ENTRY 22808 20210929 23042280800000001 SUBENT 22808001 20210929 23042280800100001 BIB 13 45 2280800100002 TITLE Neutron capture measurements of the noble gas 2280800100003 isotopes 22-Ne, 40-Ar and 78,80,84,86-Kr in 2280800100004 the keV energy region 2280800100005 AUTHOR (H.Beer, P.V.Sedyshev, W.Rochow, P.Mohr, H.Oberhummer) 2280800100006 INSTITUTE (2GERKFK) Beer, and 1st experimental site 2280800100007 (2GERTUE) Rochow, and 2nd experimental site 2280800100008 (4ZZZDUB) Sedyshev 2280800100009 (2GERTHD) Mohr 2280800100010 (2AUSTHV) Oberhummer 2280800100011 REFERENCE (J,NP/A,705,239,2002) Main reference 2280800100012 (R,INDC(GER)-0053,2021) Revised values of Karlsruhe 2280800100013 cross sections. 2280800100014 REL-REF (M,,F.Kaeppeler+,J,PR/C,35,936,1987) Additional 2280800100015 details of 84,86-Kr measurements 2280800100016 (M,22306001,H.Beer+,J,NIM/A,337,492,1994) Experim.det. 2280800100017 (M,22445001,H.Beer+,J,PR/C,52,3442,1995) Experim.det. 2280800100018 (M,22419001,P.Mohr+,J,PR/C,58,932,1998) Details of 2280800100019 data analysis 2280800100020 FACILITY (VDG,2GERKFK) 3.75 MV Van de Graaff accelerator 2280800100021 (VDG,2GERTUE) 3.75 MV Van de Graaff accelerator 2280800100022 METHOD (ACTIV) The cyclic activation technique is applicable 2280800100023 to radioactivity of short and long half- lives as 2280800100024 well 2280800100025 (TOF) Time-of-flight for proton energy measurement. 2280800100026 Flight path is 91 cm. Pulse width is 10 ns, pulse 2280800100027 repetition rate 1.Mhz 2280800100028 MONITOR (79-AU-197(N,G)79-AU-198,,SIG,,SPA) 2280800100029 DECAY-MON (79-AU-198-G,2.69517D,DG,411.8047,0.9550) 2280800100030 DETECTOR (HPGE) For gamma detection 2280800100031 (GLASD) 6-Li detector 2.54 cm diam, 1 mm thick, 2280800100032 for neutron flux monitoring 2280800100033 SAMPLE Gold metallic sample was used as a standard. Sample 2280800100034 mass is near 16 mg 2280800100035 ERR-ANALYS (ERR-T) Total error equal to quadratic sum of its 2280800100036 constituents 2280800100037 (ERR-1) Error of germanium detector efficiency 2280800100038 (ERR-2) Error of the sample weight of the gas sample 2280800100039 (ERR-3) Auxiliary factor (F-B) error 2280800100040 (ERR-4) Error of gamma absorption in steel sphere 2280800100041 (ERR-5) Error due to divergence of neutron beam 2280800100042 HISTORY (20030714C) J.O.S. 2280800100043 (20080520A) Correction performed, SM 2280800100044 (20080527A) Last corrections have been done. 2280800100045 (20210929A) SD: Major corrections in all Subents. 2280800100046 Subents 008-013 added. 2280800100047 ENDBIB 45 0 2280800100048 COMMON 6 3 2280800100049 KT-NRM ERR-1 ERR-2 ERR-3 ERR-4 ERR-5 2280800100050 KEV PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT 2280800100051 25. 2. 5. 1.5 1.5 2.5 2280800100052 ENDCOMMON 3 0 2280800100053 ENDSUBENT 52 0 2280800199999 SUBENT 22808002 20210929 23042280800200001 BIB 10 22 2280800200002 REACTION (36-KR-84(N,G)36-KR-85-M,,SIG,,SPA) 2280800200003 METHOD (STTA) Stack-target irradiation, gold monitor samples 2280800200004 in front- and back-sides of the zeolite plate 2280800200005 DECAY-DATA (36-KR-85-M,4.48HR,DG,151.159,0.753, 2280800200006 DG,304.87,0.140) 2280800200007 151.159 keV with intensity per decay: 75.3 +- 3.3% 2280800200008 304.87 keV with intensity per decay: 14.0 +- 0.4% 2280800200009 SAMPLE Krypton-loaded Zeolite, mass from 48.1 to 59.4 mg, 2280800200010 Kr - natural isotopic abundance, 2280800200011 loaded by 46.82+-3.86(cm3 NTR Kr)/(1.gr Zeolite) 2280800200012 MONIT-REF (22099002,W.Ratynski+,J,PR/C,37,595,1988) 2280800200013 INC-SOURCE (P-LI7) Lithium layer thickness is 2.5 mum 2280800200014 INC-SPECT For neutron energy 30 keV proton energy was 1882 keV. 2280800200015 For higher neutron energies proton energies were 2280800200016 adjusted correspondingly. Spread of the neutron 2280800200017 spectrum is determined by the target thickness 2280800200018 ERR-ANALYS (ERR-6) Error of krypton content in Zeolite 2280800200019 (ERR-S) Statistical error 2280800200020 (MONIT-ERR) Error of standard cross-section 2280800200021 STATUS (TABLE) Table 2 from Nucl.Phys.,A705(2002)239 2280800200022 (SPSDD,22808016) 2280800200023 HISTORY (20210929A) SD: BIB updated. Subent superseded. 2280800200024 ENDBIB 22 0 2280800200025 COMMON 4 3 2280800200026 KT-DUM-NRM MONIT MONIT-ERR ERR-6 2280800200027 KEV MB MB PER-CENT 2280800200028 25. 586. 9. 8.3 2280800200029 ENDCOMMON 3 0 2280800200030 DATA 5 5 2280800200031 EN-MEAN EN-RSL-HW DATA ERR-T ERR-S 2280800200032 KEV KEV MB MB PER-CENT 2280800200033 30. 5. 15.4 1.69 0.37 2280800200034 104. 20. 8.76 0.96 0.93 2280800200035 149. 20. 6.82 0.75 0.54 2280800200036 180. 20. 6.49 0.71 0.39 2280800200037 215. 23. 6.36 0.70 0.50 2280800200038 ENDDATA 7 0 2280800200039 ENDSUBENT 38 0 2280800299999 SUBENT 22808003 20210929 23042280800300001 BIB 9 18 2280800300002 REACTION (10-NE-22(N,G)10-NE-23,,SIG,,SPA) 2280800300003 SAMPLE Neon-krypton gas mixture in a high-pressure stainless 2280800300004 steel sphere, 10 mm inner diameter, 0.5 mm wall 2280800300005 thickness. Sample masses in mg - 250(Ne)/211(Kr), 2280800300006 157(Ne)/179(Kr), 136(Ne)/156(Kr) 2280800300007 Ne-22 enrichment is 99.9% 2280800300008 DECAY-DATA (10-NE-23,37.2SEC,DG,439.98,0.329) 2280800300009 439.98 keV with intensity per decay: 32.9 +- 1.0% 2280800300010 MONIT-REF (22099002,W.Ratynski+,J,PR/C,37,595,1988) 2280800300011 INC-SOURCE (P-LI7) Lithium target thickness is 2.5 mum 2280800300012 INC-SPECT For neutron energies proton energies were 2280800300013 adjusted correspondingly. Spread of the neutron 2280800300014 spectrum is determined by the target thickness 2280800300015 ERR-ANALYS (ERR-S) Statistical error 2280800300016 (MONIT-ERR) Error of standard cross-section 2280800300017 STATUS (TABLE) Table 3 from Nucl.Phys.,A705(2002)239 2280800300018 HISTORY (20080527A) Units corrected to microbarn 2280800300019 (20210929U) SD: BIB updated. 2280800300020 ENDBIB 18 0 2280800300021 COMMON 3 3 2280800300022 KT-DUM-NRM MONIT MONIT-ERR 2280800300023 KEV MB MB 2280800300024 25. 586. 9. 2280800300025 ENDCOMMON 3 0 2280800300026 DATA 5 3 2280800300027 EN-MEAN EN-RSL-HW DATA ERR-T ERR-S 2280800300028 KEV KEV MICRO-B MICRO-B PER-CENT 2280800300029 149. 20. 30.3 4.5 9. 2280800300030 180. 20. 32.5 6.1 15. 2280800300031 215. 23. 33.4 6.2 15. 2280800300032 ENDDATA 5 0 2280800300033 ENDSUBENT 32 0 2280800399999 SUBENT 22808004 20210929 23042280800400001 BIB 9 19 2280800400002 REACTION (18-AR-40(N,G)18-AR-41,,SIG,,SPA) 2280800400003 DECAY-DATA (18-AR-41,109.34MIN,DG,1293.587,0.991) 2280800400004 109.34 keV with intensity per decay: 99.1 +- 0.8% 2280800400005 MONIT-REF (22099002,W.Ratynski+,J,PR/C,37,595,1988) 2280800400006 SAMPLE Argon-krypton gas mixture in a high-pressure 2280800400007 stainless steel sphere, 10 mm inner diameter, 2280800400008 0.5 mm wall thickness. Sample weight in mg - 2280800400009 167(Ar)/376(Kr), 190(Ar)/358(Kr) 2280800400010 Ar-40 is of natural isotopic abundance 2280800400011 INC-SOURCE (P-LI7) Lithium layer thickness is 2.5 mum 2280800400012 INC-SPECT For neutron energy 30 keV proton energy was 1882 keV. 2280800400013 For higher neutron energies proton energies were 2280800400014 adjusted correspondingly. Spread of the neutron 2280800400015 spectrum is determined by the target thickness 2280800400016 ERR-ANALYS (ERR-S) Statistical error 2280800400017 (MONIT-ERR) Error of standard cross-section 2280800400018 STATUS (TABLE) Table 4 from Nucl.Phys.,A705(2002)239 2280800400019 (SPSDD,22808017) 2280800400020 HISTORY (20210929A) SD: BIB updated. Subent superseded. 2280800400021 ENDBIB 19 0 2280800400022 COMMON 3 3 2280800400023 KT-DUM-NRM MONIT MONIT-ERR 2280800400024 KEV MB MB 2280800400025 25. 586. 9. 2280800400026 ENDCOMMON 3 0 2280800400027 DATA 5 5 2280800400028 EN-MEAN EN-RSL-HW DATA ERR-T ERR-S 2280800400029 KEV KEV MB MB PER-CENT 2280800400030 30. 5. 0.842 0.091 0.65 2280800400031 104. 20. 1.45 0.16 1.1 2280800400032 149. 20. 0.771 0.085 2.2 2280800400033 180. 20. 1.11 0.12 2.0 2280800400034 215. 23. 1.34 0.15 1.8 2280800400035 ENDDATA 7 0 2280800400036 ENDSUBENT 35 0 2280800499999 SUBENT 22808005 20210929 23042280800500001 BIB 8 12 2280800500002 REACTION (36-KR-78(N,G)36-KR-79-M,,SIG,,SPA) 2280800500003 DECAY-DATA (36-KR-79-M,50.SEC,DG,129.77,0.272) 2280800500004 129.77 keV with intensity per decay: 27.2 +- 0.6% 2280800500005 INC-SOURCE (P-LI7) Lithium layer thickness is 2.5 mum 2280800500006 INC-SPECT Energies were adjusted correspondingly. Spread of the 2280800500007 neutron spectrum is determined by the target thickness2280800500008 SAMPLE Natural krypton gas mixture in a stainless steel 2280800500009 sphere, 10 mm inner diameter, 0.5 mm wall thickness 2280800500010 ERR-ANALYS (ERR-S) Statistical error 2280800500011 STATUS (TABLE) Table 3 from Nucl.Phys.,A705(2002)239 2280800500012 HISTORY (20080527A) Data error corrected 2280800500013 (20210929U) SD: BIB updated. 2280800500014 ENDBIB 12 0 2280800500015 NOCOMMON 0 0 2280800500016 DATA 5 3 2280800500017 EN-MEAN EN-RSL-HW DATA ERR-T ERR-S 2280800500018 KEV KEV MB MB PER-CENT 2280800500019 149. 20. 90.0 9.1 2.4 2280800500020 180. 20. 111. 11. 1.9 2280800500021 215. 23. 118. 12. 2.0 2280800500022 ENDDATA 5 0 2280800500023 ENDSUBENT 22 0 2280800599999 SUBENT 22808006 20210929 23042280800600001 BIB 8 11 2280800600002 REACTION (36-KR-80(N,G)36-KR-81-M,,SIG,,SPA) 2280800600003 DECAY-DATA (36-KR-81-M,13.1SEC,DG,190.53,0.670) 2280800600004 190.53 keV with intensity per decay: 67.0 +- 0.7% 2280800600005 INC-SOURCE (P-LI7) Lithium layer thickness is 2.5 mum 2280800600006 INC-SPECT Energies were adjusted correspondingly. Spread of the 2280800600007 neutron spectrum is determined by the target thickness2280800600008 SAMPLE Natural krypton gas mixture in a stainless steel 2280800600009 sphere, 10 mm inner diameter, 0.5 mm wall thickness 2280800600010 ERR-ANALYS (ERR-S) Statistical error 2280800600011 STATUS (TABLE) Table 3 from Nucl.Phys.,A705(2002)239 2280800600012 HISTORY (20210929U) SD: BIB updated. 2280800600013 ENDBIB 11 0 2280800600014 NOCOMMON 0 0 2280800600015 DATA 5 3 2280800600016 EN-MEAN EN-RSL-HW DATA ERR-T ERR-S 2280800600017 KEV KEV MB MB PER-CENT 2280800600018 149. 20. 45.9 4.5 0.71 2280800600019 180. 20. 47.6 4.6 0.56 2280800600020 215. 23. 46.5 4.5 0.71 2280800600021 ENDDATA 5 0 2280800600022 ENDSUBENT 21 0 2280800699999 SUBENT 22808007 20210929 23042280800700001 BIB 8 12 2280800700002 REACTION (36-KR-86(N,G)36-KR-87,,SIG,,SPA) 2280800700003 DECAY-DATA (36-KR-87,76.3MIN,DG,402.587,0.500) 2280800700004 402.587 keV with intensity per decay: 50.0 +- 3.0% 2280800700005 INC-SOURCE (P-LI7) Lithium layer thickness is 2.5 mum 2280800700006 INC-SPECT Energies were adjusted correspondingly. Spread 2280800700007 of the neutron spectrum is determined by the target 2280800700008 thickness 2280800700009 SAMPLE Natural krypton gas mixture in a stainless steel 2280800700010 sphere, 10 mm inner diameter, 0.5 2280800700011 ERR-ANALYS (ERR-S) Statistical error 2280800700012 STATUS (TABLE) Table 3 from Nucl.Phys.,A705(2002)239 2280800700013 HISTORY (20210929U) SD: BIB updated. 2280800700014 ENDBIB 12 0 2280800700015 NOCOMMON 0 0 2280800700016 DATA 5 3 2280800700017 EN-MEAN EN-RSL-HW DATA ERR-T ERR-S 2280800700018 KEV KEV MB MB PER-CENT 2280800700019 149. 20. 1.40 0.16 2.6 2280800700020 180. 20. 1.34 0.16 2.7 2280800700021 215. 23. 1.23 0.15 3.9 2280800700022 ENDDATA 5 0 2280800700023 ENDSUBENT 22 0 2280800799999 SUBENT 22808008 20210929 23042280800800001 BIB 8 17 2280800800002 REACTION (10-NE-22(N,G)10-NE-23,,SIG,,MXW) 2280800800003 SAMPLE Neon-krypton gas mixture in a high-pressure stainless 2280800800004 steel sphere, 10 mm inner diameter, 0.5 mm wall 2280800800005 thickness. Sample masses in mg - 250(Ne)/ 211(Kr), 2280800800006 157(Ne)/179(Kr), 136(Ne)/156(Kr) 2280800800007 Ne-22 enrichment is 99.9% 2280800800008 DECAY-DATA (10-NE-23,37.2SEC,DG,439.88,0.329) 2280800800009 439.88 keV with intensity per decay: 32.9 +- 1.0% 2280800800010 INC-SOURCE (P-T) 2280800800011 INC-SPECT Proton energy and target thickness were chosen to 2280800800012 give approximately Maxwell energy distribution 2280800800013 with effective temperature 52 keV 2280800800014 ERR-ANALYS (ERR-S) Statistical error 2280800800015 STATUS (TABLE) Table 3 from Nucl.Phys.,A705(2002)239 2280800800016 HISTORY (20080527A) EN-MEAN changed to KT. 2280800800017 Units corrected to microbarn 2280800800018 (20210929U) SD: BIB updated. 2280800800019 ENDBIB 17 0 2280800800020 NOCOMMON 0 0 2280800800021 DATA 4 1 2280800800022 KT DATA ERR-T ERR-S 2280800800023 KEV MICRO-B MICRO-B PER-CENT 2280800800024 52. 43. 4.8 3.3 2280800800025 ENDDATA 3 0 2280800800026 ENDSUBENT 25 0 2280800899999 SUBENT 22808009 20210929 23042280800900001 BIB 9 20 2280800900002 REACTION (18-AR-40(N,G)18-AR-41,,SIG,,MXW) 2280800900003 DECAY-DATA (18-AR-41,109.34MIN,DG,1293.587,0.991) 2280800900004 1293.587 keV with intensity per decay: 99.1 +- 0.8% 2280800900005 MONIT-REF (22099002,W.Ratynski+,J,PR/C,37,595,1988) 2280800900006 SAMPLE Argon-krypton gas mixture in a high-pressure 2280800900007 stainless steel sphere, 10 mm inner diameter, 2280800900008 0.5 mm wall thickness. Sample weight in mg - 2280800900009 167(Ar)/376(Kr), 190(Ar)/358(Kr) 2280800900010 Ar-40 is of natural isotopic abundance 2280800900011 INC-SOURCE (P-LI7) For 25 keV Maxwell spectrum temperature 2280800900012 (P-T) For 52 keV Maxwell spectrum temperature 2280800900013 INC-SPECT Proton energy and target thickness were chosen to 2280800900014 give approximately Maxwell energy distribution 2280800900015 with effective temperatures 25 and 52 keV 2280800900016 ERR-ANALYS (ERR-S) Statistical error 2280800900017 (MONIT-ERR) Error of standard cross-section 2280800900018 STATUS (TABLE) Table 4 from Nucl.Phys.,A705(2002)239 2280800900019 HISTORY (20080527A) EN-MEAN changed to KT 2280800900020 Numerical errors corrected 2280800900021 (20210929U) SD: BIB updated. 2280800900022 ENDBIB 20 0 2280800900023 COMMON 4 3 2280800900024 KT-DUM-NRM MONIT MONIT-ERR ERR-T 2280800900025 KEV MB MB MB 2280800900026 25. 586. 9. 0.24 2280800900027 ENDCOMMON 3 0 2280800900028 DATA 3 2 2280800900029 KT DATA ERR-S 2280800900030 KEV MB PER-CENT 2280800900031 25. 2.24 0.34 2280800900032 52. 2.35 0.73 2280800900033 ENDDATA 4 0 2280800900034 ENDSUBENT 33 0 2280800999999 SUBENT 22808010 20210929 23042280801000001 BIB 8 13 2280801000002 REACTION (36-KR-78(N,G)36-KR-79-M,,SIG,,MXW) 2280801000003 DECAY-DATA (36-KR-79-M,50.SEC,DG,129.77,0.272) 2280801000004 129.77 keV with intensity per decay: 27.2 +- 0.6% 2280801000005 INC-SOURCE (P-T) 2280801000006 INC-SPECT Proton energy and target thickness were chosen to 2280801000007 give approximately Maxwell energy distribution 2280801000008 with effective temperature 52 keV 2280801000009 ERR-ANALYS (ERR-S) Statistical error 2280801000010 SAMPLE Natural krypton gas mixture in a stainless steel 2280801000011 sphere, 10 mm inner diameter, 0.5 mm wall thickness 2280801000012 STATUS (TABLE) Table 3 from Nucl.Phys.,A705(2002)239 2280801000013 HISTORY (20080527A) EN-MEAN changed to KT 2280801000014 (20210929U) SD: BIB updated. 2280801000015 ENDBIB 13 0 2280801000016 NOCOMMON 0 0 2280801000017 DATA 4 1 2280801000018 KT DATA ERR-T ERR-S 2280801000019 KEV MB MB PER-CENT 2280801000020 52. 82.8 8.7 1.5 2280801000021 ENDDATA 3 0 2280801000022 ENDSUBENT 21 0 2280801099999 SUBENT 22808011 20210929 23042280801100001 BIB 8 15 2280801100002 REACTION (36-KR-78(N,G)36-KR-79,,SIG,,MXW) 2280801100003 DECAY-DATA (36-KR-79-G,35.04HR,DG,261.79,0.127, 2280801100004 DG,397.54,0.093) 2280801100005 261.79 keV with intensity per decay: 12.7 +- 0.4% 2280801100006 397.54 keV with intensity per decay: 9.3 +- 0.3% 2280801100007 INC-SOURCE (P-T) 2280801100008 INC-SPECT Proton energy and target thickness were chosen to 2280801100009 give approximately Maxwell energy distribution 2280801100010 with effective temperature 52 keV 2280801100011 SAMPLE Natural krypton gas mixture in a stainless steel 2280801100012 sphere, 10 mm inner diameter, 0.5 mm wall thickness 2280801100013 ERR-ANALYS (ERR-S) Statistical error 2280801100014 STATUS (TABLE) Table 3 from Nucl.Phys.,A705(2002)239 2280801100015 HISTORY (20080527A) EN-MEAN changed to KT 2280801100016 (20210929U) SD: BIB updated. 2280801100017 ENDBIB 15 0 2280801100018 NOCOMMON 0 0 2280801100019 DATA 4 1 2280801100020 KT DATA ERR-T ERR-S 2280801100021 KEV MB MB PER-CENT 2280801100022 52. 226. 25. 2.5 2280801100023 ENDDATA 3 0 2280801100024 ENDSUBENT 23 0 2280801199999 SUBENT 22808012 20210929 23042280801200001 BIB 8 13 2280801200002 REACTION (36-KR-80(N,G)36-KR-81-M,,SIG,,MXW) 2280801200003 DECAY-DATA (36-KR-81-M,13.1SEC,DG,190.53,0.670) 2280801200004 190.53 keV with intensity per decay: 67.0 +- 0.7% 2280801200005 INC-SOURCE (P-T) 2280801200006 INC-SPECT Proton energy and target thickness were chosen to 2280801200007 give approximately Maxwell energy distribution 2280801200008 with effective temperature 52 keV 2280801200009 SAMPLE Natural krypton gas mixture in a stainless steel 2280801200010 sphere, 10 mm inner diameter, 0.5 mm wall thickness 2280801200011 ERR-ANALYS (ERR-S) Statistical error 2280801200012 STATUS (TABLE) Table 3 from Nucl.Phys.,A705(2002)239 2280801200013 HISTORY (20080527A) EN-MEAN changed to KT 2280801200014 (20210929U) SD: BIB updated. 2280801200015 ENDBIB 13 0 2280801200016 NOCOMMON 0 0 2280801200017 DATA 4 1 2280801200018 KT DATA ERR-T ERR-S 2280801200019 KEV MB MB PER-CENT 2280801200020 52. 65.5 6.7 0.37 2280801200021 ENDDATA 3 0 2280801200022 ENDSUBENT 21 0 2280801299999 SUBENT 22808013 20210929 23042280801300001 BIB 9 16 2280801300002 REACTION (36-KR-86(N,G)36-KR-87,,SIG,,MXW) 2280801300003 DECAY-DATA (36-KR-87,76.3MIN,DG,402.587,0.500) 2280801300004 402.587 keV with intensity per decay: 50.0 +- 3.0% 2280801300005 MONIT-REF (22099002,W.Ratynski+,J,PR/C,37,595,1988) 2280801300006 INC-SOURCE (P-LI7) 2280801300007 INC-SPECT Proton energy and target thickness were chosen to 2280801300008 give approximately Maxwell energy distribution 2280801300009 with effective temperature 25 keV 2280801300010 SAMPLE Natural krypton gas mixture in a stainless steel 2280801300011 sphere, 10 mm inner diameter, 0.5 mm wall thickness 2280801300012 ERR-ANALYS (ERR-S) Statistical error 2280801300013 (MONIT-ERR) Error of standard cross-section 2280801300014 STATUS (TABLE) Table 3 from Nucl.Phys.,A705(2002)239 2280801300015 (SPSDD,22808019) Renormalized. 2280801300016 HISTORY (20080527A) EN-MEAN changed to KT 2280801300017 (20210929A) SD: BIB updated. Subent superseded. 2280801300018 ENDBIB 16 0 2280801300019 COMMON 2 3 2280801300020 MONIT MONIT-ERR 2280801300021 MB MB 2280801300022 586. 9. 2280801300023 ENDCOMMON 3 0 2280801300024 DATA 4 1 2280801300025 KT DATA ERR-T ERR-S 2280801300026 KEV MB MB PER-CENT 2280801300027 25. 3.49 0.4 0.58 2280801300028 ENDDATA 3 0 2280801300029 ENDSUBENT 28 0 2280801399999 SUBENT 22808014 20210929 23042280801400001 BIB 8 15 2280801400002 REACTION (10-NE-22(N,G)10-NE-23,,SIG,,MXW,DERIV) 2280801400003 INC-SPECT Maxwellian 2280801400004 DECAY-DATA (10-NE-23,37.2SEC,DG,439.88,0.329) 2280801400005 439.88 keV with intensity per decay: 32.9 +- 1.0% 2280801400006 REL-REF (N,V0102020,Z.Y.Bao+,J,AND,76,70,2000) 2280801400007 MONIT-REF (22099002,W.Ratynski+,J,PR/C,37,595,1988) 2280801400008 FLAG (1.) Disagree with Bao et al., See (REL-REF) 2280801400009 (2.) Agree with Bao et al., See (REL-REF) 2280801400010 STATUS (TABLE) Table 6 from Nucl.Phys.,A705(2002)239 2280801400011 (DEP,22808003) 2280801400012 (DEP,22808008) 2280801400013 (SPSDD,22808020) Renormalized. 2280801400014 HISTORY (20080520A) EN-MEAN changed to KT 2280801400015 (20080527U) Last checking has been done. 2280801400016 (20210929A) SD: BIB updated. Subent superseded. 2280801400017 ENDBIB 15 0 2280801400018 NOCOMMON 0 0 2280801400019 DATA 4 40 2280801400020 KT DATA ERR-T FLAG 2280801400021 KEV MB MB NO-DIM 2280801400022 1.0 0.296 0.019 2280801400023 1.2 0.270 0.017 2280801400024 1.4 0.250 0.016 2280801400025 1.6 0.234 0.015 2280801400026 1.8 0.221 0.014 2280801400027 2.0 0.210 0.013 2280801400028 2.5 0.188 0.012 2280801400029 3.0 0.172 0.011 2280801400030 4.0 0.149 0.010 2280801400031 5.0 0.133 0.009 1. 2280801400032 6.0 0.122 0.008 2280801400033 7.0 0.113 0.007 2280801400034 8.0 0.106 0.007 2280801400035 10.0 0.095 0.006 1. 2280801400036 12.0 0.087 0.006 2280801400037 15.0 0.078 0.005 1. 2280801400038 17.0 0.073 0.005 2280801400039 20.0 0.068 0.004 1. 2280801400040 21.0 0.065 0.004 2280801400041 25.0 0.062 0.004 1. 2280801400042 30.0 0.058 0.004 2. 2280801400043 35.0 0.056 0.004 2280801400044 40.0 0.056 0.005 2. 2280801400045 50.0 0.061 0.007 1. 2280801400046 52.0 0.063 0.008 2280801400047 60.0 0.069 0.011 1. 2280801400048 70.0 0.077 0.014 2280801400049 80.0 0.085 0.017 1. 2280801400050 90.0 0.091 0.019 2280801400051 100.0 0.095 0.021 1. 2280801400052 104.0 0.097 0.021 2280801400053 120.0 0.100 0.023 2280801400054 149.0 0.100 0.024 2280801400055 150.0 0.100 0.024 2280801400056 180.0 0.094 0.023 2280801400057 200.0 0.090 0.022 2280801400058 215.0 0.086 0.022 2280801400059 220.0 0.085 0.021 2280801400060 230.0 0.082 0.021 2280801400061 250.0 0.077 0.020 2280801400062 ENDDATA 42 0 2280801400063 ENDSUBENT 62 0 2280801499999 SUBENT 22808015 20210929 23042280801500001 BIB 8 15 2280801500002 REACTION (18-AR-40(N,G)18-AR-41,,SIG,,MXW,DERIV) 2280801500003 INC-SPECT Maxwellian 2280801500004 DECAY-DATA (18-AR-41,109.34MIN,DG,1293.587,0.991) 2280801500005 1293.587 keV with intensity per decay: 99.1 +- 0.8% 2280801500006 MONIT-REF (22099002,W.Ratynski+,J,PR/C,37,595,1988) 2280801500007 REL-REF (N,V0102047,Z.Y.Bao+,J,AND,76,70,2000) 2280801500008 FLAG (1.) Disagree with Bao et al., See (REL-REF) 2280801500009 (2.) Agree with Bao et al., See (REL-REF) 2280801500010 STATUS (TABLE) Table 6 from Nucl.Phys.,A705(2002)239 2280801500011 (DEP,22808004) 2280801500012 (DEP,22808009) 2280801500013 (SPSDD,22808021) Renormalized. 2280801500014 HISTORY (20080520A) EN-MEAN changed to KT 2280801500015 (20080527U) BIB information corrected. 2280801500016 (20210929U) SD: BIB updated. 2280801500017 ENDBIB 15 0 2280801500018 NOCOMMON 0 0 2280801500019 DATA 4 40 2280801500020 KT DATA ERR-T FLAG 2280801500021 KEV MB MB NO-DIM 2280801500022 1.0 3.35 0.05 2280801500023 1.2 3.08 0.05 2280801500024 1.4 2.90 0.04 2280801500025 1.6 2.78 0.04 2280801500026 1.8 2.71 0.04 2280801500027 2.0 2.68 0.04 2280801500028 2.5 2.74 0.06 2280801500029 3.0 2.88 0.08 2280801500030 4.0 3.15 0.12 2280801500031 5.0 3.30 0.14 1. 2280801500032 6.0 3.32 0.15 2280801500033 7.0 3.27 0.16 2280801500034 8.0 3.17 0.15 2280801500035 10.0 2.96 0.15 1. 2280801500036 12.0 2.80 0.16 2280801500037 15.0 2.66 0.18 2. 2280801500038 17.0 2.62 0.19 2280801500039 20.0 2.59 0.22 2. 2280801500040 21.0 2.57 0.24 2280801500041 25.0 2.56 0.26 2. 2280801500042 30.0 2.52 0.28 2. 2280801500043 35.0 2.46 0.30 2280801500044 40.0 2.38 0.30 2. 2280801500045 50.0 2.23 0.29 1. 2280801500046 52.0 2.20 0.29 2280801500047 60.0 2.08 0.27 1. 2280801500048 70.0 1.95 0.25 2280801500049 80.0 1.83 0.23 2280801500050 90.0 1.72 0.22 2280801500051 100.0 1.63 0.20 2280801500052 104.0 1.59 0.20 2280801500053 120.0 1.46 0.18 2280801500054 149.0 1.28 0.15 2280801500055 150.0 1.27 0.15 2280801500056 180.0 1.12 0.13 2280801500057 200.0 1.03 0.11 2280801500058 215.0 0.98 0.11 2280801500059 220.0 0.96 0.10 2280801500060 230.0 0.93 0.10 2280801500061 250.0 0.86 0.09 2280801500062 ENDDATA 42 0 2280801500063 ENDSUBENT 62 0 2280801599999 SUBENT 22808016 20210929 23042280801600001 BIB 12 26 2280801600002 REACTION 1((36-KR-84(N,G)36-KR-85-M,,SIG,,SPA)/ 2280801600003 (79-AU-197(N,G)79-AU-198,,SIG,,SPA)) 2280801600004 2(36-KR-84(N,G)36-KR-85-M,,SIG,,SPA) 2280801600005 DECAY-DATA (36-KR-85-M,4.48HR,DG,151.159,0.753, 2280801600006 DG,304.87,0.140) 2280801600007 151.159 keV with intensity per dacay: 75.3 +- 3.3% 2280801600008 304.87 keV with intensity per dacay: 14.0 +- 0.4% 2280801600009 SAMPLE Krypton-loaded Zeolite, mass from 48.1 to 59.4 mg, 2280801600010 Kr - natural isotopic abundance, 2280801600011 loaded by 46.82+-3.86(cm3 NTR Kr)/(1.gr Zeolite) 2280801600012 MONIT-REF (,R.Reifarth+,J,EPJ/P,133,424,2018) 2280801600013 INC-SOURCE (P-LI7) Lithium layer thickness is 2.5 mum 2280801600014 INC-SPECT For neutron energy 30 keV proton energy was 1882 keV. 2280801600015 For higher neutron energies proton energies were 2280801600016 adjusted correspondingly. Spread of the neutron 2280801600017 spectrum is determined by the target thickness 2280801600018 METHOD (STTA) Stack-target irradiation, gold monitor samples 2280801600019 in front- and back-sides of the zeolite plate 2280801600020 ANALYSIS Cross section value in Subent 22808.002 is 2280801600021 renormalized for new gold cross section 2280801600022 CORRECTION Correction for revised gold standard 622.7/586 =1.062 2280801600023 at 30 keV, gradually reduced to 1.010 at 215 keV 2280801600024 ERR-ANALYS (ERR-6) Error of krypton content in Zeolite 2280801600025 (MONIT-ERR) Error of standard cross-section 2280801600026 STATUS (TABLE) p.145 of INDC(GER)-0053 2280801600027 HISTORY (20210929C) SD: 2280801600028 ENDBIB 26 0 2280801600029 COMMON 3 3 2280801600030 MONIT MONIT-ERR ERR-6 2280801600031 MB PER-CENT PER-CENT 2280801600032 622.7 1. 8.3 2280801600033 ENDCOMMON 3 0 2280801600034 DATA 6 5 2280801600035 EN-MEAN EN-RSL-HW DATA 2ERR-T 2DATA 1ERR-T 12280801600036 KEV KEV MB MB NO-DIM NO-DIM 2280801600037 30. 5. 16.4 1.79 0.0265 0.00292280801600038 104. 20. 9.30 1.02 2280801600039 149. 20. 7.11 0.78 2280801600040 180. 20. 6.62 0.72 2280801600041 215. 23. 6.42 0.71 2280801600042 ENDDATA 7 0 2280801600043 ENDSUBENT 42 0 2280801699999 SUBENT 22808017 20210929 23042280801700001 BIB 12 24 2280801700002 REACTION 1((18-AR-40(N,G)18-AR-41,,SIG,,SPA)/ 2280801700003 (79-AU-197(N,G)79-AU-198,,SIG,,SPA)) 2280801700004 2(18-AR-40(N,G)18-AR-41,,SIG,,SPA) 2280801700005 DECAY-DATA (18-AR-41,109.34MIN,DG,1293.587,0.991) 2280801700006 109.34 keV with intensity per decay: 99.1 +- 0.8% 2280801700007 MONITOR ((MONIT)79-AU-197(N,G)79-AU-198,,SIG,,SPA) 2280801700008 MONIT-REF (,R.Reifarth+,J,EPJ/P,133,424,2018) 2280801700009 CORRECTION Correction for revised gold standard: 622.7/586=1.062 2280801700010 at 30 keV, gradually reduced to 1.010 at 215 keV 2280801700011 SAMPLE Argon-krypton gas mixture in a high-pressure 2280801700012 stainless steel sphere, 10 mm inner diameter, 2280801700013 0.5 mm wall thickness. Sample weight in mg - 2280801700014 167(Ar)/376(Kr), 190(Ar)/358(Kr) 2280801700015 Ar-40 is of natural isotopic abundance 2280801700016 INC-SOURCE (P-LI7) Lithium layer thickness is 2.5 mum 2280801700017 INC-SPECT For neutron energy 30 keV proton energy was 1882 keV. 2280801700018 For higher neutron energies proton energies were 2280801700019 adjusted correspondingly. Spread of the neutron 2280801700020 spectrum is determined by the target thickness 2280801700021 ANALYSIS Cross section values in 22808.004 are renormalized 2280801700022 for new gold cross section 2280801700023 ERR-ANALYS (MONIT-ERR) Error of standard cross-section 2280801700024 STATUS (TABLE) p.146 of INDC(GER)-0053 2280801700025 HISTORY (20210929C) SD: 2280801700026 ENDBIB 24 0 2280801700027 COMMON 2 3 2280801700028 MONIT MONIT-ERR 2280801700029 MB PER-CENT 2280801700030 622.7 1. 2280801700031 ENDCOMMON 3 0 2280801700032 DATA 6 5 2280801700033 EN-MEAN EN-RSL-HW DATA 2ERR-T 2DATA 1ERR-T 12280801700034 KEV KEV MB MB NO-DIM NO-DIM 2280801700035 30. 5. 0.894 0.096 0.00145 0.000162280801700036 104. 20. 1.54 0.17 2280801700037 149. 20. 0.803 0.088 2280801700038 180. 20. 1.13 0.12 2280801700039 215. 23. 1.36 0.15 2280801700040 ENDDATA 7 0 2280801700041 ENDSUBENT 40 0 2280801799999 SUBENT 22808018 20210929 23042280801800001 BIB 11 23 2280801800002 REACTION (18-AR-40(N,G)18-AR-41,,SIG,,MXW) 2280801800003 DECAY-DATA (18-AR-41,109.34MIN,DG,1293.587,0.991) 2280801800004 1293.587 keV with intensity per decay: 99.1 +- 0.8% 2280801800005 MONIT-REF (,R.Reifarth+,J,EPJ/P,133,424,2018) 2280801800006 SAMPLE Argon-krypton gas mixture in a high-pressure 2280801800007 stainless steel sphere, 10 mm inner diameter, 2280801800008 0.5 mm wall thickness. Sample weight in mg - 2280801800009 167(Ar)/376(Kr), 190(Ar)/358(Kr) 2280801800010 Ar-40 is of natural isotopic abundance 2280801800011 INC-SOURCE (P-LI7) For 25 keV Maxwell spectrum temperature 2280801800012 (P-T) For 52 keV Maxwell spectrum temperature 2280801800013 INC-SPECT Proton energy and target thickness were chosen to 2280801800014 give approximately Maxwell energy distribution 2280801800015 with effective temperatures 25 and 52 keV 2280801800016 ANALYSIS Cross section value in subentry 22808.009 is 2280801800017 renormalized for new gold cross section 2280801800018 CORRECTION Correction for revised gold standard: 622.7/586=1.062 2280801800019 up to 50 keV, gradually reduced to 1.01 at 250 keV 2280801800020 ERR-ANALYS (MONIT-ERR) Error of standard cross-section 2280801800021 STATUS (TABLE) p.147 of INDC(GER)-0053 2280801800022 HISTORY (20080527A) EN-MEAN changed to KT 2280801800023 Numerical errors corrected 2280801800024 (20210929U) SD: BIB updated. 2280801800025 ENDBIB 23 0 2280801800026 COMMON 3 3 2280801800027 MONIT MONIT-ERR ERR-T 2280801800028 MB PER-CENT MB 2280801800029 622.7 1. 0.24 2280801800030 ENDCOMMON 3 0 2280801800031 DATA 2 2 2280801800032 KT DATA 2280801800033 KEV MB 2280801800034 25. 2.28 2280801800035 52. 2.50 2280801800036 ENDDATA 4 0 2280801800037 ENDSUBENT 36 0 2280801899999 SUBENT 22808019 20210929 23042280801900001 BIB 10 15 2280801900002 REACTION (36-KR-86(N,G)36-KR-87,,SIG,,MXW) 2280801900003 DECAY-DATA (36-KR-87,76.3MIN,DG,402.587,0.500) 2280801900004 402.587 keV with intensity per decay: 50.0 +- 3.0% 2280801900005 MONIT-REF (,R.Reifarth+,J,EPJ/P,133,424,2018) 2280801900006 ANALYSIS Cross section value in subentry 22808.013 is 2280801900007 renormalized for new gold cross section 2280801900008 INC-SOURCE (P-LI7) 2280801900009 INC-SPECT Proton energy and target thickness were chosen to 2280801900010 give approximately Maxwell energy distribution 2280801900011 with effective temperature 25 keV 2280801900012 SAMPLE Natural krypton gas mixture in a stainless steel 2280801900013 sphere, 10 mm inner diameter, 0.5 mm wall thickness 2280801900014 ERR-ANALYS (MONIT-ERR) Error of standard cross-section 2280801900015 STATUS (TABLE) p.148 of INDC(GER)-0053 2280801900016 HISTORY (20210929C) SD: 2280801900017 ENDBIB 15 0 2280801900018 NOCOMMON 0 0 2280801900019 DATA 5 1 2280801900020 KT DATA ERR-T MONIT MONIT-ERR 2280801900021 KEV MB MB MB PER-CENT 2280801900022 25. 3.71 0.42 622.7 1. 2280801900023 ENDDATA 3 0 2280801900024 ENDSUBENT 23 0 2280801999999 SUBENT 22808020 20210929 23042280802000001 BIB 8 11 2280802000002 REACTION (10-NE-22(N,G)10-NE-23,,SIG,,MXW,DERIV) 2280802000003 INC-SPECT Maxwellian 2280802000004 DECAY-DATA (10-NE-23,37.2SEC,DG,439.88,0.329) 2280802000005 439.88 keV with intensity per decay: 32.9 +- 1.0% 2280802000006 MONIT-REF (,R.Reifarth+,J,EPJ/P,133,424,2018) 2280802000007 ANALYSIS Cross section value in subentry 22808.014 is 2280802000008 renormalized for new gold cross section 2280802000009 CORRECTION Correction for revised gold standard: 622.7/586=1.062 2280802000010 up to 50 keV, gradually reduced to 1.01 at 250 keV 2280802000011 STATUS (TABLE) p.151 of INDC(GER)-0053 2280802000012 HISTORY (20210929C) SD: 2280802000013 ENDBIB 11 0 2280802000014 NOCOMMON 0 0 2280802000015 DATA 3 40 2280802000016 KT DATA ERR-T 2280802000017 KEV MB MB 2280802000018 1.0 0.314 0.018 2280802000019 1.2 0.287 0.015 2280802000020 1.4 0.266 0.014 2280802000021 1.6 0.249 0.013 2280802000022 1.8 0.235 0.012 2280802000023 2.0 0.223 0.011 2280802000024 2.5 0.200 0.010 2280802000025 3.0 0.183 0.010 2280802000026 4.0 0.158 0.009 2280802000027 5.0 0.141 0.008 2280802000028 6.0 0.130 0.007 2280802000029 7.0 0.120 0.006 2280802000030 8.0 0.113 0.006 2280802000031 10.0 0.101 0.005 2280802000032 12.0 0.092 0.005 2280802000033 15.0 0.083 0.004 2280802000034 17.0 0.078 0.004 2280802000035 20.0 0.072 0.003 2280802000036 21.0 0.069 0.003 2280802000037 25.0 0.066 0.003 2280802000038 30.0 0.062 0.003 2280802000039 35.0 0.059 0.004 2280802000040 40.0 0.059 0.005 2280802000041 50.0 0.065 0.007 2280802000042 52.0 0.066 0.008 2280802000043 60.0 0.073 0.012 2280802000044 70.0 0.081 0.015 2280802000045 80.0 0.089 0.018 2280802000046 90.0 0.096 0.020 2280802000047 100.0 0.100 0.022 2280802000048 104.0 0.101 0.022 2280802000049 120.0 0.105 0.024 2280802000050 149.0 0.105 0.024 2280802000051 150.0 0.105 0.024 2280802000052 180.0 0.098 0.024 2280802000053 200.0 0.094 0.023 2280802000054 215.0 0.088 0.022 2280802000055 220.0 0.087 0.021 2280802000056 230.0 0.084 0.021 2280802000057 250.0 0.078 0.020 2280802000058 ENDDATA 42 0 2280802000059 ENDSUBENT 58 0 2280802099999 SUBENT 22808021 20210929 23042280802100001 BIB 7 10 2280802100002 REACTION (18-AR-40(N,G)18-AR-41,,SIG,,MXW,DERIV) 2280802100003 INC-SPECT Maxwellian 2280802100004 DECAY-DATA (18-AR-41,109.34MIN,DG,1293.587,0.991) 2280802100005 1293.587 keV with intensity per decay: 99.1 +- 0.8% 2280802100006 MONIT-REF (,R.Reifarth+,J,EPJ/P,133,424,2018) 2280802100007 ANALYSIS Cross section value in subentry 22808.015 is 2280802100008 renormalized for new gold cross section according to 2280802100009 measured resonance contribution 2280802100010 STATUS (TABLE) p.153 of INDC(GER)-0053 2280802100011 HISTORY (20210929C) SD: 2280802100012 ENDBIB 10 0 2280802100013 NOCOMMON 0 0 2280802100014 DATA 3 40 2280802100015 KT DATA ERR-T 2280802100016 KEV MB MB 2280802100017 1.0 3.35 0.05 2280802100018 1.2 3.08 0.05 2280802100019 1.4 2.9 0.04 2280802100020 1.6 2.78 0.04 2280802100021 1.8 2.71 0.04 2280802100022 2.0 2.70 0.04 2280802100023 2.5 2.77 0.06 2280802100024 3.0 2.94 0.08 2280802100025 4.0 3.22 0.12 2280802100026 5.0 3.43 0.14 2280802100027 6.0 3.45 0.15 2280802100028 7.0 3.39 0.15 2280802100029 8.0 3.29 0.14 2280802100030 10.0 3.17 0.13 2280802100031 12.0 2.91 0.16 2280802100032 15.0 2.77 0.18 2280802100033 17.0 2.72 0.19 2280802100034 20.0 2.69 0.22 2280802100035 21.0 2.67 0.24 2280802100036 25.0 2.66 0.26 2280802100037 30.0 2.65 0.28 2280802100038 35.0 2.58 0.3 2280802100039 40.0 2.50 0.3 2280802100040 50.0 2.32 0.29 2280802100041 52.0 2.29 0.29 2280802100042 60.0 2.16 0.27 2280802100043 70.0 2.03 0.25 2280802100044 80.0 1.88 0.23 2280802100045 90.0 1.77 0.22 2280802100046 100.0 1.68 0.2 2280802100047 104.0 1.64 0.2 2280802100048 120.0 1.50 0.18 2280802100049 149.0 1.31 0.15 2280802100050 150.0 1.30 0.15 2280802100051 180.0 1.14 0.13 2280802100052 200.0 1.04 0.11 2280802100053 215.0 0.99 0.11 2280802100054 220.0 0.97 0.1 2280802100055 230.0 0.94 0.1 2280802100056 250.0 0.87 0.1 2280802100057 ENDDATA 42 0 2280802100058 ENDSUBENT 57 0 2280802199999 ENDENTRY 21 0 2280899999999