400 5.2 +-2.9 325 9.3 +-6.2 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '160' Independent cross section */ \\EXP,24; RCT=89Y(GAMMA,X)10BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=900MG/CM**2'161'; /* '161' Typical thickness */ ACC=X'162'; /* '162' Accelerator, Used for accelerator mass spectrometry */ INST-ACC=2JPNTOK'163'; /* '163' Research Center for Nuclear Science and Technology, Univ. of Tokyo */ DET-PARTCL=10BE; DET-SYS=SBD'164'; /* '164' Used in accelerator mass spectroscopy */ \\DATA,24; SYS-ERR=(1%'165',3%'166'); /* '165' Uncertainty in amount of beryllium carrier added */ /* '166' Uncertainty in measurement of standard sample */ \DATA; INC-ENGY-LAB-MAX SIGMA'167' DELTA-SIGMA'167' (MEV) (UB) (UB) 1000 24.3 +-2.7 900 24 +-3 800 19.6 +-2.4 700 18 +-2 650 15.5 +-1.5 500 12.8 +-1.4 400 14 +-5 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '167' Independent cross section */ \\EXP,25; RCT=AG(GAMMA,X)10BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'168'; /* '168' Typical thickness */ ACC=X'169'; /* '169' Accelerator, Used for accelerator mass spectrometry */ INST-ACC=2JPNTOK'170'; /* '170' Research Center for Nuclear Science and Technology, Univ. of Tokyo */ DET-PARTCL=10BE; DET-SYS=SBD'171'; /* '171' Used in accelerator mass spectroscopy */ \\DATA,25; SYS-ERR=(1%'172',3%'173'); /* '172' Uncertainty in amount of beryllium carrier added */ /* '173' Uncertainty in measurement of standard sample */ \DATA; INC-ENGY-LAB-MAX SIGMA'174' DELTA-SIGMA'174' (MEV) (UB) (UB) 1100 17.3 +-1.5 1000 21.8 +-2.1 900 24.0 +-2.5 850 18.0 +-1.8 800 15.8 +-1.5 700 14.3 +-1.7 700 12.1 +-1.5 650 11.0 +-1.2 550 11.2 +-1.5 475 6.9 +-1.6 350 2.2 +-0.7 325 7.7 +-3.8 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '174' Independent cross section */ \\EXP,26; RCT=IN(GAMMA,X)10BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'175'; /* '175' Typical thickness */ ACC=X'176'; /* '176' Accelerator, Used for accelerator mass spectrometry */ INST-ACC=2JPNTOK'177'; /* '177' Research Center for Nuclear Science and Technology, Univ. of Tokyo */ DET-PARTCL=10BE; DET-SYS=SBD'178'; /* '178' Used in accelerator mass spectroscopy */ \\DATA,26; SYS-ERR=(1%'179',3%'180'); /* '179' Uncertainty in amount of beryllium carrier added */ /* '180' Uncertainty in measurement of standard sample */ \DATA; INC-ENGY-LAB-MAX SIGMA'181' DELTA-SIGMA'181' (MEV) (UB) (UB) 1000 24.1 +-2.2 1000 27.8 +-2.6 950 26.1 +-2.4 900 24.1 +-2.1 800 18.1 +-1.6 700 14.0 +-1.2 500 8.4 +-0.9 400 3.8 +-2.4 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '181' Independent cross section */ \\EXP,27; RCT=141PR(GAMMA,X)10BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=1400MG/CM**2'182'; /* '182' Typical thickness */ ACC=X'183'; /* '183' Accelerator, Used for accelerator mass spectrometry */ INST-ACC=2JPNTOK'184'; /* '184' Research Center for Nuclear Science and Technology, Univ. of Tokyo */ DET-PARTCL=10BE; DET-SYS=SBD'185'; /* '185' Used in accelerator mass spectroscopy */ \\DATA,27; SYS-ERR=(1%'186',3%'187'); /* '186' Uncertainty in amount of beryllium carrier added */ /* '187' Uncertainty in measurement of standard sample */ \DATA; INC-ENGY-LAB-MAX SIGMA'188' DELTA-SIGMA'188' (MEV) (UB) (UB) 1000 28.6 +-3.2 900 27.7 +-3.1 800 20.0 +-1.8 700 21 +-3 650 14.6 +-2.1 550 14.6 +-1.5 500 12.3 +-1.7 450 17.5 +-2.6 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '188' Independent cross section */ \\EXP,28; RCT=159TB(GAMMA,X)10BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=1700MG/CM**2'189'; /* '189' Typical thickness */ ACC=X'190'; /* '190' Accelerator, Used for accelerator mass spectrometry */ INST-ACC=2JPNTOK'191'; /* '191' Research Center for Nuclear Science and Technology, Univ. of Tokyo */ DET-PARTCL=10BE; DET-SYS=SBD'192'; /* '192' Used in accelerator mass spectroscopy */ \\DATA,28; SYS-ERR=(1%'193',3%'194'); /* '193' Uncertainty in amount of beryllium carrier added */ /* '194' Uncertainty in measurement of standard sample */ \DATA; INC-ENGY-LAB-MAX SIGMA'195' DELTA-SIGMA'195' (MEV) (UB) (UB) 1000 38.1 +-4.2 700 19.0 +-2.9 600 24.5 +-3.1 500 13.1 +-1.9 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '195' Independent cross section */ \\EXP,29; RCT=165HO(GAMMA,X)10BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=1900MG/CM**2'196'; /* '196' Typical thickness */ ACC=X'197'; /* '197' Accelerator, Used for accelerator mass spectrometry */ INST-ACC=2JPNTOK'198'; /* '198' Research Center for Nuclear Science and Technology, Univ. of Tokyo */ DET-PARTCL=10BE; DET-SYS=SBD'199'; /* '199' Used in accelerator mass spectroscopy */ \\DATA,29; SYS-ERR=(1%'200',3%'201'); /* '200' Uncertainty in amount of beryllium carrier added */ /* '201' Uncertainty in measurement of standard sample */ \DATA; INC-ENGY-LAB-MAX SIGMA'202' DELTA-SIGMA'202' (MEV) (UB) (UB) 1000 44.4 +-4.4 900 36.8 +-4.2 850 27.2 +-2.7 800 28.4 +-2.4 700 27.3 +-4.1 650 18.0 +-1.9 400 17.0 +-3.5 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '202' Independent cross section */ \\EXP,30; RCT=197AU(GAMMA,X)10BE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=3000MG/CM**2'203'; /* '203' Typical thickness */ ACC=X'204'; /* '204' Accelerator, Used for accelerator mass spectrometry */ INST-ACC=2JPNTOK'205'; /* '205' Research Center for Nuclear Science and Technology, Univ. of Tokyo */ DET-PARTCL=10BE; DET-SYS=SBD'206'; /* '206' Used in accelerator mass spectroscopy */ \\DATA,30; SYS-ERR=(1%'207',3%'208'); /* '207' Uncertainty in amount of beryllium carrier added */ /* '208' Uncertainty in measurement of standard sample */ \DATA; INC-ENGY-LAB-MAX SIGMA'209' DELTA-SIGMA'209' (MEV) (UB) (UB) 1100 40.3 +-3.5 950 21.3 +-2.2 900 28.4 +-3.2 800 23.1 +-2.0 700 25.1 +-3.8 650 15.0 +-1.5 550 13.6 +-1.6 500 17.2 +-1.5 400 7.9 +-4.8 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '209' Independent cross section */ \\EXP,31; RCT=23NA(GAMMA,X)22NA; CHM=X'210'; /* '210' NaCl */ PHYS-FORM=SLD; THK-TGT=1000MG/CM**2'211'; /* '211' Typical thickness */ DET-PARTCL=GAMMA'212'; /* '212' Delayed gamma from 22Na */ DET-SYS=HPGE'213'; /* '213' To perform Gamma-ray spectrometry */ \\DATA,31; SYS-ERR=7%'214'; /* '214' Uncertainty in detector efficiency */ ENGY-GAMMA=1274.5KEV'215'; INTNSTY-GAMMA=0.99944'215'; HALF-LIFE=2.6019YEAR'215'; /* '215' Delayed gamma from 22Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'216' DELTA-SIGMA'216' (MEV) (UB) (UB) 1000 5430 +-390 700 4500 +-320 550 4210 +-380 450 5260 +-380 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '216' Cumulative cross section : Measured with NaCl target (Contribution of Cl is subtracted.) */ \\EXP,32; RCT=27AL(GAMMA,X)22NA; CHM=ELM; PHYS-FORM=SLD; THK-TGT=270MG/CM**2'217'; /* '217' Typical thickness */ DET-PARTCL=GAMMA'218'; /* '218' Delayed gamma from 22Na */ DET-SYS=HPGE'219'; /* '219' To perform Gamma-ray spectrometry */ \\DATA,32; SYS-ERR=7%'220'; /* '220' Uncertainty in detector efficiency */ ENGY-GAMMA=1274.5KEV'221'; INTNSTY-GAMMA=0.99944'221'; HALF-LIFE=2.6019YEAR'221'; /* '221' Delayed gamma from 22Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'222' DELTA-SIGMA'222' (MEV) (UB) (UB) 1000 804 +-65 1000 837 +-68 900 707 +-52 900 655 +-60 850 697 +-57 850 717 +-58 825 730 +-55 700 844 +-69 700 734 +-62 700 600 +-54 600 778 +-64 600 725 +-59 550 571 +-42 525 687 +-57 475 596 +-48 475 596 +-45 450 548 +-49 425 612 +-50 400 691 +-57 400 679 +-56 280 406 +-34 275 427 +-49 250 366 +-44 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '222' Cumulative cross section */ \\EXP,33; RCT=SI(GAMMA,X)22NA; CHM=ELM; PHYS-FORM=SLD; THK-TGT=300MG/CM**2'223'; /* '223' Typical thickness */ DET-PARTCL=GAMMA'224'; /* '224' Delayed gamma from 22Na */ DET-SYS=HPGE'225'; /* '225' To perform Gamma-ray spectrometry */ \\DATA,33; SYS-ERR=7%'226'; /* '226' Uncertainty in detector efficiency */ ENGY-GAMMA=1274.5KEV'227'; INTNSTY-GAMMA=0.99944'227'; HALF-LIFE=2.6019YEAR'227'; /* '227' Delayed gamma from 22Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'228' DELTA-SIGMA'228' (MEV) (UB) (UB) 1000 884 +-76 1000 992 +-86 1000 606 +-46 750 750 +-140 700 714 +-79 700 752 +-98 600 691 +-67 550 462 +-36 500 720 +-150 450 413 +-33 400 508 +-48 320 360 +-30 250 264 +-60 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '228' Cumulative cross section */ \\EXP,34; RCT=S(GAMMA,X)22NA; CHM=ELM; PHYS-FORM=SLD; THK-TGT=1000MG/CM**2'229'; /* '229' Typical thickness */ DET-PARTCL=GAMMA'230'; /* '230' Delayed gamma from 22Na */ DET-SYS=HPGE'231'; /* '231' To perform Gamma-ray spectrometry */ \\DATA,34; SYS-ERR=7%'232'; /* '232' Uncertainty in detector efficiency */ ENGY-GAMMA=1274.5KEV'233'; INTNSTY-GAMMA=0.99944'233'; HALF-LIFE=2.6019YEAR'233'; /* '233' Delayed gamma from 22Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'234' DELTA-SIGMA'234' (MEV) (UB) (UB) 1000 306 +-23 700 231 +-18 550 227 +-17 450 196 +-16 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '234' Cumulative cross section */ \\EXP,35; RCT=CL(GAMMA,X)22NA; CHM=X'235'; /* '235' FeCl3, CuCl2 */ PHYS-FORM=SLD; THK-TGT=1000MG/CM**2'236'; /* '236' Typical thickness */ DET-PARTCL=GAMMA'237'; /* '237' Delayed gamma from 22Na */ DET-SYS=HPGE'238'; /* '238' To perform Gamma-ray spectrometry */ \\DATA,35; SYS-ERR=7%'239'; /* '239' Uncertainty in detector efficiency */ ENGY-GAMMA=1274.5KEV'240'; INTNSTY-GAMMA=0.99944'240'; HALF-LIFE=2.6019YEAR'240'; /* '240' Delayed gamma from 22Na */ \DATA; INC-ENGY-LAB-MAX SIGMA',241' DELTA-SIGMA'' SIGMA',242' DELTA-SIGMA'' (MEV) (UB) (UB) (UB) (UB) 1000 143 +-11 165 +-13 900 X +-X 144 +-16 800 X +-X 157 +-20 700 101 +-8 X +-X 600 X +-X 142 +-17 550 97 +-8 95 +-12 500 X +-X 85 +-9 450 69 +-6 X +-X 400 X +-X 66 +-8 365 X +-X 70 +-11 315 X +-X 34 +-14 250 X +-X 12.9 +-1.1 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '241' Cumulative cross section : Measured with FeCl3 target (Contribution of Fe is subtracted.) */ /* '242' Cumulative cross section : Measured with CuCl2 target (Contribution of Cu is subtracted.) */ \\EXP,36; RCT=CA(GAMMA,X)22NA; CHM=X'243'; /* '243' CaCO3 */ PHYS-FORM=SLD; THK-TGT=800MG/CM**2'244'; /* '244' Typical thickness */ DET-PARTCL=GAMMA'245'; /* '245' Delayed gamma from 22Na */ DET-SYS=HPGE'246'; /* '246' To perform Gamma-ray spectrometry */ \\DATA,36; SYS-ERR=7%'247'; /* '247' Uncertainty in detector efficiency */ ENGY-GAMMA=1274.5KEV'248'; INTNSTY-GAMMA=0.99944'248'; HALF-LIFE=2.6019YEAR'248'; /* '248' Delayed gamma from 22Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'249' DELTA-SIGMA'249' (MEV) (UB) (UB) 1200 146 +-17 950 101 +-10 950 119 +-16 900 117 +-12 750 85 +-29 750 89 +-18 650 79 +-9 550 60 +-11 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '249' Cumulative cross section */ \\EXP,37; RCT=V(GAMMA,X)22NA; CHM=X'250'; /* '250' V2O5 */ PHYS-FORM=SLD; THK-TGT=800MG/CM**2'251'; /* '251' Typical thickness */ DET-PARTCL=GAMMA'252'; /* '252' Delayed gamma from 22Na */ DET-SYS=HPGE'253'; /* '253' To perform Gamma-ray spectrometry */ \\DATA,37; SYS-ERR=7%'254'; /* '254' Uncertainty in detector efficiency */ ENGY-GAMMA=1274.5KEV'255'; INTNSTY-GAMMA=0.99944'255'; HALF-LIFE=2.6019YEAR'255'; /* '255' Delayed gamma from 22Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'256' DELTA-SIGMA'256' (MEV) (UB) (UB) 1000 13.7 +-3.3 850 11.3 +-4.3 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '256' Cumulative cross section */ \\EXP,38; RCT=55MN(GAMMA,X)22NA; CHM=X'257'; /* '257' MnO */ PHYS-FORM=SLD; THK-TGT=800MG/CM**2'258'; /* '258' Typical thickness */ DET-PARTCL=GAMMA'259'; /* '259' Delayed gamma from 22Na */ DET-SYS=HPGE'260'; /* '260' To perform Gamma-ray spectrometry */ \\DATA,38; SYS-ERR=7%'261'; /* '261' Uncertainty in detector efficiency */ ENGY-GAMMA=1274.5KEV'262'; INTNSTY-GAMMA=0.99944'262'; HALF-LIFE=2.6019YEAR'262'; /* '262' Delayed gamma from 22Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'263' DELTA-SIGMA'263' (MEV) (UB) (UB) 1000 11.7 +-2.5 1000 9.9 +-1.7 700 5.7 +-1.0 600 6.4 +-3.9 550 1.58 +-0.52 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '263' Cumulative cross section */ \\EXP,39; RCT=FE(GAMMA,X)22NA; CHM=ELM; PHYS-FORM=SLD; THK-TGT=900MG/CM**2'264'; /* '264' Typical thickness */ DET-PARTCL=GAMMA'265'; /* '265' Delayed gamma from 22Na */ DET-SYS=HPGE'266'; /* '266' To perform Gamma-ray spectrometry */ \\DATA,39; SYS-ERR=7%'267'; /* '267' Uncertainty in detector efficiency */ ENGY-GAMMA=1274.5KEV'268'; INTNSTY-GAMMA=0.99944'268'; HALF-LIFE=2.6019YEAR'268'; /* '268' Delayed gamma from 22Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'269' DELTA-SIGMA'269' (MEV) (UB) (UB) 1000 7.3 +-2.5 1000 7.1 +-1.5 850 6.5 +-1.6 850 6.9 +-1.9 700 2.8 +-1.1 600 3.5 +-2.8 550 3.2 +-0.7 450 2.3 +-0.6 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '269' Cumulative cross section */ \\EXP,40; RCT=59CO(GAMMA,X)22NA; CHM=ELM; PHYS-FORM=SLD; THK-TGT=1000MG/CM**2'270'; /* '270' Typical thickness */ DET-PARTCL=GAMMA'271'; /* '271' Delayed gamma from 22Na */ DET-SYS=HPGE'272'; /* '272' To perform Gamma-ray spectrometry */ \\DATA,40; SYS-ERR=7%'273'; /* '273' Uncertainty in detector efficiency */ ENGY-GAMMA=1274.5KEV'274'; INTNSTY-GAMMA=0.99944'274'; HALF-LIFE=2.6019YEAR'274'; /* '274' Delayed gamma from 22Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'275' DELTA-SIGMA'275' (MEV) (UB) (UB) 1200 8.8 +-2.6 1000 8.6 +-0.7 1000 11 +-7 900 7.9 +-1.7 850 6.4 +-1.7 850 3.4 +-1.9 825 3.6 +-3.4 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '275' Cumulative cross section */ \\EXP,41; RCT=CU(GAMMA,X)22NA; CHM=ELM; PHYS-FORM=SLD; THK-TGT=400[1200MG/CM**2'276'; /* '276' Typical thickness */ DET-PARTCL=GAMMA'277'; /* '277' Delayed gamma from 22Na */ DET-SYS=HPGE'278'; /* '278' To perform Gamma-ray spectrometry */ \\DATA,41; SYS-ERR=7%'279'; /* '279' Uncertainty in detector efficiency */ ENGY-GAMMA=1274.5KEV'280'; INTNSTY-GAMMA=0.99944'280'; HALF-LIFE=2.6019YEAR'280'; /* '280' Delayed gamma from 22Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'281' DELTA-SIGMA'281' (MEV) (UB) (UB) 1000 5.1 +-2.6 1000 4.5 +-1.4 850 1.6 +-1.3 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '281' Cumulative cross section */ \\EXP,42; RCT=89Y(GAMMA,X)22NA; CHM=X'282'; /* '282' Y2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'283'; /* '283' Typical thickness */ DET-PARTCL=GAMMA'284'; /* '284' Delayed gamma from 22Na */ DET-SYS=HPGE'285'; /* '285' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,42; SYS-ERR=7%'286'; /* '286' Uncertainty in detector efficiency */ ENGY-GAMMA=1274.5KEV'287'; INTNSTY-GAMMA=0.99944'287'; HALF-LIFE=2.6019YEAR'287'; /* '287' Delayed gamma from 22Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'288' DELTA-SIGMA'288' (MEV) (UB) (UB) 1000 1.28 +-0.33 900 1.04 +-0.32 800 0.52 +-0.17 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '288' Cumulative cross section */ \\EXP,43; RCT=AG(GAMMA,X)22NA; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'289'; /* '289' Typical thickness */ DET-PARTCL=GAMMA'290'; /* '290' Delayed gamma from 22Na */ DET-SYS=HPGE'291'; /* '291' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,43; SYS-ERR=7%'292'; /* '292' Uncertainty in detector efficiency */ ENGY-GAMMA=1274.5KEV'293'; INTNSTY-GAMMA=0.99944'293'; HALF-LIFE=2.6019YEAR'293'; /* '293' Delayed gamma from 22Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'294' DELTA-SIGMA'294' (MEV) (UB) (UB) 1000 0.90 +-0.24 900 0.58 +-0.17 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '294' Cumulative cross section */ \\EXP,44; RCT=IN(GAMMA,X)22NA; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'295'; /* '295' Typical thickness */ DET-PARTCL=GAMMA'296'; /* '296' Delayed gamma from 22Na */ DET-SYS=HPGE'297'; /* '297' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,44; SYS-ERR=7%'298'; /* '298' Uncertainty in detector efficiency */ ENGY-GAMMA=1274.5KEV'299'; INTNSTY-GAMMA=0.99944'299'; HALF-LIFE=2.6019YEAR'299'; /* '299' Delayed gamma from 22Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'300' DELTA-SIGMA'300' (MEV) (UB) (UB) 1000 0.53 +-0.18 1000 0.29 +-0.10 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '300' Cumulative cross section */ \\EXP,45; RCT=159TB(GAMMA,X)22NA; CHM=X'301'; /* '301' Tb4O7 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'302'; /* '302' Typical thickness */ DET-PARTCL=GAMMA'303'; /* '303' Delayed gamma from 22Na */ DET-SYS=HPGE'304'; /* '304' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,45; SYS-ERR=7%'305'; /* '305' Uncertainty in detector efficiency */ ENGY-GAMMA=1274.5KEV'306'; INTNSTY-GAMMA=0.99944'306'; HALF-LIFE=2.6019YEAR'306'; /* '306' Delayed gamma from 22Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'307' DELTA-SIGMA'307' (MEV) (UB) (UB) 1000 0.65 +-0.21 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '307' Cumulative cross section */ \\EXP,46; RCT=165HO(GAMMA,X)22NA; CHM=X'308'; /* '308' Ho2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'309'; /* '309' Typical thickness */ DET-PARTCL=GAMMA'310'; /* '310' Delayed gamma from 22Na */ DET-SYS=HPGE'311'; /* '311' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,46; SYS-ERR=7%'312'; /* '312' Uncertainty in detector efficiency */ ENGY-GAMMA=1274.5KEV'313'; INTNSTY-GAMMA=0.99944'313'; HALF-LIFE=2.6019YEAR'313'; /* '313' Delayed gamma from 22Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'314' DELTA-SIGMA'314' (MEV) (UB) (UB) 1000 0.53 +-0.18 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '314' Cumulative cross section */ \\EXP,47; RCT=197AU(GAMMA,X)22NA; CHM=ELM; PHYS-FORM=SLD; THK-TGT=3000MG/CM**2'315'; /* '315' Typical thickness */ DET-PARTCL=GAMMA'316'; /* '316' Delayed gamma from 22Na */ DET-SYS=HPGE'317'; /* '317' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,47; SYS-ERR=7%'318'; /* '318' Uncertainty in detector efficiency */ ENGY-GAMMA=1274.5KEV'319'; INTNSTY-GAMMA=0.99944'319'; HALF-LIFE=2.6019YEAR'319'; /* '319' Delayed gamma from 22Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'320' DELTA-SIGMA'320' (MEV) (UB) (UB) 1100 0.37 +-0.11 1000 0.38 +-0.13 900 0.34 +-0.10 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '320' Cumulative cross section */ \\EXP,48; RCT=SI(GAMMA,X)24NA; CHM=ELM; PHYS-FORM=SLD; THK-TGT=300MG/CM**2'321'; /* '321' Typical thickness */ DET-PARTCL=GAMMA'322'; /* '322' Delayed gamma from 24Na */ DET-SYS=HPGE'323'; /* '323' To perform Gamma-ray spectrometry */ \\DATA,48; SYS-ERR=7%'324'; /* '324' Uncertainty in detector efficiency */ ENGY-GAMMA=(1368.6KEV'325',2754.0KEV'325'); INTNSTY-GAMMA=(1.00,0.99944'325'); HALF-LIFE=14.959HOUR'325'; /* '325' Delayed gamma from 24Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'326' DELTA-SIGMA'326' (MEV) (UB) (UB) 1000 277 +-28 1000 280 +-29 1000 291 +-30 900 265 +-28 900 294 +-30 850 286 +-33 700 237 +-25 700 236 +-26 700 236 +-24 650 233 +-32 650 285 +-49 600 231 +-24 550 239 +-24 500 225 +-24 450 213 +-25 450 207 +-21 450 208 +-22 450 171 +-18 400 176 +-18 320 152 +-17 320 159 +-19 320 146 +-16 320 142 +-24 250 120 +-23 250 110 +-16 250 109 +-16 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '326' Cumulative cross section */ \\EXP,49; RCT=S(GAMMA,X)24NA; CHM=ELM; PHYS-FORM=SLD; THK-TGT=1000MG/CM**2'327'; /* '327' Typical thickness */ DET-PARTCL=GAMMA'328'; /* '328' Delayed gamma from 24Na */ DET-SYS=HPGE'329'; /* '329' To perform Gamma-ray spectrometry */ \\DATA,49; SYS-ERR=7%'330'; /* '330' Uncertainty in detector efficiency */ ENGY-GAMMA=(1368.6KEV'331',2754.0KEV'331'); INTNSTY-GAMMA=(1.00,0.99944'331'); HALF-LIFE=14.959HOUR'331'; /* '331' Delayed gamma from 24Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'332' DELTA-SIGMA'332' (MEV) (UB) (UB) 1000 195 +-20 700 152 +-15 550 144 +-15 450 124 +-13 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '332' Cumulative cross section */ \\EXP,50; RCT=CL(GAMMA,X)24NA; CHM=X'333'; /* '333' FeCl3, CuCl2, SrCl2 */ PHYS-FORM=SLD; THK-TGT=1000MG/CM**2'334'; /* '334' Typical thickness */ DET-PARTCL=GAMMA'335'; /* '335' Delayed gamma from 24Na */ DET-SYS=HPGE'336'; /* '336' To perform Gamma-ray spectrometry */ \\DATA,50; SYS-ERR=7%'337'; /* '337' Uncertainty in detector efficiency */ ENGY-GAMMA=(1368.6KEV'338',2754.0KEV'338'); INTNSTY-GAMMA=(1.00,0.99944'338'); HALF-LIFE=14.959HOUR'338'; /* '338' Delayed gamma from 24Na */ \DATA; INC-ENGY-LAB-MAX SIGMA',339' DELTA-SIGMA'' SIGMA',340' DELTA-SIGMA'' (MEV) (UB) (UB) (UB) (UB) 1000 210 +-21 X +-X 1000 241 +-25 X +-X 900 194 +-20 185 +-19 800 223 +-23 X +-X 700 163 +-27 189 +-20 600 180 +-18 X +-X 550 152 +-16 178 +-20 550 125 +-13 X +-X 500 153 +-17 X +-X 450 121 +-12 123 +-14 365.5 103 +-11 X +-X 315 75 +-9 X +-X 275 83 +-11 59.0 +-7.5 250 20 +-2 40.5 +-7.0 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '339' Cumulative cross section : Measured with FeCl3 and CuCl2 targets (Contribution of Fe and Cu is subtracted.) */ /* '340' Cumulative cross section : Measured with SrCl2 target (Contribution of Sr is assumed to be negligible.) */ \\EXP,51; RCT=K(GAMMA,X)24NA; CHM=X'341'; /* '341' K2CO3 */ PHYS-FORM=SLD; THK-TGT=800MG/CM**2'342'; /* '342' Typical thickness */ DET-PARTCL=GAMMA'343'; /* '343' Delayed gamma from 24Na */ DET-SYS=HPGE'344'; /* '344' To perform Gamma-ray spectrometry */ \\DATA,51; SYS-ERR=7%'345'; /* '345' Uncertainty in detector efficiency */ ENGY-GAMMA=(1368.6KEV'346',2754.0KEV'346'); INTNSTY-GAMMA=(1.00,0.99944'346'); HALF-LIFE=14.959HOUR'346'; /* '346' Delayed gamma from 24Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'347' DELTA-SIGMA'347' (MEV) (UB) (UB) 1200 100 +-10 1200 95.9 +-9.8 1000 107 +-11 1000 113 +-12 950 91.8 +-9.4 950 98 +-10 900 107 +-11 825 104 +-11 750 85.3 +-8.8 750 90.2 +-9.3 750 83.5 +-8.9 750 90.7 +-9.4 700 83.3 +-8.5 650 88.2 +-9.0 550 59.3 +-6.1 550 59.3 +-6.1 525 74.9 +-7.7 500 53.4 +-5.5 450 51.3 +-5.3 450 50.5 +-5.9 425 55.6 +-5.7 375 32.5 +-3.4 375 32.9 +-3.4 350 25.7 +-3.3 350 26.5 +-2.9 320 23.4 +-2.9 320 25.0 +-2.8 300 21.3 +-2.2 280 17.1 +-2.0 275 12.9 +-1.4 275 13.3 +-1.5 260 12.8 +-1.4 250 11 +-2 250 10.2 +-1.3 250 9.6 +-1.3 250 9.9 +-1.2 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '347' Cumulative cross section */ \\EXP,52; RCT=CA(GAMMA,X)24NA; CHM=X'348'; /* '348' CaCO3 */ PHYS-FORM=SLD; THK-TGT=800MG/CM**2'349'; /* '349' Typical thickness */ DET-PARTCL=GAMMA'350'; /* '350' Delayed gamma from 24Na */ DET-SYS=HPGE'351'; /* '351' To perform Gamma-ray spectrometry */ \\DATA,52; SYS-ERR=7%'352'; /* '352' Uncertainty in detector efficiency */ ENGY-GAMMA=(1368.6KEV'353',2754.0KEV'353'); INTNSTY-GAMMA=(1.00,0.99944'353'); HALF-LIFE=14.959HOUR'353'; /* '353' Delayed gamma from 24Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'354' DELTA-SIGMA'354' (MEV) (UB) (UB) 1200 117 +-13 1000 77.3 +-8.2 1000 68.5 +-7.1 950 70.8 +-7.5 950 69.8 +-7.4 900 62.5 +-6.4 825 63.6 +-6.5 750 56.9 +-6.0 750 53.5 +-5.5 750 58.5 +-6.4 750 52.5 +-6.1 650 47.0 +-5.1 550 43.4 +-5.0 525 41.7 +-4.3 450 34.7 +-4.3 450 29.5 +-3.3 425 29.8 +-3.1 375 16.0 +-1.7 375 23.3 +-3.0 350 11 +-2 350 27 +-5 300 8.4 +-1.7 280 5.5 +-0.7 275 8.5 +-1.4 260 6.4 +-0.9 250 7.1 +-1.9 250 4.9 +-0.8 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '354' Cumulative cross section */ \\EXP,53; RCT=V(GAMMA,X)24NA; CHM=X'355'; /* '355' V2O5 */ PHYS-FORM=SLD; THK-TGT=800MG/CM**2'356'; /* '356' Typical thickness */ DET-PARTCL=GAMMA'357'; /* '357' Delayed gamma from 24Na */ DET-SYS=HPGE'358'; /* '358' To perform Gamma-ray spectrometry */ \\DATA,53; SYS-ERR=7%'359'; /* '359' Uncertainty in detector efficiency */ ENGY-GAMMA=(1368.6KEV'360',2754.0KEV'360'); INTNSTY-GAMMA=(1.00,0.99944'360'); HALF-LIFE=14.959HOUR'360'; /* '360' Delayed gamma from 24Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'361' DELTA-SIGMA'361' (MEV) (UB) (UB) 1000 25.2 +-2.7 850 21 +-3 700 15.0 +-2.3 600 14.0 +-1.7 475 9.4 +-1.5 400 4.36 +-0.67 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '361' Cumulative cross section */ \\EXP,54; RCT=55MN(GAMMA,X)24NA; CHM=X'362'; /* '362' MnO */ PHYS-FORM=SLD; THK-TGT=800MG/CM**2'363'; /* '363' Typical thickness */ DET-PARTCL=GAMMA'364'; /* '364' Delayed gamma from 24Na */ DET-SYS=HPGE'365'; /* '365' To perform Gamma-ray spectrometry */ \\DATA,54; SYS-ERR=7%'366'; /* '366' Uncertainty in detector efficiency */ ENGY-GAMMA=(1368.6KEV'367',2754.0KEV'367'); INTNSTY-GAMMA=(1.00,0.99944'367'); HALF-LIFE=14.959HOUR'367'; /* '367' Delayed gamma from 24Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'368' DELTA-SIGMA'368' (MEV) (UB) (UB) 1000 20.9 +-2.7 1000 21.1 +-2.2 900 15.8 +-1.6 825 15.0 +-1.6 700 7.6 +-2.1 700 10.4 +-1.1 600 7.9 +-1.1 550 6.99 +-0.72 525 5.80 +-0.67 425 4.2 +-0.6 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '368' Cumulative cross section */ \\EXP,55; RCT=FE(GAMMA,X)24NA; CHM=ELM; PHYS-FORM=SLD; THK-TGT=900MG/CM**2'369'; /* '369' Typical thickness */ DET-PARTCL=GAMMA'370'; /* '370' Delayed gamma from 24Na */ DET-SYS=HPGE'371'; /* '371' To perform Gamma-ray spectrometry */ \\DATA,55; SYS-ERR=7%'372'; /* '372' Uncertainty in detector efficiency */ ENGY-GAMMA=(1368.6KEV'373',2754.0KEV'373'); INTNSTY-GAMMA=(1.00,0.99944'373'); HALF-LIFE=14.959HOUR'373'; /* '373' Delayed gamma from 24Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'374' DELTA-SIGMA'374' (MEV) (UB) (UB) 1000 13.5 +-1.4 1000 16 +-3 1000 16.6 +-1.7 900 13.6 +-1.5 850 8.1 +-1.2 850 11.1 +-1.6 700 9.0 +-1.2 700 14 +-3 700 8.18 +-0.85 600 6.36 +-0.75 550 6.4 +-0.8 550 5.80 +-0.60 475 4.0 +-0.6 450 3.09 +-0.33 400 2.54 +-0.40 350 1.0 +-0.3 325 1.0 +-0.4 250 0.2 +-0.1 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '374' Cumulative cross section */ \\EXP,56; RCT=59CO(GAMMA,X)24NA; CHM=ELM; PHYS-FORM=SLD; THK-TGT=1000MG/CM**2'375'; /* '375' Typical thickness */ DET-PARTCL=GAMMA'376'; /* '376' Delayed gamma from 24Na */ DET-SYS=HPGE'377'; /* '377' To perform Gamma-ray spectrometry */ \\DATA,56; SYS-ERR=7%'378'; /* '378' Uncertainty in detector efficiency */ ENGY-GAMMA=(1368.6KEV'379',2754.0KEV'379'); INTNSTY-GAMMA=(1.00,0.99944'379'); HALF-LIFE=14.959HOUR'379'; /* '379' Delayed gamma from 24Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'380' DELTA-SIGMA'380' (MEV) (UB) (UB) 1000 10.3 +-1.2 1000 11.1 +-1.3 850 8.21 +-0.96 800 7.28 +-0.75 700 6 +-2 600 3.5 +-0.5 600 4.16 +-0.55 500 4.35 +-0.79 475 2.7 +-0.7 400 1.8 +-0.4 400 2.84 +-0.38 365.5 2.17 +-0.38 315 2.54 +-0.46 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '380' Cumulative cross section */ \\EXP,57; RCT=NI(GAMMA,X)24NA; CHM=ELM; PHYS-FORM=SLD; THK-TGT=120MG/CM**2'381'; /* '381' Typical thickness */ DET-PARTCL=GAMMA'382'; /* '382' Delayed gamma from 24Na */ DET-SYS=HPGE'383'; /* '383' To perform Gamma-ray spectrometry */ \\DATA,57; SYS-ERR=7%'384'; /* '384' Uncertainty in detector efficiency */ ENGY-GAMMA=(1368.6KEV'385',2754.0KEV'385'); INTNSTY-GAMMA=(1.00,0.99944'385'); HALF-LIFE=14.959HOUR'385'; /* '385' Delayed gamma from 24Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'386' DELTA-SIGMA'386' (MEV) (UB) (UB) 1000 10.6 +-1.5 700 7.1 +-0.9 600 5 +-3 550 4.6 +-0.8 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '386' Cumulative cross section */ \\EXP,58; RCT=CU(GAMMA,X)24NA; CHM=ELM; PHYS-FORM=SLD; THK-TGT=400[1200MG/CM**2'387'; /* '387' Typical thickness */ DET-PARTCL=GAMMA'388'; /* '388' Delayed gamma from 24Na */ DET-SYS=HPGE'389'; /* '389' To perform Gamma-ray spectrometry */ \\DATA,58; SYS-ERR=7%'390'; /* '390' Uncertainty in detector efficiency */ ENGY-GAMMA=(1368.6KEV'391',2754.0KEV'391'); INTNSTY-GAMMA=(1.00,0.99944'391'); HALF-LIFE=14.959HOUR'391'; /* '391' Delayed gamma from 24Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'392' DELTA-SIGMA'392' (MEV) (UB) (UB) 1200 7.8 +-1.3 1000 6.70 +-0.70 1000 6.65 +-0.83 1000 7.19 +-0.84 1000 6.40 +-0.85 950 6.34 +-0.91 900 7.0 +-1.1 900 5.0 +-0.7 850 5.1 +-1.0 825 5.51 +-0.67 825 6.87 +-0.84 800 5.8 +-1.3 750 3.8 +-0.9 750 5.3 +-1.1 700 3.1 +-0.7 700 3.32 +-0.46 650 2.65 +-0.57 600 1.86 +-0.27 600 3.23 +-0.65 550 2.12 +-0.26 550 1.7 +-0.9 525 1.7 +-0.3 525 1.5 +-0.6 475 1.6 +-0.4 425 1.6 +-0.5 400 0.77 +-0.16 350 0.45 +-0.08 300 0.18 +-0.08 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '392' Cumulative cross section */ \\EXP,59; RCT=89Y(GAMMA,X)24NA; CHM=X'393'; /* '393' Y2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'394'; /* '394' Typical thickness */ DET-PARTCL=GAMMA'395'; /* '395' Delayed gamma from 24Na */ DET-SYS=HPGE'396'; /* '396' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,59; SYS-ERR=7%'397'; /* '397' Uncertainty in detector efficiency */ ENGY-GAMMA=(1368.6KEV'398',2754.0KEV'398'); INTNSTY-GAMMA=(1.00,0.99944'398'); HALF-LIFE=14.959HOUR'398'; /* '398' Delayed gamma from 24Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'399' DELTA-SIGMA'399' (MEV) (UB) (UB) 1000 2.23 +-0.24 1000 1.41 +-0.15 950 1.3 +-0.2 900 1.50 +-0.18 800 1.1 +-0.2 550 0.42 +-0.07 400 0.15 +-0.03 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '399' Cumulative cross section */ \\EXP,60; RCT=AG(GAMMA,X)24NA; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'400'; /* '400' Typical thickness */ DET-PARTCL=GAMMA'401'; /* '401' Delayed gamma from 24Na */ DET-SYS=HPGE'402'; /* '402' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,60; SYS-ERR=7%'403'; /* '403' Uncertainty in detector efficiency */ ENGY-GAMMA=(1368.6KEV'404',2754.0KEV'404'); INTNSTY-GAMMA=(1.00,0.99944'404'); HALF-LIFE=14.959HOUR'404'; /* '404' Delayed gamma from 24Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'405' DELTA-SIGMA'405' (MEV) (UB) (UB) 1100 1.78 +-0.21 1000 1.3 +-0.2 1000 2.03 +-0.22 950 1.8 +-0.2 900 1.81 +-0.20 800 1.8 +-0.3 700 0.82 +-0.12 700 0.57 +-0.07 650 0.6 +-0.1 550 0.56 +-0.09 400 0.28 +-0.11 400 0.22 +-0.04 350 0.16 +-0.03 300 0.09 +-0.04 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '405' Cumulative cross section */ \\EXP,61; RCT=IN(GAMMA,X)24NA; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'406'; /* '406' Typical thickness */ DET-PARTCL=GAMMA'407'; /* '407' Delayed gamma from 24Na */ DET-SYS=HPGE'408'; /* '408' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,61; SYS-ERR=7%'409'; /* '409' Uncertainty in detector efficiency */ ENGY-GAMMA=(1368.6KEV'410',2754.0KEV'410'); INTNSTY-GAMMA=(1.00,0.99944'410'); HALF-LIFE=14.959HOUR'410'; /* '410' Delayed gamma from 24Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'411' DELTA-SIGMA'411' (MEV) (UB) (UB) 1000 1.50 +-0.17 1000 1.59 +-0.17 950 1.55 +-0.16 900 1.3 +-0.2 800 0.87 +-0.13 700 0.53 +-0.06 500 0.30 +-0.04 400 0.20 +-0.03 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '411' Cumulative cross section */ \\EXP,62; RCT=159TB(GAMMA,X)24NA; CHM=X'412'; /* '412' Tb4O7 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'413'; /* '413' Typical thickness */ DET-PARTCL=GAMMA'414'; /* '414' Delayed gamma from 24Na */ DET-SYS=HPGE'415'; /* '415' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,62; SYS-ERR=7%'416'; /* '416' Uncertainty in detector efficiency */ ENGY-GAMMA=(1368.6KEV'417',2754.0KEV'417'); INTNSTY-GAMMA=(1.00,0.99944'417'); HALF-LIFE=14.959HOUR'417'; /* '417' Delayed gamma from 24Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'418' DELTA-SIGMA'418' (MEV) (UB) (UB) 1000 2.03 +-0.23 950 2.2 +-0.3 900 2.15 +-0.23 800 1.3 +-0.2 550 0.57 +-0.06 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '418' Cumulative cross section */ \\EXP,63; RCT=165HO(GAMMA,X)24NA; CHM=X'419'; /* '419' Ho2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'420'; /* '420' Typical thickness */ DET-PARTCL=GAMMA'421'; /* '421' Delayed gamma from 24Na */ DET-SYS=HPGE'422'; /* '422' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,63; SYS-ERR=7%'423'; /* '423' Uncertainty in detector efficiency */ ENGY-GAMMA=(1368.6KEV'424',2754.0KEV'424'); INTNSTY-GAMMA=(1.00,0.99944'424'); HALF-LIFE=14.959HOUR'424'; /* '424' Delayed gamma from 24Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'425' DELTA-SIGMA'425' (MEV) (UB) (UB) 1000 2.25 +-0.30 1000 2.26 +-0.23 950 2.3 +-0.3 900 1.92 +-0.22 800 1.3 +-0.2 700 0.8 +-0.5 600 0.87 +-0.21 600 0.83 +-0.10 400 0.25 +-0.05 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '425' Cumulative cross section */ \\EXP,64; RCT=197AU(GAMMA,X)24NA; CHM=ELM; PHYS-FORM=SLD; THK-TGT=3000MG/CM**2'426'; /* '426' Typical thickness */ DET-PARTCL=GAMMA'427'; /* '427' Delayed gamma from 24Na */ DET-SYS=HPGE'428'; /* '428' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,64; SYS-ERR=7%'429'; /* '429' Uncertainty in detector efficiency */ ENGY-GAMMA=(1368.6KEV'430',2754.0KEV'430'); INTNSTY-GAMMA=(1.00,0.99944'430'); HALF-LIFE=14.959HOUR'430'; /* '430' Delayed gamma from 24Na */ \DATA; INC-ENGY-LAB-MAX SIGMA'431' DELTA-SIGMA'431' (MEV) (UB) (UB) 1100 2.55 +-0.27 1000 1.98 +-0.22 1000 2.1 +-0.3 950 2.1 +-0.2 900 2.05 +-0.22 800 1.3 +-0.2 700 1.31 +-0.17 650 0.77 +-0.10 600 0.82 +-0.23 550 0.52 +-0.06 500 0.48 +-0.07 400 0.32 +-0.05 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '431' Cumulative cross section */ \\EXP,65; RCT=30SI(GAMMA,X)28MG; CHM=ELM; PHYS-FORM=SLD; THK-TGT=300MG/CM**2'432'; /* '432' Typical thickness */ DET-PARTCL=GAMMA'433'; /* '433' Delayed gamma from 28Mg */ DET-SYS=HPGE'434'; /* '434' To perform Gamma-ray spectrometry */ \\DATA,65; SYS-ERR=7%'435'; /* '435' Uncertainty in detector efficiency */ ENGY-GAMMA=1778.9KEV'436'; INTNSTY-GAMMA=1.00'436'; HALF-LIFE=20.91HOUR'436'; /* '436' Delayed gamma from 28Mg */ \DATA; INC-ENGY-LAB-MAX SIGMA'437' DELTA-SIGMA'437' (MEV) (UB) (UB) 1000 207 +-23 1000 171 +-22 700 172 +-19 600 168 +-28 550 169 +-19 450 147 +-19 400 122 +-16 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '437' Cumulative cross section */ \\EXP,66; RCT=S(GAMMA,X)28MG; CHM=ELM; PHYS-FORM=SLD; THK-TGT=1000MG/CM**2'438'; /* '438' Typical thickness */ DET-PARTCL=GAMMA'439'; /* '439' Delayed gamma from 28Mg */ DET-SYS=HPGE'440'; /* '440' To perform Gamma-ray spectrometry */ \\DATA,66; SYS-ERR=7%'441'; /* '441' Uncertainty in detector efficiency */ ENGY-GAMMA=1778.9KEV'442'; INTNSTY-GAMMA=1.00'442'; HALF-LIFE=20.91HOUR'442'; /* '442' Delayed gamma from 28Mg */ \DATA; INC-ENGY-LAB-MAX SIGMA'443' DELTA-SIGMA'443' (MEV) (UB) (UB) 1000 5.33 +-0.57 700 4.41 +-0.48 550 4.37 +-0.51 450 3.34 +-0.43 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '443' Cumulative cross section */ \\EXP,67; RCT=CL(GAMMA,X)28MG; CHM=X'444'; /* '444' NaCl */ PHYS-FORM=SLD; THK-TGT=1000MG/CM**2'445'; /* '445' Typical thickness */ DET-PARTCL=GAMMA'446'; /* '446' Delayed gamma from 28Mg */ DET-SYS=HPGE'447'; /* '447' To perform Gamma-ray spectrometry */ \\DATA,67; SYS-ERR=7%'448'; /* '448' Uncertainty in detector efficiency */ ENGY-GAMMA=1778.9KEV'449'; INTNSTY-GAMMA=1.00'449'; HALF-LIFE=20.91HOUR'449'; /* '449' Delayed gamma from 28Mg */ \DATA; INC-ENGY-LAB-MAX SIGMA'450' DELTA-SIGMA'450' (MEV) (UB) (UB) 1000 21.1 +-2.2 700 15.6 +-1.6 550 15.9 +-1.7 450 12.7 +-1.4 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '450' Cumulative cross section */ \\EXP,68; RCT=K(GAMMA,X)28MG; CHM=X'451'; /* '451' K2CO3 */ PHYS-FORM=SLD; THK-TGT=800MG/CM**2'452'; /* '452' Typical thickness */ DET-PARTCL=GAMMA'453'; /* '453' Delayed gamma from 28Mg */ DET-SYS=HPGE'454'; /* '454' To perform Gamma-ray spectrometry */ \\DATA,68; SYS-ERR=7%'455'; /* '455' Uncertainty in detector efficiency */ ENGY-GAMMA=1778.9KEV'456'; INTNSTY-GAMMA=1.00'456'; HALF-LIFE=20.91HOUR'456'; /* '456' Delayed gamma from 28Mg */ \DATA; INC-ENGY-LAB-MAX SIGMA'457' DELTA-SIGMA'457' (MEV) (UB) (UB) 1200 8.83 +-0.95 1200 8.87 +-0.96 1000 7.77 +-0.84 1000 8.7 +-1.1 950 6.22 +-0.78 950 5.94 +-0.80 900 7.47 +-0.84 825 7.99 +-0.83 750 6.17 +-0.84 750 7.06 +-0.84 750 6.6 +-0.9 750 7.12 +-0.78 700 6.66 +-0.76 650 5.90 +-0.77 550 4.80 +-0.63 550 5.41 +-0.66 525 6.06 +-0.70 500 3.48 +-0.58 450 4.00 +-0.61 450 4.6 +-0.9 425 4.5 +-0.6 375 3.4 +-0.5 375 3.0 +-0.6 350 3.0 +-0.7 320 2.4 +-0.7 300 2.0 +-0.4 280 1.7 +-0.3 275 1.8 +-0.5 275 1.6 +-0.7 260 1.1 +-0.3 250 2.1 +-0.8 250 0.9 +-0.5 250 1.4 +-0.8 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '457' Cumulative cross section */ \\EXP,69; RCT=CA(GAMMA,X)28MG; CHM=X'458'; /* '458' CaCO3 */ PHYS-FORM=SLD; THK-TGT=800MG/CM**2'459'; /* '459' Typical thickness */ DET-PARTCL=GAMMA'460'; /* '460' Delayed gamma from 28Mg */ DET-SYS=HPGE'461'; /* '461' To perform Gamma-ray spectrometry */ \\DATA,69; SYS-ERR=7%'462'; /* '462' Uncertainty in detector efficiency */ ENGY-GAMMA=1778.9KEV'463'; INTNSTY-GAMMA=1.00'463'; HALF-LIFE=20.91HOUR'463'; /* '463' Delayed gamma from 28Mg */ \DATA; INC-ENGY-LAB-MAX SIGMA'464' DELTA-SIGMA'464' (MEV) (UB) (UB) 1200 3.69 +-0.46 1000 2.6 +-0.5 950 4.5 +-1.0 950 3.6 +-0.8 900 3.41 +-0.55 825 3.12 +-0.37 750 2.9 +-0.4 750 2.8 +-0.6 750 4 +-2 750 5.0 +-1.3 650 2.6 +-0.7 550 1.9 +-0.4 525 2.2 +-0.4 450 1.4 +-0.6 450 1.9 +-0.9 425 1.8 +-0.3 375 1.5 +-0.7 375 1.9 +-0.4 300 2.2 +-0.9 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '464' Cumulative cross section */ \\EXP,70; RCT=V(GAMMA,X)28MG; CHM=X'465'; /* '465' V2O5 */ PHYS-FORM=SLD; THK-TGT=800MG/CM**2'466'; /* '466' Typical thickness */ DET-PARTCL=GAMMA'467'; /* '467' Delayed gamma from 28Mg */ DET-SYS=HPGE'468'; /* '468' To perform Gamma-ray spectrometry */ \\DATA,70; SYS-ERR=7%'469'; /* '469' Uncertainty in detector efficiency */ ENGY-GAMMA=1778.9KEV'470'; INTNSTY-GAMMA=1.00'470'; HALF-LIFE=20.91HOUR'470'; /* '470' Delayed gamma from 28Mg */ \DATA; INC-ENGY-LAB-MAX SIGMA'471' DELTA-SIGMA'471' (MEV) (UB) (UB) 1000 8.5 +-1.6 600 3.4 +-0.7 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '471' Cumulative cross section */ \\EXP,71; RCT=55MN(GAMMA,X)28MG; CHM=X'472'; /* '472' MnO */ PHYS-FORM=SLD; THK-TGT=800MG/CM**2'473'; /* '473' Typical thickness */ DET-PARTCL=GAMMA'474'; /* '474' Delayed gamma from 28Mg */ DET-SYS=HPGE'475'; /* '475' To perform Gamma-ray spectrometry */ \\DATA,71; SYS-ERR=7%'476'; /* '476' Uncertainty in detector efficiency */ ENGY-GAMMA=1778.9KEV'477'; INTNSTY-GAMMA=1.00'477'; HALF-LIFE=20.91HOUR'477'; /* '477' Delayed gamma from 28Mg */ \DATA; INC-ENGY-LAB-MAX SIGMA'478' DELTA-SIGMA'478' (MEV) (UB) (UB) 1000 3.69 +-0.50 1000 4.7 +-0.9 700 2.01 +-0.23 600 1.6 +-0.6 550 1.68 +-0.21 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '478' Cumulative cross section */ \\EXP,72; RCT=FE(GAMMA,X)28MG; CHM=ELM; PHYS-FORM=SLD; THK-TGT=900MG/CM**2'479'; /* '479' Typical thickness */ DET-PARTCL=GAMMA'480'; /* '480' Delayed gamma from 28Mg */ DET-SYS=HPGE'481'; /* '481' To perform Gamma-ray spectrometry */ \\DATA,72; SYS-ERR=7%'482'; /* '482' Uncertainty in detector efficiency */ ENGY-GAMMA=1778.9KEV'483'; INTNSTY-GAMMA=1.00'483'; HALF-LIFE=20.91HOUR'483'; /* '483' Delayed gamma from 28Mg */ \DATA; INC-ENGY-LAB-MAX SIGMA'484' DELTA-SIGMA'484' (MEV) (UB) (UB) 1000 2.19 +-0.27 700 1.43 +-0.20 550 0.78 +-0.14 450 0.47 +-0.11 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '484' Cumulative cross section */ \\EXP,73; RCT=59CO(GAMMA,X)28MG; CHM=ELM; PHYS-FORM=SLD; THK-TGT=1000MG/CM**2'485'; /* '485' Typical thickness */ DET-PARTCL=GAMMA'486'; /* '486' Delayed gamma from 28Mg */ DET-SYS=HPGE'487'; /* '487' To perform Gamma-ray spectrometry */ \\DATA,73; SYS-ERR=7%'488'; /* '488' Uncertainty in detector efficiency */ ENGY-GAMMA=1778.9KEV'489'; INTNSTY-GAMMA=1.00'489'; HALF-LIFE=20.91HOUR'489'; /* '489' Delayed gamma from 28Mg */ \DATA; INC-ENGY-LAB-MAX SIGMA'490' DELTA-SIGMA'490' (MEV) (UB) (UB) 1000 2.3 +-0.6 600 1.3 +-0.3 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '490' Cumulative cross section */ \\EXP,74; RCT=CU(GAMMA,X)28MG; CHM=ELM; PHYS-FORM=SLD; THK-TGT=400[1200MG/CM**2'491'; /* '491' Typical thickness */ DET-PARTCL=GAMMA'492'; /* '492' Delayed gamma from 28Mg */ DET-SYS=HPGE'493'; /* '493' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,74; SYS-ERR=7%'494'; /* '494' Uncertainty in detector efficiency */ ENGY-GAMMA=1778.9KEV'495'; INTNSTY-GAMMA=1.00'495'; HALF-LIFE=20.91HOUR'495'; /* '495' Delayed gamma from 28Mg */ \DATA; INC-ENGY-LAB-MAX SIGMA'496' DELTA-SIGMA'496' (MEV) (UB) (UB) 1000 1.08 +-0.14 950 1.07 +-0.15 700 0.42 +-0.07 550 0.27 +-0.06 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '496' Cumulative cross section */ \\EXP,75; RCT=89Y(GAMMA,X)28MG; CHM=X'497'; /* '497' Y2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'498'; /* '498' Typical thickness */ DET-PARTCL=GAMMA'499'; /* '499' Delayed gamma from 28Mg */ DET-SYS=HPGE'500'; /* '500' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,75; SYS-ERR=7%'501'; /* '501' Uncertainty in detector efficiency */ ENGY-GAMMA=1778.9KEV'502'; INTNSTY-GAMMA=1.00'502'; HALF-LIFE=20.91HOUR'502'; /* '502' Delayed gamma from 28Mg */ \DATA; INC-ENGY-LAB-MAX SIGMA'503' DELTA-SIGMA'503' (MEV) (UB) (UB) 1000 0.22 +-0.03 950 0.24 +-0.05 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '503' Cumulative cross section */ \\EXP,76; RCT=AG(GAMMA,X)28MG; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'504'; /* '504' Typical thickness */ DET-PARTCL=GAMMA'505'; /* '505' Delayed gamma from 28Mg */ DET-SYS=HPGE'506'; /* '506' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,76; SYS-ERR=7%'507'; /* '507' Uncertainty in detector efficiency */ ENGY-GAMMA=1778.9KEV'508'; INTNSTY-GAMMA=1.00'508'; HALF-LIFE=20.91HOUR'508'; /* '508' Delayed gamma from 28Mg */ \DATA; INC-ENGY-LAB-MAX SIGMA'509' DELTA-SIGMA'509' (MEV) (UB) (UB) 1100 0.22 +-0.03 950 0.27 +-0.04 700 0.088 +-0.013 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '509' Cumulative cross section */ \\EXP,77; RCT=IN(GAMMA,X)28MG; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'510'; /* '510' Typical thickness */ DET-PARTCL=GAMMA'511'; /* '511' Delayed gamma from 28Mg */ DET-SYS=HPGE'512'; /* '512' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,77; SYS-ERR=7%'513'; /* '513' Uncertainty in detector efficiency */ ENGY-GAMMA=1778.9KEV'514'; INTNSTY-GAMMA=1.00'514'; HALF-LIFE=20.91HOUR'514'; /* '514' Delayed gamma from 28Mg */ \DATA; INC-ENGY-LAB-MAX SIGMA'515' DELTA-SIGMA'515' (MEV) (UB) (UB) 1000 0.29 +-0.03 950 0.19 +-0.04 700 0.097 +-0.016 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '515' Cumulative cross section */ \\EXP,78; RCT=159TB(GAMMA,X)28MG; CHM=X'516'; /* '516' Tb4O7 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'517'; /* '517' Typical thickness */ DET-PARTCL=GAMMA'518'; /* '518' Delayed gamma from 28Mg */ DET-SYS=HPGE'519'; /* '519' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,78; SYS-ERR=7%'520'; /* '520' Uncertainty in detector efficiency */ ENGY-GAMMA=1778.9KEV'521'; INTNSTY-GAMMA=1.00'521'; HALF-LIFE=20.91HOUR'521'; /* '521' Delayed gamma from 28Mg */ \DATA; INC-ENGY-LAB-MAX SIGMA'522' DELTA-SIGMA'522' (MEV) (UB) (UB) 950 0.82 +-0.12 550 0.22 +-0.03 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '522' Cumulative cross section */ \\EXP,79; RCT=165HO(GAMMA,X)28MG; CHM=X'523'; /* '523' Ho2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'524'; /* '524' Typical thickness */ DET-PARTCL=GAMMA'525'; /* '525' Delayed gamma from 28Mg */ DET-SYS=HPGE'526'; /* '526' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,79; SYS-ERR=7%'527'; /* '527' Uncertainty in detector efficiency */ ENGY-GAMMA=1778.9KEV'528'; INTNSTY-GAMMA=1.00'528'; HALF-LIFE=20.91HOUR'528'; /* '528' Delayed gamma from 28Mg */ \DATA; INC-ENGY-LAB-MAX SIGMA'529' DELTA-SIGMA'529' (MEV) (UB) (UB) 1000 0.85 +-0.09 950 0.87 +-0.11 600 0.30 +-0.04 400 0.098 +-0.035 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '529' Cumulative cross section */ \\EXP,80; RCT=197AU(GAMMA,X)28MG; CHM=ELM; PHYS-FORM=SLD; THK-TGT=3000MG/CM**2'530'; /* '530' Typical thickness */ DET-PARTCL=GAMMA'531'; /* '531' Delayed gamma from 28Mg */ DET-SYS=HPGE'532'; /* '532' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,80; SYS-ERR=7%'533'; /* '533' Uncertainty in detector efficiency */ ENGY-GAMMA=1778.9KEV'534'; INTNSTY-GAMMA=1.00'534'; HALF-LIFE=20.91HOUR'534'; /* '534' Delayed gamma from 28Mg */ \DATA; INC-ENGY-LAB-MAX SIGMA'535' DELTA-SIGMA'535' (MEV) (UB) (UB) 1100 0.99 +-0.11 1000 0.89 +-0.11 950 0.87 +-0.11 700 0.45 +-0.08 550 0.29 +-0.03 500 0.26 +-0.03 400 0.10 +-0.03 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '535' Cumulative cross section */ \\EXP,81; RCT=CU(GAMMA,X)39CL; CHM=ELM; PHYS-FORM=SLD; THK-TGT=400[1200MG/CM**2'536'; /* '536' Typical thickness */ DET-PARTCL=GAMMA'537'; /* '537' Delayed gamma from 39Cl */ DET-SYS=HPGE'538'; /* '538' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,81; SYS-ERR=7%'539'; /* '539' Uncertainty in detector efficiency */ ENGY-GAMMA=(250.3KEV'540',1267.2KEV'540',1517.5KEV'540'); INTNSTY-GAMMA=(0.463,0.536,0.392'540'); HALF-LIFE=55.6MIN'540'; /* '540' Delayed gamma from 39Cl */ \DATA; INC-ENGY-LAB-MAX SIGMA'541' DELTA-SIGMA'541' (MEV) (UB) (UB) 1100 3.86 +-0.44 1000 2.71 +-0.29 900 3.96 +-0.43 800 3.41 +-0.35 700 2.50 +-0.30 650 2.57 +-0.26 400 0.87 +-0.23 350 0.23 +-0.17 300 0.28 +-0.13 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '541' Cumulative cross section */ \\EXP,82; RCT=89Y(GAMMA,X)39CL; CHM=X'542'; /* '542' Y2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'543'; /* '543' Typical thickness */ DET-PARTCL=GAMMA'544'; /* '544' Delayed gamma from 39Cl */ DET-SYS=HPGE'545'; /* '545' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,82; SYS-ERR=7%'546'; /* '546' Uncertainty in detector efficiency */ ENGY-GAMMA=(250.3KEV'547',1267.2KEV'547',1517.5KEV'547'); INTNSTY-GAMMA=(0.463,0.536,0.392'547'); HALF-LIFE=55.6MIN'547'; /* '547' Delayed gamma from 39Cl */ \DATA; INC-ENGY-LAB-MAX SIGMA'548' DELTA-SIGMA'548' (MEV) (UB) (UB) 950 0.25 +-0.06 800 0.23 +-0.03 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '548' Cumulative cross section */ \\EXP,83; RCT=159TB(GAMMA,X)39CL; CHM=X'549'; /* '549' Tb4O7 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'550'; /* '550' Typical thickness */ DET-PARTCL=GAMMA'551'; /* '551' Delayed gamma from 39Cl */ DET-SYS=HPGE'552'; /* '552' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,83; SYS-ERR=7%'553'; /* '553' Uncertainty in detector efficiency */ ENGY-GAMMA=(250.3KEV'554',1267.2KEV'554',1517.5KEV'554'); INTNSTY-GAMMA=(0.463,0.536,0.392'554'); HALF-LIFE=55.6MIN'554'; /* '554' Delayed gamma from 39Cl */ \DATA; INC-ENGY-LAB-MAX SIGMA'555' DELTA-SIGMA'555' (MEV) (UB) (UB) 950 0.42 +-0.05 900 0.28 +-0.05 800 0.25 +-0.03 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '555' Cumulative cross section */ \\EXP,84; RCT=165HO(GAMMA,X)39CL; CHM=X'556'; /* '556' Ho2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'557'; /* '557' Typical thickness */ DET-PARTCL=GAMMA'558'; /* '558' Delayed gamma from 39Cl */ DET-SYS=HPGE'559'; /* '559' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,84; SYS-ERR=7%'560'; /* '560' Uncertainty in detector efficiency */ ENGY-GAMMA=(250.3KEV'561',1267.2KEV'561',1517.5KEV'561'); INTNSTY-GAMMA=(0.463,0.536,0.392'561'); HALF-LIFE=55.6MIN'561'; /* '561' Delayed gamma from 39Cl */ \DATA; INC-ENGY-LAB-MAX SIGMA'562' DELTA-SIGMA'562' (MEV) (UB) (UB) 950 0.80 +-0.09 900 0.63 +-0.07 800 0.59 +-0.06 600 0.42 +-0.05 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '562' Cumulative cross section */ \\EXP,85; RCT=CU(GAMMA,X)43SC; CHM=ELM; PHYS-FORM=SLD; THK-TGT=400[1200MG/CM**2'563'; /* '563' Typical thickness */ DET-PARTCL=GAMMA'564'; /* '564' Delayed gamma from 43Sc */ DET-SYS=HPGE'565'; /* '565' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,85; SYS-ERR=7%'566'; /* '566' Uncertainty in detector efficiency */ ENGY-GAMMA=372.8KEV'567'; INTNSTY-GAMMA=0.225'567'; HALF-LIFE=3.891HOUR'567'; /* '567' Delayed gamma from 43Sc */ \DATA; INC-ENGY-LAB-MAX SIGMA'568' DELTA-SIGMA'568' (MEV) (UB) (UB) 1100 46 +-5 950 47.2 +-5.0 900 45.4 +-4.6 800 40 +-4 700 34.7 +-3.6 650 33 +-3 400 17.1 +-2.1 350 4.23 +-0.70 300 8.7 +-3.1 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '568' Cumulative cross section */ \\EXP,86; RCT=CU(GAMMA,X)44SC; CHM=ELM; PHYS-FORM=SLD; THK-TGT=400[1200MG/CM**2'569'; /* '569' Typical thickness */ DET-PARTCL=GAMMA'570'; /* '570' Delayed gamma from 44Sc (ground state) */ DET-SYS=HPGE'571'; /* '571' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,86; SYS-ERR=7%'572'; /* '572' Uncertainty in detector efficiency */ ENGY-GAMMA=1157.0KEV'573'; INTNSTY-GAMMA=0.999'573'; HALF-LIFE=3.927HOUR'573'; /* '573' Delayed gamma from 44Sc (ground state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'574' DELTA-SIGMA'574' (MEV) (UB) (UB) 1100 77 +-8 900 80.8 +-8.3 800 66.8 +-6.9 700 63.9 +-6.8 650 52.8 +-5.7 400 28.0 +-3.0 350 17.4 +-2.1 300 10.7 +-2.6 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '574' Independent cross section */ \\EXP,87; RCT=CU(GAMMA,X)44SC; CHM=ELM; PHYS-FORM=SLD; THK-TGT=400[1200MG/CM**2'575'; /* '575' Typical thickness */ DET-PARTCL=GAMMA'576'; /* '576' Delayed gamma from 44Sc (metastable state) */ DET-SYS=HPGE'577'; /* '577' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,87; SYS-ERR=7%'578'; /* '578' Uncertainty in detector efficiency */ ENGY-GAMMA=271.1KEV'579'; INTNSTY-GAMMA=0.867'579'; HALF-LIFE=58.6HOUR'579'; /* '579' Delayed gamma from 44Sc (metastable state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'580' DELTA-SIGMA'580' (MEV) (UB) (UB) 1100 119 +-12 950 147 +-15 900 127 +-13 800 122 +-12 700 103 +-10 650 99 +-10 400 44.2 +-4.9 350 26.1 +-3.2 300 13.4 +-1.8 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '580' Independent cross section */ \\EXP,88; RCT=CU(GAMMA,X)46SC; CHM=ELM; PHYS-FORM=SLD; THK-TGT=400[1200MG/CM**2'581'; /* '581' Typical thickness */ DET-PARTCL=GAMMA'582'; /* '582' Delayed gamma from 46Sc (ground state) */ DET-SYS=HPGE'583'; /* '583' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,88; SYS-ERR=7%'584'; /* '584' Uncertainty in detector efficiency */ ENGY-GAMMA=889.3KEV'585'; INTNSTY-GAMMA=0.99984'585'; HALF-LIFE=83.79DAY'585'; /* '585' Delayed gamma from 46Sc (ground state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'586' DELTA-SIGMA'586' (MEV) (UB) (UB) 1100 172 +-24 950 174 +-20 900 167 +-18 800 155 +-19 700 133 +-15 650 123 +-15 400 61 +-14 350 58 +-14 300 24.7 +-2.7 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '586' Independent cross section */ \\EXP,89; RCT=CU(GAMMA,X)47SC; CHM=ELM; PHYS-FORM=SLD; THK-TGT=400[1200MG/CM**2'587'; /* '587' Typical thickness */ DET-PARTCL=GAMMA'588'; /* '588' Delayed gamma from 47Sc */ DET-SYS=HPGE'589'; /* '589' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,89; SYS-ERR=7%'590'; /* '590' Uncertainty in detector efficiency */ ENGY-GAMMA=159.4KEV'591'; INTNSTY-GAMMA=0.679'591'; HALF-LIFE=3.345DAY'591'; /* '591' Delayed gamma from 47Sc */ \DATA; INC-ENGY-LAB-MAX SIGMA'592' DELTA-SIGMA'592' (MEV) (UB) (UB) 1100 90 +-9 950 110 +-11 900 96.5 +-9.8 800 94.1 +-9.6 700 80.0 +-8.2 650 78.5 +-8.0 400 45.1 +-4.9 350 24.5 +-3.0 300 17.4 +-2.2 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '592' Independent cross section */ \\EXP,90; RCT=CU(GAMMA,X)48SC; CHM=ELM; PHYS-FORM=SLD; THK-TGT=400[1200MG/CM**2'593'; /* '593' Typical thickness */ DET-PARTCL=GAMMA'594'; /* '594' Delayed gamma from 48Sc */ DET-SYS=HPGE'595'; /* '595' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,90; SYS-ERR=7%'596'; /* '596' Uncertainty in detector efficiency */ ENGY-GAMMA=(983.5KEV'597',1037.5KEV'597',1312.1KEV'597'); INTNSTY-GAMMA=(1.00,0.976,1.00'597'); HALF-LIFE=43.67HOUR'597'; /* '597' Delayed gamma from 48Sc */ \DATA; INC-ENGY-LAB-MAX SIGMA'598' DELTA-SIGMA'598' (MEV) (UB) (UB) 1100 16 +-2 950 16.6 +-1.9 900 15.7 +-1.7 800 13.9 +-1.4 700 14.2 +-1.7 650 11.1 +-1.3 400 6.4 +-1.5 350 4.7 +-1.3 300 2.7 +-1.0 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '598' Independent cross section */ \\EXP,91; RCT=89Y(GAMMA,X)44SC; CHM=X'599'; /* '599' Y2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'600'; /* '600' Typical thickness */ DET-PARTCL=GAMMA'601'; /* '601' Delayed gamma from 44Sc (metastable state) */ DET-SYS=HPGE'602'; /* '602' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,91; SYS-ERR=7%'603'; /* '603' Uncertainty in detector efficiency */ ENGY-GAMMA=271.1KEV'604'; INTNSTY-GAMMA=0.867'604'; HALF-LIFE=58.6HOUR'604'; /* '604' Delayed gamma from 44Sc (metastable state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'605' DELTA-SIGMA'605' (MEV) (UB) (UB) 1000 2.3 +-0.3 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '605' Independent cross section */ \\EXP,92; RCT=89Y(GAMMA,X)46SC; CHM=X'606'; /* '606' Y2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'607'; /* '607' Typical thickness */ DET-PARTCL=GAMMA'608'; /* '608' Delayed gamma from 46Sc (ground state) */ DET-SYS=HPGE'609'; /* '609' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,92; SYS-ERR=7%'610'; /* '610' Uncertainty in detector efficiency */ ENGY-GAMMA=889.3KEV'611'; INTNSTY-GAMMA=0.99984'611'; HALF-LIFE=83.79DAY'611'; /* '611' Delayed gamma from 46Sc (ground state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'612' DELTA-SIGMA'612' (MEV) (UB) (UB) 1000 3.7 +-0.5 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '612' Independent cross section */ \\EXP,93; RCT=89Y(GAMMA,X)47SC; CHM=X'613'; /* '613' Y2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'614'; /* '614' Typical thickness */ DET-PARTCL=GAMMA'615'; /* '615' Delayed gamma from 47Sc */ DET-SYS=HPGE'616'; /* '616' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,93; SYS-ERR=7%'617'; /* '617' Uncertainty in detector efficiency */ ENGY-GAMMA=159.4KEV'618'; INTNSTY-GAMMA=0.679'618'; HALF-LIFE=3.345DAY'618'; /* '618' Delayed gamma from 47Sc */ \DATA; INC-ENGY-LAB-MAX SIGMA'619' DELTA-SIGMA'619' (MEV) (UB) (UB) 1000 3.3 +-0.4 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '619' Independent cross section */ \\EXP,94; RCT=89Y(GAMMA,X)48SC; CHM=X'620'; /* '620' Y2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'621'; /* '621' Typical thickness */ DET-PARTCL=GAMMA'622'; /* '622' Delayed gamma from 48Sc */ DET-SYS=HPGE'623'; /* '623' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,94; SYS-ERR=7%'624'; /* '624' Uncertainty in detector efficiency */ ENGY-GAMMA=(983.5KEV'625',1037.5KEV'625',1312.1KEV'625'); INTNSTY-GAMMA=(1.00,0.976,1.00'625'); HALF-LIFE=43.67HOUR'625'; /* '625' Delayed gamma from 48Sc */ \DATA; INC-ENGY-LAB-MAX SIGMA'626' DELTA-SIGMA'626' (MEV) (UB) (UB) 1000 0.56 +-0.07 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '626' Independent cross section */ \\EXP,95; RCT=AG(GAMMA,X)44SC; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'627'; /* '627' Typical thickness */ DET-PARTCL=GAMMA'628'; /* '628' Delayed gamma from 44Sc (metastable state) */ DET-SYS=HPGE'629'; /* '629' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,95; SYS-ERR=7%'630'; /* '630' Uncertainty in detector efficiency */ ENGY-GAMMA=271.1KEV'631'; INTNSTY-GAMMA=0.867'631'; HALF-LIFE=58.6HOUR'631'; /* '631' Delayed gamma from 44Sc (metastable state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'632' DELTA-SIGMA'632' (MEV) (UB) (UB) 1100 0.63 +-0.07 900 0.52 +-0.06 800 0.42 +-0.05 700 0.21 +-0.02 650 0.22 +-0.05 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '632' Independent cross section */ \\EXP,96; RCT=AG(GAMMA,X)46SC; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'633'; /* '633' Typical thickness */ DET-PARTCL=GAMMA'634'; /* '634' Delayed gamma from 46Sc (ground state) */ DET-SYS=HPGE'635'; /* '635' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,96; SYS-ERR=7%'636'; /* '636' Uncertainty in detector efficiency */ ENGY-GAMMA=889.3KEV'637'; INTNSTY-GAMMA=0.99984'637'; HALF-LIFE=83.79DAY'637'; /* '637' Delayed gamma from 46Sc (ground state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'638' DELTA-SIGMA'638' (MEV) (UB) (UB) 1100 0.96 +-0.11 900 0.92 +-0.17 800 0.55 +-0.15 700 0.36 +-0.08 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '638' Independent cross section */ \\EXP,97; RCT=AG(GAMMA,X)47SC; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'639'; /* '639' Typical thickness */ DET-PARTCL=GAMMA'640'; /* '640' Delayed gamma from 47Sc */ DET-SYS=HPGE'641'; /* '641' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,97; SYS-ERR=7%'642'; /* '642' Uncertainty in detector efficiency */ ENGY-GAMMA=159.4KEV'643'; INTNSTY-GAMMA=0.679'643'; HALF-LIFE=3.345DAY'643'; /* '643' Delayed gamma from 47Sc */ \DATA; INC-ENGY-LAB-MAX SIGMA'644' DELTA-SIGMA'644' (MEV) (UB) (UB) 1100 0.65 +-0.07 900 0.65 +-0.07 800 0.54 +-0.06 700 0.27 +-0.03 650 0.21 +-0.04 400 0.096 +-0.032 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '644' Independent cross section */ \\EXP,98; RCT=AG(GAMMA,X)48SC; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'645'; /* '645' Typical thickness */ DET-PARTCL=GAMMA'646'; /* '646' Delayed gamma from 48Sc */ DET-SYS=HPGE'647'; /* '647' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,98; SYS-ERR=7%'648'; /* '648' Uncertainty in detector efficiency */ ENGY-GAMMA=(983.5KEV'649',1037.5KEV'649',1312.1KEV'649'); INTNSTY-GAMMA=(1.00,0.976,1.00'649'); HALF-LIFE=43.67HOUR'649'; /* '649' Delayed gamma from 48Sc */ \DATA; INC-ENGY-LAB-MAX SIGMA'650' DELTA-SIGMA'650' (MEV) (UB) (UB) 1100 0.14 +-0.02 900 0.16 +-0.03 800 0.15 +-0.03 700 0.054 +-0.008 650 0.073 +-0.035 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '650' Independent cross section */ \\EXP,99; RCT=IN(GAMMA,X)44SC; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'651'; /* '651' Typical thickness */ DET-PARTCL=GAMMA'652'; /* '652' Delayed gamma from 44Sc (metastable state) */ DET-SYS=HPGE'653'; /* '653' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,99; SYS-ERR=7%'654'; /* '654' Uncertainty in detector efficiency */ ENGY-GAMMA=271.1KEV'655'; INTNSTY-GAMMA=0.867'655'; HALF-LIFE=58.6HOUR'655'; /* '655' Delayed gamma from 44Sc (metastable state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'656' DELTA-SIGMA'656' (MEV) (UB) (UB) 900 0.30 +-0.07 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '656' Independent cross section */ \\EXP,100; RCT=IN(GAMMA,X)46SC; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'657'; /* '657' Typical thickness */ DET-PARTCL=GAMMA'658'; /* '658' Delayed gamma from 46Sc (ground state) */ DET-SYS=HPGE'659'; /* '659' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,100; SYS-ERR=7%'660'; /* '660' Uncertainty in detector efficiency */ ENGY-GAMMA=889.3KEV'661'; INTNSTY-GAMMA=0.99984'661'; HALF-LIFE=83.79DAY'661'; /* '661' Delayed gamma from 46Sc (ground state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'662' DELTA-SIGMA'662' (MEV) (UB) (UB) 900 0.55 +-0.14 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '662' Independent cross section */ \\EXP,101; RCT=IN(GAMMA,X)47SC; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'663'; /* '663' Typical thickness */ DET-PARTCL=GAMMA'664'; /* '664' Delayed gamma from 47Sc */ DET-SYS=HPGE'665'; /* '665' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,101; SYS-ERR=7%'666'; /* '666' Uncertainty in detector efficiency */ ENGY-GAMMA=159.4KEV'667'; INTNSTY-GAMMA=0.679'667'; HALF-LIFE=3.345DAY'667'; /* '667' Delayed gamma from 47Sc */ \DATA; INC-ENGY-LAB-MAX SIGMA'668' DELTA-SIGMA'668' (MEV) (UB) (UB) 900 0.56 +-0.07 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '668' Independent cross section */ \\EXP,102; RCT=IN(GAMMA,X)48SC; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'669'; /* '669' Typical thickness */ DET-PARTCL=GAMMA'670'; /* '670' Delayed gamma from 48Sc */ DET-SYS=HPGE'671'; /* '671' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,102; SYS-ERR=7%'672'; /* '672' Uncertainty in detector efficiency */ ENGY-GAMMA=(983.5KEV'673',1037.5KEV'673',1312.1KEV'673'); INTNSTY-GAMMA=(1.00,0.976,1.00'673'); HALF-LIFE=43.67HOUR'673'; /* '673' Delayed gamma from 48Sc */ \DATA; INC-ENGY-LAB-MAX SIGMA'674' DELTA-SIGMA'674' (MEV) (UB) (UB) 900 0.25 +-0.05 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '674' Independent cross section */ \\EXP,103; RCT=165HO(GAMMA,X)44SC; CHM=X'675'; /* '675' Ho2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'676'; /* '676' Typical thickness */ DET-PARTCL=GAMMA'677'; /* '677' Delayed gamma from 44Sc (metastable state) */ DET-SYS=HPGE'678'; /* '678' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,103; SYS-ERR=7%'679'; /* '679' Uncertainty in detector efficiency */ ENGY-GAMMA=271.1KEV'680'; INTNSTY-GAMMA=0.867'680'; HALF-LIFE=58.6HOUR'680'; /* '680' Delayed gamma from 44Sc (metastable state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'681' DELTA-SIGMA'681' (MEV) (UB) (UB) 1000 0.28 +-0.03 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '681' Independent cross section */ \\EXP,104; RCT=165HO(GAMMA,X)46SC; CHM=X'682'; /* '682' Ho2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'683'; /* '683' Typical thickness */ DET-PARTCL=GAMMA'684'; /* '684' Delayed gamma from 46Sc (ground state) */ DET-SYS=HPGE'685'; /* '685' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,104; SYS-ERR=7%'686'; /* '686' Uncertainty in detector efficiency */ ENGY-GAMMA=889.3KEV'687'; INTNSTY-GAMMA=0.99984'687'; HALF-LIFE=83.79DAY'687'; /* '687' Delayed gamma from 46Sc (ground state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'688' DELTA-SIGMA'688' (MEV) (UB) (UB) 1000 1.18 +-0.16 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '688' Independent cross section */ \\EXP,105; RCT=165HO(GAMMA,X)47SC; CHM=X'689'; /* '689' Ho2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'690'; /* '690' Typical thickness */ DET-PARTCL=GAMMA'691'; /* '691' Delayed gamma from 47Sc */ DET-SYS=HPGE'692'; /* '692' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,105; SYS-ERR=7%'693'; /* '693' Uncertainty in detector efficiency */ ENGY-GAMMA=159.4KEV'694'; INTNSTY-GAMMA=0.679'694'; HALF-LIFE=3.345DAY'694'; /* '694' Delayed gamma from 47Sc */ \DATA; INC-ENGY-LAB-MAX SIGMA'695' DELTA-SIGMA'695' (MEV) (UB) (UB) 1000 1.83 +-0.19 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '695' Independent cross section */ \\EXP,106; RCT=165HO(GAMMA,X)48SC; CHM=X'696'; /* '696' Ho2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'697'; /* '697' Typical thickness */ DET-PARTCL=GAMMA'698'; /* '698' Delayed gamma from 48Sc */ DET-SYS=HPGE'699'; /* '699' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,106; SYS-ERR=7%'700'; /* '700' Uncertainty in detector efficiency */ ENGY-GAMMA=(983.5KEV'701',1037.5KEV'701',1312.1KEV'701'); INTNSTY-GAMMA=(1.00,0.976,1.00'701'); HALF-LIFE=43.67HOUR'701'; /* '701' Delayed gamma from 48Sc */ \DATA; INC-ENGY-LAB-MAX SIGMA'702' DELTA-SIGMA'702' (MEV) (UB) (UB) 1000 0.57 +-0.06 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '702' Independent cross section */ \\EXP,107; RCT=197AU(GAMMA,X)44SC; CHM=ELM; PHYS-FORM=SLD; THK-TGT=3000MG/CM**2'703'; /* '703' Typical thickness */ DET-PARTCL=GAMMA'704'; /* '704' Delayed gamma from 44Sc (metastable state) */ DET-SYS=HPGE'705'; /* '705' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,107; SYS-ERR=7%'706'; /* '706' Uncertainty in detector efficiency */ ENGY-GAMMA=271.1KEV'707'; INTNSTY-GAMMA=0.867'707'; HALF-LIFE=58.6HOUR'707'; /* '707' Delayed gamma from 44Sc (metastable state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'708' DELTA-SIGMA'708' (MEV) (UB) (UB) 1100 0.41 +-0.05 950 0.49 +-0.08 900 0.34 +-0.05 800 0.25 +-0.04 650 0.21 +-0.05 550 0.14 +-0.02 400 0.054 +-0.038 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '708' Independent cross section */ \\EXP,108; RCT=197AU(GAMMA,X)46SC; CHM=ELM; PHYS-FORM=SLD; THK-TGT=3000MG/CM**2'709'; /* '709' Typical thickness */ DET-PARTCL=GAMMA'710'; /* '710' Delayed gamma from 46Sc (ground state) */ DET-SYS=HPGE'711'; /* '711' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,108; SYS-ERR=7%'712'; /* '712' Uncertainty in detector efficiency */ ENGY-GAMMA=889.3KEV'713'; INTNSTY-GAMMA=0.99984'713'; HALF-LIFE=83.79DAY'713'; /* '713' Delayed gamma from 46Sc (ground state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'714' DELTA-SIGMA'714' (MEV) (UB) (UB) 1100 3.0 +-0.3 950 3.1 +-0.6 900 2.22 +-0.37 800 1.8 +-0.3 700 1.8 +-0.8 650 1.4 +-0.3 550 0.85 +-0.10 500 0.77 +-0.16 400 0.51 +-0.22 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '714' Independent cross section */ \\EXP,109; RCT=197AU(GAMMA,X)47SC; CHM=ELM; PHYS-FORM=SLD; THK-TGT=3000MG/CM**2'715'; /* '715' Typical thickness */ DET-PARTCL=GAMMA'716'; /* '716' Delayed gamma from 47Sc */ DET-SYS=HPGE'717'; /* '717' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,109; SYS-ERR=7%'718'; /* '718' Uncertainty in detector efficiency */ ENGY-GAMMA=159.4KEV'719'; INTNSTY-GAMMA=0.679'719'; HALF-LIFE=3.345DAY'719'; /* '719' Delayed gamma from 47Sc */ \DATA; INC-ENGY-LAB-MAX SIGMA'720' DELTA-SIGMA'720' (MEV) (UB) (UB) 1100 4.7 +-0.5 950 4.5 +-0.5 900 4.0 +-0.4 800 3.2 +-0.3 700 3.0 +-0.4 650 2.4 +-0.3 500 1.72 +-0.22 400 0.93 +-0.11 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '720' Independent cross section */ \\EXP,110; RCT=197AU(GAMMA,X)48SC; CHM=ELM; PHYS-FORM=SLD; THK-TGT=3000MG/CM**2'721'; /* '721' Typical thickness */ DET-PARTCL=GAMMA'722'; /* '722' Delayed gamma from 48Sc */ DET-SYS=HPGE'723'; /* '723' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,110; SYS-ERR=7%'724'; /* '724' Uncertainty in detector efficiency */ ENGY-GAMMA=(983.5KEV'725',1037.5KEV'725',1312.1KEV'725'); INTNSTY-GAMMA=(1.00,0.976,1.00'725'); HALF-LIFE=43.67HOUR'725'; /* '725' Delayed gamma from 48Sc */ \DATA; INC-ENGY-LAB-MAX SIGMA'726' DELTA-SIGMA'726' (MEV) (UB) (UB) 1100 2.3 +-0.3 950 2.0 +-0.2 900 2.2 +-0.2 800 1.7 +-0.2 700 1.6 +-0.3 650 1.3 +-0.2 550 0.83 +-0.22 500 1.14 +-0.13 400 0.51 +-0.09 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '726' Independent cross section */ \\EXP,111; RCT=CU(GAMMA,X)59FE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=400[1200MG/CM**2'727'; /* '727' Typical thickness */ DET-PARTCL=GAMMA'728'; /* '728' Delayed gamma from 59Fe */ DET-SYS=HPGE'729'; /* '729' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,111; SYS-ERR=7%'730'; /* '730' Uncertainty in detector efficiency */ ENGY-GAMMA=(1099.3KEV'731',1291.6KEV'731'); INTNSTY-GAMMA=(0.565,0.432'731'); HALF-LIFE=44.503DAY'731'; /* '731' Delayed gamma from 59Fe */ \DATA; INC-ENGY-LAB-MAX SIGMA'732' DELTA-SIGMA'732' (MEV) (UB) (UB) 1100 133 +-14 900 128 +-13 800 142 +-15 700 114 +-12 400 71.5 +-7.3 350 71.7 +-7.4 300 70.6 +-7.5 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '732' Cumulative cross section */ \\EXP,112; RCT=89Y(GAMMA,X)59FE; CHM=X'733'; /* '733' Y2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'734'; /* '734' Typical thickness */ DET-PARTCL=GAMMA'735'; /* '735' Delayed gamma from 59Fe */ DET-SYS=HPGE'736'; /* '736' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,112; SYS-ERR=7%'737'; /* '737' Uncertainty in detector efficiency */ ENGY-GAMMA=(1099.3KEV'738',1291.6KEV'738'); INTNSTY-GAMMA=(0.565,0.432'738'); HALF-LIFE=44.503DAY'738'; /* '738' Delayed gamma from 59Fe */ \DATA; INC-ENGY-LAB-MAX SIGMA'739' DELTA-SIGMA'739' (MEV) (UB) (UB) 1000 7.3 +-0.8 800 4.8 +-0.6 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '739' Cumulative cross section */ \\EXP,113; RCT=AG(GAMMA,X)59FE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'740'; /* '740' Typical thickness */ DET-PARTCL=GAMMA'741'; /* '741' Delayed gamma from 59Fe */ DET-SYS=HPGE'742'; /* '742' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,113; SYS-ERR=7%'743'; /* '743' Uncertainty in detector efficiency */ ENGY-GAMMA=(1099.3KEV'744',1291.6KEV'744'); INTNSTY-GAMMA=(0.565,0.432'744'); HALF-LIFE=44.503DAY'744'; /* '744' Delayed gamma from 59Fe */ \DATA; INC-ENGY-LAB-MAX SIGMA'745' DELTA-SIGMA'745' (MEV) (UB) (UB) 1100 0.57 +-0.08 900 0.56 +-0.09 800 0.45 +-0.09 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '745' Cumulative cross section */ \\EXP,114; RCT=159TB(GAMMA,X)59FE; CHM=X'746'; /* '746' Tb4O7 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'747'; /* '747' Typical thickness */ DET-PARTCL=GAMMA'748'; /* '748' Delayed gamma from 59Fe */ DET-SYS=HPGE'749'; /* '749' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,114; SYS-ERR=7%'750'; /* '750' Uncertainty in detector efficiency */ ENGY-GAMMA=(1099.3KEV'751',1291.6KEV'751'); INTNSTY-GAMMA=(0.565,0.432'751'); HALF-LIFE=44.503DAY'751'; /* '751' Delayed gamma from 59Fe */ \DATA; INC-ENGY-LAB-MAX SIGMA'752' DELTA-SIGMA'752' (MEV) (UB) (UB) 800 1.1 +-0.2 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '752' Cumulative cross section */ \\EXP,115; RCT=165HO(GAMMA,X)59FE; CHM=X'753'; /* '753' Ho2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'754'; /* '754' Typical thickness */ DET-PARTCL=GAMMA'755'; /* '755' Delayed gamma from 59Fe */ DET-SYS=HPGE'756'; /* '756' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,115; SYS-ERR=7%'757'; /* '757' Uncertainty in detector efficiency */ ENGY-GAMMA=(1099.3KEV'758',1291.6KEV'758'); INTNSTY-GAMMA=(0.565,0.432'758'); HALF-LIFE=44.503DAY'758'; /* '758' Delayed gamma from 59Fe */ \DATA; INC-ENGY-LAB-MAX SIGMA'759' DELTA-SIGMA'759' (MEV) (UB) (UB) 1000 2.0 +-0.2 800 1.8 +-0.3 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '759' Cumulative cross section */ \\EXP,116; RCT=197AU(GAMMA,X)59FE; CHM=ELM; PHYS-FORM=SLD; THK-TGT=3000MG/CM**2'760'; /* '760' Typical thickness */ DET-PARTCL=GAMMA'761'; /* '761' Delayed gamma from 59Fe */ DET-SYS=HPGE'762'; /* '762' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,116; SYS-ERR=7%'763'; /* '763' Uncertainty in detector efficiency */ ENGY-GAMMA=(1099.3KEV'764',1291.6KEV'764'); INTNSTY-GAMMA=(0.565,0.432'764'); HALF-LIFE=44.503DAY'764'; /* '764' Delayed gamma from 59Fe */ \DATA; INC-ENGY-LAB-MAX SIGMA'765' DELTA-SIGMA'765' (MEV) (UB) (UB) 1100 13.3 +-1.4 900 12.3 +-1.3 800 11.2 +-1.2 700 12 +-2 650 8.4 +-1.0 400 4.65 +-0.51 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '765' Cumulative cross section */ \\EXP,117; RCT=89Y(GAMMA,X)56CO; CHM=X'766'; /* '766' Y2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'767'; /* '767' Typical thickness */ DET-PARTCL=GAMMA'768'; /* '768' Delayed gamma from 56Co */ DET-SYS=HPGE'769'; /* '769' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,117; SYS-ERR=7%'770'; /* '770' Uncertainty in detector efficiency */ ENGY-GAMMA=846.8KEV'771'; INTNSTY-GAMMA=0.99935'771'; HALF-LIFE=77.727DAY'771'; /* '771' Delayed gamma from 56Co */ \DATA; INC-ENGY-LAB-MAX SIGMA'772' DELTA-SIGMA'772' (MEV) (UB) (UB) 950 4.93 +-0.71 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '772' Independent cross section */ \\EXP,118; RCT=89Y(GAMMA,X)57CO; CHM=X'773'; /* '773' Y2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'774'; /* '774' Typical thickness */ DET-PARTCL=GAMMA'775'; /* '775' Delayed gamma from 57Co */ DET-SYS=HPGE'776'; /* '776' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,118; SYS-ERR=7%'777'; /* '777' Uncertainty in detector efficiency */ ENGY-GAMMA=122.1KEV'778'; INTNSTY-GAMMA=0.8560'778'; HALF-LIFE=271.79DAY'778'; /* '778' Delayed gamma from 57Co */ \DATA; INC-ENGY-LAB-MAX SIGMA'779' DELTA-SIGMA'779' (MEV) (UB) (UB) 950 28.9 +-3.1 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '779' Independent cross section */ \\EXP,119; RCT=89Y(GAMMA,X)58CO; CHM=X'780'; /* '780' Y2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'781'; /* '781' Typical thickness */ DET-PARTCL=GAMMA'782'; /* '782' Delayed gamma from 58Co (ground state) */ DET-SYS=HPGE'783'; /* '783' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,119; SYS-ERR=7%'784'; /* '784' Uncertainty in detector efficiency */ ENGY-GAMMA=810.8KEV'785'; INTNSTY-GAMMA=0.99448'785'; HALF-LIFE=70.82DAY'785'; /* '785' Delayed gamma from 58Co (ground state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'786' DELTA-SIGMA'786' (MEV) (UB) (UB) 950 38.3 +-4.0 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '786' Independent cross section */ \\EXP,120; RCT=89Y(GAMMA,X)60CO; CHM=X'787'; /* '787' Y2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'788'; /* '788' Typical thickness */ DET-PARTCL=GAMMA'789'; /* '789' Delayed gamma from 60Co (ground state) */ DET-SYS=HPGE'790'; /* '790' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,120; SYS-ERR=7%'791'; /* '791' Uncertainty in detector efficiency */ ENGY-GAMMA=(1173.2KEV'792',1332.5KEV'792'); INTNSTY-GAMMA=(0.9990,0.999820'792'); HALF-LIFE=5.2714YEAR'792'; /* '792' Delayed gamma from 60Co (ground state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'793' DELTA-SIGMA'793' (MEV) (UB) (UB) 950 16.6 +-3.3 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '793' Independent cross section */ \\EXP,121; RCT=AG(GAMMA,X)56CO; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'794'; /* '794' Typical thickness */ DET-PARTCL=GAMMA'795'; /* '795' Delayed gamma from 56Co */ DET-SYS=HPGE'796'; /* '796' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,121; SYS-ERR=7%'797'; /* '797' Uncertainty in detector efficiency */ ENGY-GAMMA=846.8KEV'798'; INTNSTY-GAMMA=0.99935'798'; HALF-LIFE=77.727DAY'798'; /* '798' Delayed gamma from 56Co */ \DATA; INC-ENGY-LAB-MAX SIGMA'799' DELTA-SIGMA'799' (MEV) (UB) (UB) 1100 0.67 +-0.09 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '799' Independent cross section */ \\EXP,122; RCT=AG(GAMMA,X)57CO; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'800'; /* '800' Typical thickness */ DET-PARTCL=GAMMA'801'; /* '801' Delayed gamma from 57Co */ DET-SYS=HPGE'802'; /* '802' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,122; SYS-ERR=7%'803'; /* '803' Uncertainty in detector efficiency */ ENGY-GAMMA=122.1KEV'804'; INTNSTY-GAMMA=0.8560'804'; HALF-LIFE=271.79DAY'804'; /* '804' Delayed gamma from 57Co */ \DATA; INC-ENGY-LAB-MAX SIGMA'805' DELTA-SIGMA'805' (MEV) (UB) (UB) 1100 2.91 +-0.31 400 0.37 +-0.22 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '805' Independent cross section */ \\EXP,123; RCT=AG(GAMMA,X)58CO; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'806'; /* '806' Typical thickness */ DET-PARTCL=GAMMA'807'; /* '807' Delayed gamma from 58Co (ground state) */ DET-SYS=HPGE'808'; /* '808' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,123; SYS-ERR=7%'809'; /* '809' Uncertainty in detector efficiency */ ENGY-GAMMA=810.8KEV'810'; INTNSTY-GAMMA=0.99448'810'; HALF-LIFE=70.82DAY'810'; /* '810' Delayed gamma from 58Co (ground state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'811' DELTA-SIGMA'811' (MEV) (UB) (UB) 1100 4.32 +-0.45 400 0.52 +-0.18 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '811' Independent cross section */ \\EXP,124; RCT=AG(GAMMA,X)60CO; CHM=ELM; PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'812'; /* '812' Typical thickness */ DET-PARTCL=GAMMA'813'; /* '813' Delayed gamma from 60Co (ground state) */ DET-SYS=HPGE'814'; /* '814' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,124; SYS-ERR=7%'815'; /* '815' Uncertainty in detector efficiency */ ENGY-GAMMA=(1173.2KEV'816',1332.5KEV'816'); INTNSTY-GAMMA=(0.9990,0.999820'816'); HALF-LIFE=5.2714YEAR'816'; /* '816' Delayed gamma from 60Co (ground state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'817' DELTA-SIGMA'817' (MEV) (UB) (UB) 1100 2.52 +-0.56 400 2.1 +-1.4 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '817' Independent cross section */ \\EXP,125; RCT=165HO(GAMMA,X)57CO; CHM=X'818'; /* '818' Ho2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'819'; /* '819' Typical thickness */ DET-PARTCL=GAMMA'820'; /* '820' Delayed gamma from 57Co */ DET-SYS=HPGE'821'; /* '821' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,125; SYS-ERR=7%'822'; /* '822' Uncertainty in detector efficiency */ ENGY-GAMMA=122.1KEV'823'; INTNSTY-GAMMA=0.8560'823'; HALF-LIFE=271.79DAY'823'; /* '823' Delayed gamma from 57Co */ \DATA; INC-ENGY-LAB-MAX SIGMA'824' DELTA-SIGMA'824' (MEV) (UB) (UB) 1000 0.46 +-0.13 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '824' Independent cross section */ \\EXP,126; RCT=165HO(GAMMA,X)58CO; CHM=X'825'; /* '825' Ho2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'826'; /* '826' Typical thickness */ DET-PARTCL=GAMMA'827'; /* '827' Delayed gamma from 58Co (ground state) */ DET-SYS=HPGE'828'; /* '828' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,126; SYS-ERR=7%'829'; /* '829' Uncertainty in detector efficiency */ ENGY-GAMMA=810.8KEV'830'; INTNSTY-GAMMA=0.99448'830'; HALF-LIFE=70.82DAY'830'; /* '830' Delayed gamma from 58Co (ground state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'831' DELTA-SIGMA'831' (MEV) (UB) (UB) 1000 1.04 +-0.14 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '831' Independent cross section */ \\EXP,127; RCT=165HO(GAMMA,X)60CO; CHM=X'832'; /* '832' Ho2O3 */ PHYS-FORM=SLD; THK-TGT=2000MG/CM**2'833'; /* '833' Typical thickness */ DET-PARTCL=GAMMA'834'; /* '834' Delayed gamma from 60Co (ground state) */ DET-SYS=HPGE'835'; /* '835' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,127; SYS-ERR=7%'836'; /* '836' Uncertainty in detector efficiency */ ENGY-GAMMA=(1173.2KEV'837',1332.5KEV'837'); INTNSTY-GAMMA=(0.9990,0.999820'837'); HALF-LIFE=5.2714YEAR'837'; /* '837' Delayed gamma from 60Co (ground state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'838' DELTA-SIGMA'838' (MEV) (UB) (UB) 1000 3.25 +-0.62 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '838' Independent cross section */ \\EXP,128; RCT=197AU(GAMMA,X)56CO; CHM=ELM; PHYS-FORM=SLD; THK-TGT=3000MG/CM**2'839'; /* '839' Typical thickness */ DET-PARTCL=GAMMA'840'; /* '840' Delayed gamma from 56Co */ DET-SYS=HPGE'841'; /* '841' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,128; SYS-ERR=7%'842'; /* '842' Uncertainty in detector efficiency */ ENGY-GAMMA=846.8KEV'843'; INTNSTY-GAMMA=0.99935'843'; HALF-LIFE=77.727DAY'843'; /* '843' Delayed gamma from 56Co */ \DATA; INC-ENGY-LAB-MAX SIGMA'844' DELTA-SIGMA'844' (MEV) (UB) (UB) 1100 0.14 +-0.07 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '844' Independent cross section */ \\EXP,129; RCT=197AU(GAMMA,X)57CO; CHM=ELM; PHYS-FORM=SLD; THK-TGT=3000MG/CM**2'845'; /* '845' Typical thickness */ DET-PARTCL=GAMMA'846'; /* '846' Delayed gamma from 57Co */ DET-SYS=HPGE'847'; /* '847' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,129; SYS-ERR=7%'848'; /* '848' Uncertainty in detector efficiency */ ENGY-GAMMA=122.1KEV'849'; INTNSTY-GAMMA=0.8560'849'; HALF-LIFE=271.79DAY'849'; /* '849' Delayed gamma from 57Co */ \DATA; INC-ENGY-LAB-MAX SIGMA'850' DELTA-SIGMA'850' (MEV) (UB) (UB) 1100 1.40 +-0.21 1000 0.63 +-0.32 950 1.12 +-0.62 550 0.39 +-0.10 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '850' Independent cross section */ \\EXP,130; RCT=197AU(GAMMA,X)58CO; CHM=ELM; PHYS-FORM=SLD; THK-TGT=3000MG/CM**2'851'; /* '851' Typical thickness */ DET-PARTCL=GAMMA'852'; /* '852' Delayed gamma from 58Co (ground state) */ DET-SYS=HPGE'853'; /* '853' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,130; SYS-ERR=7%'854'; /* '854' Uncertainty in detector efficiency */ ENGY-GAMMA=810.8KEV'855'; INTNSTY-GAMMA=0.99448'855'; HALF-LIFE=70.82DAY'855'; /* '855' Delayed gamma from 58Co (ground state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'856' DELTA-SIGMA'856' (MEV) (UB) (UB) 1100 3.12 +-0.33 1000 3.46 +-0.48 950 3.01 +-0.48 550 1.16 +-0.14 500 0.68 +-0.17 400 0.64 +-0.23 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '856' Independent cross section */ \\EXP,131; RCT=197AU(GAMMA,X)60CO; CHM=ELM; PHYS-FORM=SLD; THK-TGT=3000MG/CM**2'857'; /* '857' Typical thickness */ DET-PARTCL=GAMMA'858'; /* '858' Delayed gamma from 60Co (ground state) */ DET-SYS=HPGE'859'; /* '859' To perform Gamma-ray spectrometry */ /* Experimental Method: - Chemical separation */ \\DATA,131; SYS-ERR=7%'860'; /* '860' Uncertainty in detector efficiency */ ENGY-GAMMA=(1173.2KEV'861',1332.5KEV'861'); INTNSTY-GAMMA=(0.9990,0.999820'861'); HALF-LIFE=5.2714YEAR'861'; /* '861' Delayed gamma from 60Co (ground state) */ \DATA; INC-ENGY-LAB-MAX SIGMA'862' DELTA-SIGMA'862' (MEV) (UB) (UB) 1100 9.2 +-1.2 1000 13.3 +-2.2 950 11.3 +-2.7 550 5.24 +-0.68 500 5.8 +-1.4 400 4.6 +-1.5 \END; /* Data (appendix, p323-328 in reference) received by e-mail from H.Matsumura (2007.01.26) */ /* '862' Independent cross section */ \\END;