ENTRY 22818 20170824 22652281800000001 SUBENT 22818001 20170824 22652281800100001 BIB 18 143 2281800100002 TITLE Fast neutron induced reactions leading to activation 2281800100003 products: selected cases relevant to development of 2281800100004 low activation materials, transmutation and hazard 2281800100005 assessment of nuclear wastes 2281800100006 AUTHOR (P.Reimer, M.Hult, A.J.M.Plompen, P.N.Johnston, 2281800100007 V.Avrigeanu, S.M.Qaim) 2281800100008 INSTITUTE (2ZZZGEL) Reimer, Hult, Plompen, Johnston 2281800100009 (2GERJUL) Reimer, Qaim 2281800100010 (3AULAUL) Johnston, Royal Melbourne Institute of 2281800100011 Technology, Dept of Applied Physics 2281800100012 (3RUMBUC) Avrigeanu 2281800100013 REFERENCE ((T,REIMER,2001)=(R,JUEL-3980,2002)) The 2281800100014 Manuscript of the Thesis. Full description of the 2281800100015 experiment and data Tables. 2281800100016 (J,NSTS,2,(1),192,2002) 2281800100017 REL-REF (I,,A.Fessler+,J,NSE,134,171,2000) Experimental Details2281800100018 (M,,J.F.Briesmeister,R,LA-13709-M,2002) Neutron 2281800100019 spectrum evaluation with the help of Monte-Carlo 2281800100020 code (MCNP-4C). 2281800100021 FACILITY (VDG,2ZZZGEL) 7-MV Van de Graaff Accelerator, 2281800100022 Neutron Physics Unit, Institute For Reference 2281800100023 Materials and Measurements, Geel, Belgium. 2281800100024 Deuterium beam current is aprx 15 micro-A, 2281800100025 beam energy is from 1 to 4 MeV . 2281800100026 INC-SOURCE (D-T) H-3(d,n)He-4. Deuterons incident on a metal 2281800100027 titanium-tritium target (1.923 mg/cm**2 thick) 2281800100028 on a silver backing (0.5 mm thick). This reaction 2281800100029 generated primary neutrons with energies in the range 2281800100030 13.4 to 20.6 MeV. Energy scale uncertainty is 5 keV. 2281800100031 INC-SPECT -Monte-Carlo code (MCNP-4C) was used to calculate 2281800100032 neutron spectrum and activity distribution 2281800100033 in the samples . 2281800100034 METHOD (ACTIV) Cross sections were measured using the neutron 2281800100035 activation method. 2281800100036 (GSPEC) Gamma-ray spectrometry . 2281800100037 (STTA) Stack Target irradiation the monitor samples 2281800100038 were positioned in layers between molybdenum samples 2281800100039 for the cross section determinations. 2281800100040 DETECTOR (HPGE) For central sample activity measurement at the 2281800100041 earth surface. 2281800100042 (LONGC) Long counter working in multichannel scaling 2281800100043 mode - for neutron flux monitoring . 2281800100044 MONITOR 1(13-AL-27(N,A)11-NA-24,,SIG) Primary Standard Monit1 2281800100045 used for measurements with neutron energy above 6 MeV2281800100046 2(13-AL-27(N,P)12-MG-27,,SIG) Secondary Standard. Monit22281800100047 3(27-CO-59(N,2N)27-CO-58,,SIG) Monit3 2281800100048 4(41-NB-93(N,2N)41-NB-92-M,,SIG) Monit4 Secondary Stand.2281800100049 All measurements involving secondary standards were 2281800100050 eventually referenced to the primary standards. 2281800100051 All relative measurements were eventually normalized 2281800100052 to the primary standards. 2281800100053 Monitor cross-section values at arbitrary neutron 2281800100054 energies were derived from tabulated values by means 2281800100055 of linear interpolation. The quoted neutron energy 2281800100056 resolution is the root-mean-square (RMS) of the 2281800100057 distribution of primary neutrons. (Author's) 2281800100058 MONIT-REF 1(,H.Conde,R,INDC(SEC)-101,1992) (M0NIT1) Also H.Conde, 2281800100059 R,NEANDC-311"U",M.Wagner+,J.Physics Data,13-5,1990 2281800100060 2(,P.F.Rose+,R,ENDF-201,1991) (MONIT2) Evaluated 2281800100061 Nuclear Data File, ENDF/B-VI.6 2281800100062 3(,P.F.Rose+,R,ENDF-201,1991) (MONIT3) Evaluated 2281800100063 Nuclear Data File, ENDF/B-VI.1 . 2281800100064 4(,H.Conde,R,INDC(SEC)-101,1992) (MONIT4) See also 2281800100065 H,Conde,R,NEANDC-311/U,1992 , 2281800100066 M.Wagner+,R,INDC(AUS)-D14,199110 . 2281800100067 DECAY-MON 1(11-NA-24,14.9590HR,DG,1369.,1.0) Monit1 2281800100068 2(12-MG-27,9.458MIN,DG,843.76,0.718) Monit2 2281800100069 3(27-CO-58-G,70.86D,DG,810.78,0.9945) Monit3 2281800100070 4(41-NB-92-M,10.15D,DG,934.44,0.9907) Monit4 2281800100071 ANALYSIS -Cross-section ratios were derived from the gamma 2281800100072 ray analysis obtained during simultaneous irradiation 2281800100073 at different energies of different samples and 2281800100074 monitor foils using energy dependency of the monitor 2281800100075 reactions . 2281800100076 CORRECTION - Experimental data following application of various 2281800100077 corrections. Most of these correction procedures 2281800100078 were standard. The neutron scattering corrections 2281800100079 were derived by the Monte-Carlo method using the 2281800100080 computer code (MCNP-4C). The raw experimental data 2281800100081 were corrected for the following effects: 2281800100082 . Gamma-ray detection efficiency. 2281800100083 . Gamma-ray branching factors. 2281800100084 . Gamma-ray coincidence summing effects. 2281800100085 . Geometric effects. 2281800100086 . Gamma-ray absorption. 2281800100087 . Absorption and scattering of neutrons. 2281800100088 . Low-energy neutrons from the target. 2281800100089 . Decay of product nuclei. 2281800100090 . Fluctuations in neutron flux during the 2281800100091 irradiation period. 2281800100092 . Isotopic abundances. 2281800100093 . Multiple scattering of the neutrons in samples. 2281800100094 -Auxiliary aluminum, iron, nickel, indium, and niobium 2281800100095 samples were used at various times during the 2281800100096 measurements, either to serve as secondary standards 2281800100097 for neutron fluence determination or for the purpose 2281800100098 of establishing corrections for low-energy neutrons 2281800100099 via the method of spectral indexing. 2281800100100 ADD-RES (THEO) For all measurements nuclear model calculations2281800100101 were produced using models of the Hauser- 2281800100102 Feshbach Type (HELGA, GNASH, EMPIRE, STAPRE, 2281800100103 STAPRE-H) 2281800100104 ERR-ANALYS (ERR-T) Total Errors for the cross sections were 2281800100105 deduced by combining partial errors from 2281800100106 various sources in quadrature. Error sources 2281800100107 considered were: 2281800100108 (ERR-S,,25.) Statistical counting errors < 25% 2281800100109 (ERR-1,,3.) Uncertainty in detector 2281800100110 efficiencies < 3% 2281800100111 (ERR-2,,8.) Uncertainty in gamma-emission 2281800100112 probability < 8% 2281800100113 (ERR-3,,8.) Uncertainty in decay half lives < 8% 2281800100114 (ERR-4,,7.) Uncertainty in coincidence summing 2281800100115 corrections < 7% 2281800100116 (ERR-5,,3.) Uncertainty in the absorption of 2281800100117 gamma rays < 3% 2281800100118 (ERR-6,,1.) Uncertainty due to sample mass < 1% 2281800100119 (ERR-7,,1.) Uncertainty due to counting times < 1% 2281800100120 (ERR-8,,1.) Uncertainty due to cooling times < 1% 2281800100121 (ERR-9,,6.) Uncertainty due to gas-in/gas-out 2281800100122 background neutrons < 6% 2281800100123 (ERR-10,,16.) Uncertainty due to breakup 2281800100124 neutrons < 16% 2281800100125 (ERR-11,,12.) Uncertainty in Low-Energy Neutron 2281800100126 corrections < 12% 2281800100127 (ERR-12,,0.5) Uncertainty due to neutron flux 2281800100128 fluctuations < 0.5% 2281800100129 (ERR-13) Most frequently occurring uncertainty due 2281800100130 to reference cross section error. 2281800100131 (EN-ERR) Max energy distribution peak shift. 2281800100132 HISTORY (20030502C) J.O.S. 2281800100133 (20040328A) COMMENT keyword deleted . 2281800100134 (20090814A) M.M. Reference C,2001TSUKUBA was corrected.2281800100135 ERR-14 was deleted as not valid for Mo and Pb . 2281800100136 Maximal errors value were moved from COMMON block into2281800100137 ERR-ANALYS lines. ERR-1 -> ERR-S . 2281800100138 (20131117U) SD: Ref. 2001TSUKUB deleted according to 2281800100139 MEMO CP-D/791. ERR-ANALYS updated. Minor corrections. 2281800100140 Subents 2-17 were superseded by 22889 and 22803 Entries2281800100141 Subents 19,21,22 superseded by Subents from 22680. 2281800100142 Ref.R,JUEL-3986,2001 -> R,JUEL-3980,2002 2281800100143 (20170824A) SD: REACTION code corrected in Subent 003. 2281800100144 MONIT-ERR -> ERR-13. 2281800100145 ENDBIB 143 0 2281800100146 COMMON 2 3 2281800100147 ERR-13 EN-ERR 2281800100148 PER-CENT KEV 2281800100149 3. 5. 2281800100150 ENDCOMMON 3 0 2281800100151 ENDSUBENT 150 0 2281800199999 SUBENT 22818002 20131117 22382281800200001 BIB 5 19 2281800200002 REACTION (42-MO-92(N,P)41-NB-92-M,,SIG) 2281800200003 DECAY-DATA (41-NB-92-M,10.15D,DG,934.44,0.9907) 2281800200004 SAMPLE (42-MO-92,NAT=0.1484) -Natural molybdenum 2281800200005 Mo-92 content is 14.84+-0.35%, 2281800200006 Mo-94 content is 9.25+-0.12%, 2281800200007 Mo-95 content is 15.92+-0.13%, 2281800200008 Mo-96 content is 16.68+-0.02%, 2281800200009 Mo-97 content is 9.55+-0.08%, 2281800200010 Mo-98 content is 24.13+-0.31%, 2281800200011 Mo-100 content is 9.63+-0.23%, 2281800200012 - By the authors - these cross sections were measured 2281800200013 using natural molybdenum samples since there were no 2281800200014 reaction processes with isotopes other than Mo-92 2281800200015 that could contribute to the production of measured 2281800200016 Nb-92M. 2281800200017 STATUS (TABLE) From Table 5.3 of T,REIMER,20011013. 2281800200018 (APRVD) Approved and corrected - Plompen, 2003-06-26 2281800200019 (SPSDD,22889002) 2281800200020 HISTORY (20131117A) SD: Data superseded (Dr.N.Otsuka remark) 2281800200021 ENDBIB 19 0 2281800200022 NOCOMMON 0 0 2281800200023 DATA 4 4 2281800200024 EN EN-RSL-FW DATA ERR-T 2281800200025 MEV MEV MB MB 2281800200026 16.22 0.26 43.1 2.9 2281800200027 18.00 0.13 34.29 3.11 2281800200028 19.27 0.12 40.93 5.45 2281800200029 20.51 0.13 39.7 6.71 2281800200030 ENDDATA 6 0 2281800200031 ENDSUBENT 30 0 2281800299999 SUBENT 22818003 20170824 22652281800300001 BIB 5 24 2281800300002 REACTION (42-MO-0(N,X)41-NB-94,,SIG) All Sigmas - to meta and 2281800300003 ground state 2281800300004 DECAY-DATA (41-NB-94-G,20300.YR,DG,871.091,0.9990) 2281800300005 SAMPLE -These cross sections were measured using natural 2281800300006 molybdenum sample material. The samples were very 2281800300007 large, consisting of plates stacked around the target 2281800300008 at various angles. The chosen sample geometry was a 2281800300009 compromise between the need to provide large samples 2281800300010 owing to the very long half life of Nb-94G and the 2281800300011 requirement of minimizing radiation absorption in 2281800300012 these samples. Long irradiation times were required 2281800300013 in order to generate sufficient Nb-94G activity for 2281800300014 counting. 2281800300015 The irradiated molybdenum samples were cooled for a 2281800300016 sufficient time to allow all Nb-94M activity to decay 2281800300017 by isomeric transitions to the ground state of Nb-94. 2281800300018 Summed contributions from three distinct reactions on 2281800300019 natural molybdenum were measured in this experiment. 2281800300020 Thus, the indicated cross sections correspond to 2281800300021 Nb-94m+g production from neutrons on natural 2281800300022 molybdenum. - Comment by Authors. 2281800300023 STATUS (TABLE) Table 5.2 of Reimer's thesis. 2281800300024 HISTORY (20170824A) SD: SF3=P -> X in REACTION code. Data were 2281800300025 corrected according to presentation in Subent 003. 2281800300026 ENDBIB 24 0 2281800300027 NOCOMMON 0 0 2281800300028 DATA 4 3 2281800300029 EN EN-RSL-FW DATA ERR-T 2281800300030 MEV MEV MB MB 2281800300031 14.5 0.7 9.9 1.6 2281800300032 18.0 0.7 17.6 1.4 2281800300033 20.3 0.3 28.3 7.3 2281800300034 ENDDATA 5 0 2281800300035 ENDSUBENT 34 0 2281800399999 SUBENT 22818004 20131117 22382281800400001 BIB 5 19 2281800400002 REACTION (42-MO-98(N,P)41-NB-98-M,,SIG) 2281800400003 DECAY-DATA (41-NB-98-M,51.3MIN,DG,787.363,0.9340) 2281800400004 SAMPLE (42-MO-98,NAT=0.2413) -Natural Molybdenum 2281800400005 Mo-92 content is 14.84+-0.35%, 2281800400006 Mo-94 content is 9.25+-0.12%, 2281800400007 Mo-95 content is 15.92+-0.13%, 2281800400008 Mo-96 content is 16.68+-0.02%, 2281800400009 Mo-97 content is 9.55+-0.08%, 2281800400010 Mo-98 content is 24.13+-0.31%, 2281800400011 Mo-100 content is 9.63+-0.23%, 2281800400012 -By the authors - these cross sections were measured 2281800400013 using natural molybdenum samples since there were 2281800400014 no reaction processes with isotopes other than Mo-98 2281800400015 that could contribute to the production of measured 2281800400016 Nb-98M. 2281800400017 STATUS (TABLE) From Table 5.3 of T,REIMER,20011013 . 2281800400018 Obtained from Plompen, 2003-06-26 2281800400019 (SPSDD,22889010) 2281800400020 HISTORY (20131117A) SD: Data superseded (Dr.N.Otsuka remark) 2281800400021 ENDBIB 19 0 2281800400022 NOCOMMON 0 0 2281800400023 DATA 4 4 2281800400024 EN EN-RSL-FW DATA ERR-T 2281800400025 MEV MEV MB MB 2281800400026 16.220 0.260 6.9 0.6 2281800400027 18.010 0.130 7.5 1.2 2281800400028 19.250 0.132 9.5 1.1 2281800400029 20.510 0.132 7.2 0.8 2281800400030 ENDDATA 6 0 2281800400031 ENDSUBENT 30 0 2281800499999 SUBENT 22818005 20131117 22382281800500001 BIB 5 28 2281800500002 REACTION (42-MO-95(N,P)41-NB-95-M,,SIG,,,DERIV) 2281800500003 SAMPLE -Two samples - one of natural isotopic composition : 2281800500004 Mo-92 Content is 14.84+-0.35% 2281800500005 Mo-94 Content is 9.25+-0.12%, 2281800500006 Mo-95 Content is 15.92+-0.13%, 2281800500007 Mo-96 Content is 16.68+-0.02%, 2281800500008 Mo-97 Content is 9.55+-0.08%, 2281800500009 Mo-98 Content is 24.13+-0.31%, 2281800500010 Mo-100 Content is 9.63+-0.23%, 2281800500011 -Another sample - enriched in Mo-96 : 2281800500012 Mo-92 content is 0.18+-0.03% 2281800500013 Mo-94 content is 0.20+-0.05%, 2281800500014 Mo-95 content is 0.93+-0.05%, 2281800500015 Mo-96 content is 96.76+-0.10%, 2281800500016 Mo-97 content is 0.96+-0.05%, 2281800500017 Mo-98 content is 0.80+-0.05%, 2281800500018 Mo-100 content is 0.17+-0.03%, 2281800500019 These cross section were measured using natural 2281800500020 molybdenum samples and samples enriched in Mo-96 in 2281800500021 order to resolve the otherwise indistinguishable 2281800500022 contributions from the Mo-95(N,P) and Mo-96(N,NP+D) 2281800500023 reactions to production of measured Nb-95M. (Author's) 2281800500024 DECAY-DATA (41-NB-95-M,86.6HR,DG,235.9,0.249) 2281800500025 STATUS (TABLE) From Table 5.4 of T,REIMER,20011013 . 2281800500026 Obtained from Plompen, 2003-06-26 2281800500027 (DEP,22818006) 96Mo(n,x)95mNb 2281800500028 (SPSDD,22889006) 2281800500029 HISTORY (20131117A) SD: Data superseded (Dr.N.Otsuka remark) 2281800500030 ENDBIB 28 0 2281800500031 NOCOMMON 0 0 2281800500032 DATA 4 4 2281800500033 EN EN-RSL-FW DATA ERR-T 2281800500034 MEV MEV MB MB 2281800500035 16.220 0.260 5.42 0.72 2281800500036 18.000 0.130 4.78 0.87 2281800500037 19.270 0.132 4.97 1.32 2281800500038 20.510 0.132 5.08 0.89 2281800500039 ENDDATA 6 0 2281800500040 ENDSUBENT 39 0 2281800599999 SUBENT 22818006 20131117 22382281800600001 BIB 5 19 2281800600002 REACTION (42-MO-96(N,X)41-NB-95-M,,SIG) 2281800600003 SAMPLE Mo-92 content is 0.18+-0.03% 2281800600004 Mo-94 content is 0.20+-0.05%, 2281800600005 Mo-95 content is 0.93+-0.05%, 2281800600006 Mo-96 content is 96.76+-0.10%, 2281800600007 Mo-97 content is 0.96+-0.05%, 2281800600008 Mo-98 content is 0.80+-0.05%, 2281800600009 Mo-100 content is 0.17+-0.03%, 2281800600010 -By the Authors - These cross section were measured 2281800600011 using natural molybdenum samples and samples enriched 2281800600012 in Mo-96 in order to resolve the otherwise 2281800600013 indistinguishable contributions from the Mo-95(N,P) 2281800600014 and Mo-96(N,NP+D) reactions to the production of 2281800600015 measured Nb-95M. 2281800600016 DECAY-DATA (41-NB-95-M,86.6HR,DG,235.69,0.249) 2281800600017 STATUS (TABLE) From Table 5.4 of T,REIMER,20011013 . 2281800600018 . Obtained from Plompen, 2003-06-26 2281800600019 (SPSDD,22889008) 2281800600020 HISTORY (20131117A) SD: Data superseded (Dr.N.Otsuka remark) 2281800600021 ENDBIB 19 0 2281800600022 NOCOMMON 0 0 2281800600023 DATA 4 3 2281800600024 EN EN-RSL-FW DATA ERR-T 2281800600025 MEV MEV MB MB 2281800600026 16.216 0.047 3.3 0.4 2281800600027 19.313 0.114 12.03 1.03 2281800600028 20.628 0.078 14.2 2.1 2281800600029 ENDDATA 5 0 2281800600030 ENDSUBENT 29 0 2281800699999 SUBENT 22818007 20131117 22382281800700001 BIB 5 29 2281800700002 REACTION (42-MO-96(N,P)41-NB-96,,SIG) 2281800700003 DECAY-DATA (41-NB-96,23.35HR,DG,568.9,0.580, 2281800700004 DG,778.224,0.9645) First line given 2281800700005 in JUEL-3980,2002, second one - in Plompen's message. 2281800700006 SAMPLE -Mo-96 enriched sample : 22281800700007 Mo-92 content is 0.18+-0.03% 2281800700008 Mo-94 content is 0.20+-0.05%, 2281800700009 Mo-95 content is 0.93+-0.05%, 2281800700010 Mo-96 content is 96.76+-0.10%, 2281800700011 Mo-97 content is 0.96+-0.05%, 2281800700012 Mo-98 content is 0.80+-0.05%, 2281800700013 Mo-100 content is 0.17+-0.03%, 2281800700014 -Mo-97 enriched sample : 2281800700015 Mo-92 content is 0.22+-0.05% 2281800700016 Mo-94 content is 0.24+-0.05%, 2281800700017 Mo-95 content is 0.59+-0.05%, 2281800700018 Mo-96 content is 1.34+-0.05%, 2281800700019 Mo-97 content is 94.25+-0.10%, 2281800700020 Mo-98 content is 3.07+-0.10%, 2281800700021 Mo-100 content is 0.30+-0.05%, 2281800700022 These cross section were measured using molybdenum 2281800700023 samples enriched in Mo-96 and Mo-97, respectively, in 2281800700024 order to resolve the otherwise indistinguishable 2281800700025 contributions from the Mo-96(N,P) and Mo-97(N,NP+D) 2281800700026 reactions to the production of measured Nb-96(Author's)2281800700027 STATUS (TABLE) From Table 5.5 of T,REIMER,20011013 . 2281800700028 . Obtained from Plompen, 2003-06-26 2281800700029 (SPSDD,22889007) 2281800700030 HISTORY (20131117A) SD: Data superseded (Dr.N.Otsuka remark) 2281800700031 ENDBIB 29 0 2281800700032 NOCOMMON 0 0 2281800700033 DATA 4 3 2281800700034 EN EN-RSL-FW DATA ERR-T 2281800700035 MEV MEV MB MB 2281800700036 16.216 0.047 19.91 1.82 2281800700037 19.330 0.072 25.08 2.46 2281800700038 20.628 0.078 25.33 2.7 2281800700039 ENDDATA 5 0 2281800700040 ENDSUBENT 39 0 2281800799999 SUBENT 22818008 20131117 22382281800800001 BIB 5 29 2281800800002 REACTION (42-MO-97(N,X)41-NB-96,,SIG) Sigma to M+G Levels 2281800800003 DECAY-DATA (41-NB-96,23.35HR,DG,568.9,0.580, 2281800800004 DG,778.224,0.9645) First line given 2281800800005 in JUEL-3980,2002, second one - in Plompen's message 2281800800006 SAMPLE -Mo-96 Enriched Sample : 2281800800007 Mo-92 content is 0.18+-0.03% 2281800800008 Mo-94 content is 0.20+-0.05%, 2281800800009 Mo-95 content is 0.93+-0.05%, 2281800800010 Mo-96 content is 96.76+-0.10%, 2281800800011 Mo-97 content is 0.96+-0.05%, 2281800800012 Mo-98 content is 0.80+-0.05%, 2281800800013 Mo-100 content is 0.17+-0.03%, 2281800800014 -Mo-97 enriched sample : 2281800800015 Mo-92 content is 0.22+-0.05% 2281800800016 Mo-94 content is 0.24+-0.05%, 2281800800017 Mo-95 content is 0.59+-0.05%, 2281800800018 Mo-96 content is 1.34+-0.05%, 2281800800019 Mo-97 content is 94.25+-0.10%, 2281800800020 Mo-98 content is 3.07+-0.10%, 2281800800021 Mo-100 content is 0.30+-0.05%, 2281800800022 These Cross Section were Measured Using Molybdenum 2281800800023 Samples enriched in Mo-96 and Mo-97, respectively, in 2281800800024 order to resolve the otherwise indistinguishable 2281800800025 contributions from the Mo-96(N,P) and Mo-97(N,NP+D) 2281800800026 reactions to the production of measured Nb-96(Author's)2281800800027 STATUS (TABLE) From Table 5.5 of T,REIMER,20011013 . 2281800800028 . Obtained from Plompen, 2003-06-26 2281800800029 (SPSDD,22889012) 2281800800030 HISTORY (20131117A) SD: Data superseded (Dr.N.Otsuka remark) 2281800800031 ENDBIB 29 0 2281800800032 NOCOMMON 0 0 2281800800033 DATA 4 4 2281800800034 EN EN-RSL-FW DATA ERR-T 2281800800035 MEV MEV MB MB 2281800800036 16.22 0.04 7.82 0.68 2281800800037 16.228 0.039 8.27 0.75 2281800800038 19.280 0.132 30.56 4.21 2281800800039 20.644 0.073 37.61 4.07 2281800800040 ENDDATA 6 0 2281800800041 ENDSUBENT 40 0 2281800899999 SUBENT 22818009 20131117 22382281800900001 BIB 5 27 2281800900002 REACTION (42-MO-97(N,P)41-NB-97-M,,SIG) 2281800900003 SAMPLE -Mo-97 enriched sample : 2281800900004 Mo-92 content is 0.22+-0.05% 2281800900005 Mo-94 content is 0.24+-0.05%, 2281800900006 Mo-95 content is 0.59+-0.05%, 2281800900007 Mo-96 content is 1.34+-0.05%, 2281800900008 Mo-97 content is 94.25+-0.10%, 2281800900009 Mo-98 content is 3.07+-0.10%, 2281800900010 Mo-100 content is 0.30+-0.05%. 2281800900011 -Mo-98 enriched sample : 2281800900012 Mo-92 content is 0.32+-0.02% 2281800900013 Mo-94 content is 0.23+-0.02%, 2281800900014 Mo-95 content is 0.45+-0.02%, 2281800900015 Mo-96 content is 0.59+-0.02%, 2281800900016 Mo-97 content is 0.69+-0.02%, 2281800900017 Mo-98 content is 97.18+-0.10%, 2281800900018 Mo-100 content is 0.55+-0.02%. 2281800900019 These cross section were measured using molybdenum 2281800900020 samples enriched in Mo-97 and Mo-98, respectively, in 2281800900021 order to resolve the otherwise indistinguishable 2281800900022 contributions from the Mo-97(N,P) and Mo-98(N,NP+D) 2281800900023 reactions to production of measured Nb-97M (Author's) 2281800900024 DECAY-DATA (41-NB-97-M,58.7SEC,DG,743.1,0.9790) 2281800900025 STATUS (TABLE) From Table 5.6 of T,REIMER,20011013 , 2281800900026 . Obtained from Plompen, 2003-06-26 2281800900027 (SPSDD,22889011) 2281800900028 HISTORY (20131117A) SD: Data superseded (Dr.N.Otsuka remark) 2281800900029 ENDBIB 27 0 2281800900030 NOCOMMON 0 0 2281800900031 DATA 4 4 2281800900032 EN EN-RSL-FW DATA ERR-T 2281800900033 MEV MEV MB MB 2281800900034 16.180 0.070 5.37 0.52 2281800900035 17.830 0.123 6.36 1.38 2281800900036 19.190 0.159 6.3 1. 2281800900037 20.500 0.180 6.6 2.2 2281800900038 ENDDATA 6 0 2281800900039 ENDSUBENT 38 0 2281800999999 SUBENT 22818010 20131117 22382281801000001 BIB 5 33 2281801000002 REACTION (42-MO-97(N,P)41-NB-97,,SIG) Sum Cross Section to 2281801000003 M+G Levels 2281801000004 SAMPLE -Mo-97 Enriched Sample : 2281801000005 Mo-92 content is 0.22+-0.05% 2281801000006 Mo-94 content is 0.24+-0.05%, 2281801000007 Mo-95 content is 0.59+-0.05%, 2281801000008 Mo-96 content is 1.34+-0.05%, 2281801000009 Mo-97 content is 94.25+-0.10%, 2281801000010 Mo-98 content is 3.07+-0.10%, 2281801000011 Mo-100 content is 0.30+-0.05%, 2281801000012 -Mo-98 enriched sample : 2281801000013 Mo-92 content is 0.32+-0.02% 2281801000014 Mo-94 content is 0.23+-0.02%, 2281801000015 Mo-95 content is 0.45+-0.02%, 2281801000016 Mo-96 content is 0.59+-0.02%, 2281801000017 Mo-97 content is 0.69+-0.02%, 2281801000018 Mo-98 content is 97.18+-0.10%, 2281801000019 Mo-100 content is 0.55+-0.02%, 2281801000020 -Author's comment : 2281801000021 These cross section were measured using molybdenum 2281801000022 samples enriched in Mo-97 and Mo-98, respectively, in 2281801000023 order to resolve the otherwise indistinguishable 2281801000024 contributions from the Mo-97(N,P) and Mo-98(N,NP+D) 2281801000025 reactions to the production of measured Nb-97M+G. 2281801000026 The irradiated molybdenum samples were cooled for a 2281801000027 sufficient time to allow all Nb-97M activity to decay 2281801000028 by isomeric transitions to the ground state of Nb-97. 2281801000029 DECAY-DATA (41-NB-97-M,58.7SEC,DG,743.1,0.9790) 2281801000030 (41-NB-97-G,72.1MIN,DG,657.94,0.9823) 2281801000031 STATUS (TABLE) From Table 5.6 of T,REIMER,20011013 . 2281801000032 Obtained from Plompen, 2003-06-26 2281801000033 (SPSDD,22889009) 2281801000034 HISTORY (20131117A) SD: Data superseded (Dr.N.Otsuka remark) 2281801000035 ENDBIB 33 0 2281801000036 NOCOMMON 0 0 2281801000037 DATA 4 4 2281801000038 EN EN-RSL-FW DATA ERR-T 2281801000039 MEV MEV MB MB 2281801000040 16.233 0.036 18.18 1.25 2281801000041 18.010 0.126 19.44 2.68 2281801000042 19.28 0.130 22.4 2.87 2281801000043 20.641 0.074 19.25 1.68 2281801000044 ENDDATA 6 0 2281801000045 ENDSUBENT 44 0 2281801099999 SUBENT 22818011 20131117 22382281801100001 BIB 5 27 2281801100002 REACTION (42-MO-98(N,X)41-NB-97-M,,SIG) 2281801100003 SAMPLE -Mo-97 Enriched Sample : 2281801100004 Mo-92 content is 0.22+-0.05% 2281801100005 Mo-94 content is 0.24+-0.05%, 2281801100006 Mo-95 content is 0.59+-0.05%, 2281801100007 Mo-96 content is 1.34+-0.05%, 2281801100008 Mo-97 content is 94.25+-0.10%, 2281801100009 Mo-98 content is 3.07+-0.10%, 2281801100010 Mo-100 content is 0.30+-0.05%, 2281801100011 -Mo-98 enriched sample : 2281801100012 Mo-92 content is 0.32+-0.02% 2281801100013 Mo-94 content is 0.23+-0.02%, 2281801100014 Mo-95 content is 0.45+-0.02%, 2281801100015 Mo-96 content is 0.59+-0.02%, 2281801100016 Mo-97 content is 0.69+-0.02%, 2281801100017 Mo-98 content is 97.18+-0.10%, 2281801100018 Mo-100 content is 0.55+-0.02%, 2281801100019 These cross section were measured using molybdenum 2281801100020 samples enriched in Mo-97 and Mo-98, respectively, in 2281801100021 order to resolve the otherwise indistinguishable 2281801100022 contributions from the Mo-97(N,P) and Mo-98(N,NP+D) 2281801100023 reactions to production of measured Nb-97M (Author's) 2281801100024 DECAY-DATA (41-NB-97-M,58.7SEC,DG,743.1,0.9790) 2281801100025 STATUS (TABLE) From Table 5.6 of T,REIMER,20011013 . 2281801100026 . Obtained from Plompen, 2003-06-26 2281801100027 (SPSDD,22889013) 2281801100028 HISTORY (20131117A) SD: Data superseded (Dr.N.Otsuka remark) 2281801100029 ENDBIB 27 0 2281801100030 NOCOMMON 0 0 2281801100031 DATA 4 4 2281801100032 EN EN-RSL-FW DATA ERR-T 2281801100033 MEV MEV MB MB 2281801100034 16.148 0.093 1.91 0.24 2281801100035 17.830 0.123 9.38 1.89 2281801100036 19.180 0.170 14.2 1.5 2281801100037 20.560 0.092 25.46 7.12 2281801100038 ENDDATA 6 0 2281801100039 ENDSUBENT 38 0 2281801199999 SUBENT 22818012 20131117 22382281801200001 BIB 5 33 2281801200002 REACTION (42-MO-98(N,X)41-NB-97,,SIG) Sum Cross Section to 2281801200003 M+G Levels 2281801200004 SAMPLE -Mo-97 Enriched Sample : 2281801200005 Mo-92 content is 0.22+-0.05% 2281801200006 Mo-94 content is 0.24+-0.05%, 2281801200007 Mo-95 content is 0.59+-0.05%, 2281801200008 Mo-96 content is 1.34+-0.05%, 2281801200009 Mo-97 content is 94.25+-0.10%, 2281801200010 Mo-98 content is 3.07+-0.10%, 2281801200011 Mo-100 content is 0.30+-0.05%, 2281801200012 -Mo-98 enriched sample : 2281801200013 Mo-92 content is 0.32+-0.02% 2281801200014 Mo-94 content is 0.23+-0.02%, 2281801200015 Mo-95 content is 0.45+-0.02%, 2281801200016 Mo-96 content is 0.59+-0.02%, 2281801200017 Mo-97 content is 0.69+-0.02%, 2281801200018 Mo-98 content is 97.18+-0.10%, 2281801200019 Mo-100 content is 0.55+-0.02%, 2281801200020 These cross section were measured using molybdenum 2281801200021 samples enriched in Mo-97 and Mo-98, respectively, in 2281801200022 order to resolve the otherwise indistinguishable 2281801200023 contributions from the Mo-97(N,P) and Mo-98(N,NP+D) 2281801200024 reactions to the production of measured Nb-97M+G. 2281801200025 The irradiated molybdenum samples were cooled for a 2281801200026 sufficient time to allow all Nb-97M activity to decay 2281801200027 by isomeric transitions to the ground state of Nb-97. 2281801200028 - (Author's) 2281801200029 DECAY-DATA (41-NB-97-M,58.7SEC,DG,743.1,0.9790) 2281801200030 (41-NB-97-G,72.1MIN,DG,657.94,0.9823) 2281801200031 STATUS (TABLE) From Table 5.6 of T,REIMER,20011013 ,. 2281801200032 Obtained from Plompen, 2003-06-26 2281801200033 (SPSDD,22889014) 2281801200034 HISTORY (20131117A) SD: Data superseded (Dr.N.Otsuka remark) 2281801200035 ENDBIB 33 0 2281801200036 NOCOMMON 0 0 2281801200037 DATA 4 2 2281801200038 EN EN-RSL-FW DATA ERR-T 2281801200039 MEV MEV MB MB 2281801200040 16.221 0.090 2.89 0.2 2281801200041 18.020 0.124 12.84 1.68 2281801200042 ENDDATA 4 0 2281801200043 ENDSUBENT 42 0 2281801299999 SUBENT 22818013 20131117 22382281801300001 BIB 5 18 2281801300002 REACTION (42-MO-92(N,A)40-ZR-89-M,,SIG) 2281801300003 DECAY-DATA (40-ZR-89-M,4.161MIN,DG,587.8,0.8964) 2281801300004 SAMPLE -Mo-92 Content is 14.84+-0.35% 2281801300005 Mo-94 Content is 9.25+-0.12%, 2281801300006 Mo-95 Content is 15.92+-0.13%, 2281801300007 Mo-96 Content is 16.68+-0.02%, 2281801300008 Mo-97 Content is 9.55+-0.08%, 2281801300009 Mo-98 Content is 24.13+-0.31%, 2281801300010 Mo-100 Content is 9.63+-0.23%, 2281801300011 -By the Author - These cross sections were measured 2281801300012 using natural molybdenum samples since there were no 2281801300013 reaction processes with isotopes other than Mo-92 2281801300014 that could contribute to the production of measured 2281801300015 Zr-89M. 2281801300016 STATUS (TABLE) From Table 5.7 of T,REIMER,20011013 . 2281801300017 Obtained from Plompen, 2003-06-26 2281801300018 (SPSDD,22889003) 2281801300019 HISTORY (20131117A) SD: Data superseded (Dr.N.Otsuka remark) 2281801300020 ENDBIB 18 0 2281801300021 NOCOMMON 0 0 2281801300022 DATA 4 4 2281801300023 EN EN-RSL-FW DATA ERR-T 2281801300024 MEV MEV MB MB 2281801300025 16.100 0.120 6.29 0.7 2281801300026 17.750 0.200 6.7 1.3 2281801300027 19.050 0.270 6.27 1. 2281801300028 20.450 0.170 6.6 2.5 2281801300029 ENDDATA 6 0 2281801300030 ENDSUBENT 29 0 2281801399999 SUBENT 22818014 20131117 22382281801400001 BIB 5 18 2281801400002 REACTION (42-MO-100(N,A)40-ZR-97,,SIG) 2281801400003 SAMPLE -Mo-92 Content is 14.84+-0.35% 2281801400004 Mo-94 Content is 9.25+-0.12%, 2281801400005 Mo-95 Content is 15.92+-0.13%, 2281801400006 Mo-96 Content is 16.68+-0.02%, 2281801400007 Mo-97 Content is 9.55+-0.08%, 2281801400008 Mo-98 Content is 24.13+-0.31%, 2281801400009 Mo-100 Content is 9.63+-0.23%, 2281801400010 -By the Authors - These cross sections were measured 2281801400011 using natural molybdenum samples since there were no 2281801400012 reaction processes with isotopes other than Mo-100 2281801400013 that could contribute to the production of measured 2281801400014 Zr-97. 2281801400015 DECAY-DATA (40-ZR-97,16.744HR,DG,743.36,0.9306) 2281801400016 STATUS (TABLE) From Table 5.8 of T,REIMER,20011013 . 2281801400017 . Obtained from Plompen, 2003-06-26 2281801400018 (SPSDD,22889015) 2281801400019 HISTORY (20131117A) SD: Data superseded (Dr.N.Otsuka remark) 2281801400020 ENDBIB 18 0 2281801400021 NOCOMMON 0 0 2281801400022 DATA 4 4 2281801400023 EN EN-RSL-FW DATA ERR-T 2281801400024 MEV MEV MB MB 2281801400025 16.230 0.260 3.4 0.22 2281801400026 18.000 0.127 4.66 0.38 2281801400027 19.270 0.132 5.25 0.39 2281801400028 20.510 0.132 5.16 0.47 2281801400029 ENDDATA 6 0 2281801400030 ENDSUBENT 29 0 2281801499999 SUBENT 22818015 20131117 22382281801500001 BIB 5 18 2281801500002 REACTION (42-MO-92(N,2N)42-MO-91-M,,SIG) 2281801500003 SAMPLE .Mo-92 Content is 14.84+-0.35% 2281801500004 Mo-94 Content is 9.25+-0.12%, 2281801500005 Mo-95 Content is 15.92+-0.13%, 2281801500006 Mo-96 Content is 16.68+-0.02%, 2281801500007 Mo-97 Content is 9.55+-0.08%, 2281801500008 Mo-98 Content is 24.13+-0.31%, 2281801500009 Mo-100 Content is 9.63+-0.23%, 2281801500010 -By the Authors - 2281801500011 These cross sections were measured using natural 2281801500012 molybdenum samples since there were no reaction 2281801500013 processes with isotopes other than Mo-92 that could 2281801500014 contribute to production of measured Mo-91M (Author's) 2281801500015 DECAY-DATA (42-MO-91-M,64.6SEC,DG,652.90,0.482) 2281801500016 STATUS (TABLE) From Table 5.9 of T,REIMER,20011013 . 2281801500017 . Obtained from Plompen, 2003-06-26 2281801500018 (SPSDD,22889004) 2281801500019 HISTORY (20131117A) SD: Data superseded (Dr.N.Otsuka remark) 2281801500020 ENDBIB 18 0 2281801500021 NOCOMMON 0 0 2281801500022 DATA 4 4 2281801500023 EN EN-RSL-FW DATA ERR-T 2281801500024 MEV MEV MB MB 2281801500025 16.100 0.100 54.9 4.7 2281801500026 17.800 0.200 100. 21. 2281801500027 19.100 0.200 117. 13. 2281801500028 20.500 0.200 118. 21. 2281801500029 ENDDATA 6 0 2281801500030 ENDSUBENT 29 0 2281801599999 SUBENT 22818016 20131117 22382281801600001 BIB 5 19 2281801600002 REACTION (42-MO-94(N,2N)42-MO-93-M,,SIG) 2281801600003 SAMPLE -Mo-92 content is 0.71+-0.05% 2281801600004 Mo-94 content is 92.03+-0.10%, 2281801600005 Mo-95 content is 5.18+-0.10%, 2281801600006 Mo-96 content is 0.83+-0.05%, 2281801600007 Mo-97 content is 0.40+-0.05%, 2281801600008 Mo-98 content is 0.67+-0.05%, 2281801600009 Mo-100 content is 0.19+-0.05%, 2281801600010 -By the Authors - 2281801600011 These cross section were measured using natural 2281801600012 molybdenum samples and samples enriched in Mo-94 in 2281801600013 order to resolve the otherwise indistinguishable 2281801600014 contributions from the Mo-94(N,2N) And Mo-95(N,3N) 2281801600015 reactions to production of measured Mo-93M (Author's) 2281801600016 DECAY-DATA (42-MO-93-M,6.85HR,DG,684.672,0.997) 2281801600017 STATUS (TABLE) From Table 5.10 of T,REIMER,20011013 . 2281801600018 Obtained from Plompen, 2003-06-26 2281801600019 (SPSDD,22889005) 2281801600020 HISTORY (20131117A) SD: Data superseded (Dr.N.Otsuka remark) 2281801600021 ENDBIB 19 0 2281801600022 NOCOMMON 0 0 2281801600023 DATA 4 4 2281801600024 EN EN-RSL-FW DATA ERR-T 2281801600025 MEV MEV MB MB 2281801600026 16.220 0.260 9.65 0.82 2281801600027 18.000 0.130 22.05 1.8 2281801600028 19.270 0.130 28.66 2.43 2281801600029 20.510 0.130 35.9 3.7 2281801600030 ENDDATA 6 0 2281801600031 ENDSUBENT 30 0 2281801699999 SUBENT 22818017 20131117 22382281801700001 BIB 6 20 2281801700002 REACTION (42-MO-100(N,2N)42-MO-99,,SIG) 2281801700003 SAMPLE -Mo-92 Content is 14.84+-0.35% 2281801700004 Mo-94 Content is 9.25+-0.12%, 2281801700005 Mo-95 Content is 15.92+-0.13%, 2281801700006 Mo-96 Content is 16.68+-0.02%, 2281801700007 Mo-97 Content is 9.55+-0.08%, 2281801700008 Mo-98 Content is 24.13+-0.31%, 2281801700009 Mo-100 Content is 9.63+-0.23%, 2281801700010 COMMENT These cross sections were measured using natural 2281801700011 molybdenum samples since there were no reaction 2281801700012 processes with isotopes other than Mo-100 that could 2281801700013 contribute to production of measured Mo-99 (Author's) 2281801700014 DECAY-DATA (42-MO-99,65.94HR,DG,739.5,0.1213, 2281801700015 DG,140.5110,0.0452) First line is 2281801700016 given in JUEL-3980,2002, second one - in Plompen's 2281801700017 message. 2281801700018 STATUS (TABLE) From Table 5.11 of Main T,REIMER,20011013 . 2281801700019 (APRVD) Approved and corrected - Plompen, 2003-06-26 2281801700020 (SPSDD,22889016) 2281801700021 HISTORY (20131117A) SD: Data superseded (Dr.N.Otsuka remark) 2281801700022 ENDBIB 20 0 2281801700023 NOCOMMON 0 0 2281801700024 DATA 4 4 2281801700025 EN EN-RSL-FW DATA ERR-T 2281801700026 MEV MEV MB MB 2281801700027 16.230 0.260 1272. 127. 2281801700028 18.000 0.127 980. 78. 2281801700029 19.270 0.132 1018. 190. 2281801700030 20.510 0.132 813.6 105. 2281801700031 ENDDATA 6 0 2281801700032 ENDSUBENT 31 0 2281801799999 SUBENT 22818018 20131117 22382281801800001 BIB 8 16 2281801800002 REACTION (82-PB-0(N,X)81-TL-204,,SIG) 2281801800003 DECAY-DATA (81-TL-204,3.78YR,B-,764.,0.971, 2281801800004 EC,,0.029) 2281801800005 PART-DET (B-) 2281801800006 METHOD (RCHEM) .This reaction cross section was determined 2281801800007 by measuring beta-minus decay with low level liquid 2281801800008 scintillation counting following radiochemical 2281801800009 separation of thallium from lead matrix. 2281801800010 DETECTOR (STANK) Liquid scintillator for beta-minus detection 2281801800011 SAMPLE -Metallic disks 0.5 mm thick, 13 mm diameter 2281801800012 Pb-204 content is 1.284+-0.020%, 2281801800013 Pb-206 content is 27.12 +-0.26 %, 2281801800014 Pb-207 content is 20.49 +-0.17 %, 2281801800015 Pb-206 content is 51.11 +-0.24 % . 2281801800016 STATUS (TABLE) From Table 5.15 of T,REIMER,20011013 . 2281801800017 HISTORY (20131117A) SD: METHOD was added. 2281801800018 ENDBIB 16 0 2281801800019 NOCOMMON 0 0 2281801800020 DATA 4 4 2281801800021 EN EN-RSL-FW DATA ERR-T 2281801800022 MEV MEV MB MB 2281801800023 18. 0.1 5.1 1.1 2281801800024 18.7 0.1 4.5 0.6 2281801800025 20. 0.1 8.7 1.1 2281801800026 20.5 0.1 13.2 1.8 2281801800027 ENDDATA 6 0 2281801800028 ENDSUBENT 27 0 2281801899999 SUBENT 22818019 20131117 22382281801900001 BIB 6 12 2281801900002 REACTION (82-PB-206(N,A)80-HG-203,,SIG) 2281801900003 DECAY-DATA (80-HG-203,46.612D,B-,,1.0, 2281801900004 DG,279.2,0.8116) 2281801900005 DETECTOR (STANK) Liquid Scintillator For Beta-Minus Detection 2281801900006 SAMPLE .Metallic Ring 100 Milligram Weight Centered in a 2281801900007 Cardboard Ring 13 mm Outer Diam, 5 mm Inner Diam 2281801900008 Pb-206 Content is 94.00% 2281801900009 Pb-207 Content is 4.04% 2281801900010 Pb-206 Content is 1.96% 2281801900011 STATUS (TABLE) .From Table 5.16 of T,REIMER,20011013 2281801900012 (SPSDD,22680010) (V.Semkova, 2014-01-20) 2281801900013 HISTORY (20131117A) SD: Data superseded (Dr.V.Semkova remark) 2281801900014 ENDBIB 12 0 2281801900015 NOCOMMON 0 0 2281801900016 DATA 4 6 2281801900017 EN EN-RSL-FW DATA ERR-T 2281801900018 MEV MEV MB MB 2281801900019 20.5 0.1 3.7 0.4 2281801900020 20. 0.1 3.9 0.4 2281801900021 19.2 0.2 3.3 0.3 2281801900022 18.7 0.2 2.6 0.2 2281801900023 17.2 0.1 1.9 0.2 2281801900024 16.1 0.2 0.86 0.09 2281801900025 ENDDATA 8 0 2281801900026 ENDSUBENT 25 0 2281801999999 SUBENT 22818020 20090814 22142281802000001 BIB 5 9 2281802000002 REACTION (82-PB-204(N,2N)82-PB-203-G,,SIG) 2281802000003 DECAY-DATA (82-PB-203-G,52.873HR,DG,279.2,0.8080) 2281802000004 PART-DET (DG) 2281802000005 SAMPLE -Metallic disks 0.5 mm thick, 13 mm diameter 2281802000006 Pb-204 content is 1.284+-0.020%, 2281802000007 Pb-206 content is 27.12 +-0.26 %, 2281802000008 Pb-207 content is 20.49 +-0.17 %, 2281802000009 Pb-206 content is 51.11 +-0.24 %. 2281802000010 STATUS (TABLE) From Table 5.17 of T,REIMER,20011013 . 2281802000011 ENDBIB 9 0 2281802000012 NOCOMMON 0 0 2281802000013 DATA 4 5 2281802000014 EN EN-RSL-FW DATA ERR-T 2281802000015 MEV MEV MB MB 2281802000016 20.5 0.1 1461. 140. 2281802000017 19.4 0.1 1827. 138. 2281802000018 19.2 0.2 1852. 132. 2281802000019 18.7 0.2 1923. 147. 2281802000020 18. 0.1 2007. 185. 2281802000021 ENDDATA 7 0 2281802000022 ENDSUBENT 21 0 2281802099999 SUBENT 22818021 20131117 22382281802100001 BIB 6 11 2281802100002 REACTION (82-PB-204(N,3N)82-PB-202-M,,SIG) 2281802100003 DECAY-DATA (82-PB-202-M,3.53HR,DG,960.7,0.92) 2281802100004 PART-DET (DG) 2281802100005 SAMPLE -Metallic disks 0.5 mm thick, 13 mm diameter. 2281802100006 Pb-204 content is 1.284+-0.020%, 2281802100007 Pb-206 content is 27.12 +-0.26 %, 2281802100008 Pb-207 content is 20.49 +-0.17 %, 2281802100009 Pb-206 content is 51.11 +-0.24 % . 2281802100010 STATUS (TABLE) From Table 5.18 of T,REIMER,20011013 . 2281802100011 (SPSDD,22680008) (V.Semkova, 2014-01-20) 2281802100012 HISTORY (20131117A) SD: Data superseded (Dr.V.Semkova remark) 2281802100013 ENDBIB 11 0 2281802100014 NOCOMMON 0 0 2281802100015 DATA 4 5 2281802100016 EN EN-RSL-FW DATA ERR-T 2281802100017 MEV MEV MB MB 2281802100018 20.5 0.1 82.2 12.6 2281802100019 19.4 0.1 18.3 2.2 2281802100020 19.2 0.2 13.4 2.2 2281802100021 18.7 0.2 3.8 0.5 2281802100022 18. 0.1 0.17 0.04 2281802100023 ENDDATA 7 0 2281802100024 ENDSUBENT 23 0 2281802199999 SUBENT 22818022 20131117 22382281802200001 BIB 5 10 2281802200002 REACTION (82-PB-206(N,3N)82-PB-204-M,,SIG) 2281802200003 DECAY-DATA (82-PB-204-M,67.3MIN,DG,899.2,0.9917) 2281802200004 SAMPLE .Metallic Ring 100 Milligram Weight Centered in a 2281802200005 Cardboard Ring 13 mm Outer Diam, 5 mm Inner Diam 2281802200006 Pb-206 Content is 94.00% 2281802200007 Pb-207 Content is 4.04% 2281802200008 Pb-206 Content is 1.96% 2281802200009 STATUS (TABLE) .From Table 5.19 of T,REIMER,20011013 2281802200010 (SPSDD,22680011) (V.Semkova, 2014-01-20) 2281802200011 HISTORY (20131117A) SD: Data superseded (Dr.V.Semkova remark) 2281802200012 ENDBIB 10 0 2281802200013 NOCOMMON 0 0 2281802200014 DATA 4 3 2281802200015 EN EN-RSL-FW DATA ERR-T 2281802200016 MEV MEV MB MB 2281802200017 20.7 0.1 292. 31. 2281802200018 19.4 0.1 92.1 6.4 2281802200019 18.1 0.1 4.2 0.3 2281802200020 ENDDATA 5 0 2281802200021 ENDSUBENT 20 0 2281802299999 ENDENTRY 22 0 2281899999999