ENTRY 23260 20230212 2326000000001 SUBENT 23260001 20230212 20231011 2326000100001 BIB 14 111 2326000100002 TITLE Experimental determination of k0, Q0 factors, effective2326000100003 resonance energies and neutron cross-sections for 37 2326000100004 isotopes of interest in NAA. 2326000100005 REFERENCE (J,JRN,302,655,2014) Data tables. 2326000100006 #doi:10.1007/s10967-014-3281-0 2326000100007 Also Suppl.materials: 2326000100008 10967-2014-3281-MOESM1-ESM.pdf Exp.details 2326000100009 10967-2014-3281-MOESM2-ESM.pdf Table -SIG, k0 2326000100010 10967-2014-3281-MOESM3-ESM.pdf Table -Q0, ef.res.energy2326000100011 (J,JRN,302,631,2014) Data table for part of isotopes. 2326000100012 ALPHA-vector method. 2326000100013 #doi:10.1007/s10967-014-3276-x 2326000100014 AUTHOR (F.Farina Arbocco,P.Vermaercke,K.Smits,L.Sneyers, 2326000100015 K.Strijckmans) 2326000100016 INSTITUTE (2BLGMOL) F.Farina Arbocco,P.Vermaercke,K.Smits, 2326000100017 L.Sneyers. 2326000100018 (2BLGGHT) F.Farina Arbocco,K.Strijckmans. 2326000100019 Samples were prepared at: 2326000100020 IRMM - Institute for Reference Materials and2326000100021 Measurements, 2326000100022 NIST - National Institute of Standards and 2326000100023 Technology. 2326000100024 REL-REF (R,,F.De Corte+,J,AND,85,47,2003) 2326000100025 Activation decay schemes (ADS). 2326000100026 Summary of previous k0 measurements up to Dec.2002. 2326000100027 (R,,R.Jacimovic+,J,JRN,300,589,2014) 2326000100028 Data used in calculations; 2326000100029 also from : 2326000100030 - NuDat 2.6: Nuclear Structure and Decay Data. 2326000100031 http://www.nndc.bnl.gov/nudat2/. Accessed 1 Dec 2013; 2326000100032 - CEA -Laboratoire National Henri Becquerel (2012) 2326000100033 Recommended Data. France. Accessed 1 Jun 2013 2326000100034 http://www.nucleide.org/DDEP-WG/DDEPdata.htm 2326000100035 for: half-lives, decay branching factors (Fi), 2326000100036 gamma abundances. 2326000100037 FACILITY (REAC,2BLGMOL) Irradiation channels S84, Y4, X26 and 2326000100038 Cavity at the BR1 reactor at SCK-CEN, Belgium. 2326000100039 INC-SOURCE (REAC) 2326000100040 INC-SPECT Parameters of the neutron spectra: 2326000100041 Channel f a 2326000100042 Y4 38.2+-0.5 0.066+-0.003 2326000100043 S84 16.4+-0.4 -0.003+-0.005 2326000100044 X26 95.0+-2.5 0.110+-0.005 2326000100045 Cavity 70000. (pure thermal) 2326000100046 f - ratio of the thermal neutron flux to epithermal 2326000100047 flux, 2326000100048 a - slope parameter of the epithermal spectrum 2326000100049 (~1/(E**(1+a)) . 2326000100050 Thermal neutrons temperature, deg C: 2326000100051 Y4 - 27, S84 - 50, X26 - 25, thermal Cavity - 23 with 2326000100052 uncertainty about 7%. 2326000100053 SAMPLE The liquid standards were spiked on cylindrical 2326000100054 cellulose filters of 1.25 mm thickness and 7 mm diam., 2326000100055 with typically 100 microliter of solution content. 2326000100056 The foils were cut in disks of 8mm diameter (average). 2326000100057 Packed inside plastic bags of 0.1 mm thick. 2326000100058 Four samples of each material were prepared and 2326000100059 irradiated per channel per irradiation exercise. 2326000100060 Half of these samples were placed along the axis of a 2326000100061 cylindrical polyethylene irradiation container or 2326000100062 'rabbit', while the other samples were covered in 2326000100063 hollow Cd cylinders of 1 mm wall thickness. Inside the 2326000100064 rabbit, each sample was sandwiched between at least 2 2326000100065 comparators with a 2 cm separation to each one. The 2326000100066 comparator consisted in 0.1 % Au Al-alloy foils of 2326000100067 0.1 mm thickness and 7 mm diameter (IRMM 530R). 2326000100068 For irradiations in the thermal Cavity, the comparator 2326000100069 consisted in a high-purity Au wire(Goodfellow 5150/43).2326000100070 Au-197 samples : 2326000100071 - Provider - Goodfellow, 2326000100072 Matrix - wire, 2326000100073 Elemental content, % weight - 99.99 2326000100074 Average sample thickness h,mm - 0.5 2326000100075 - Provider - IRMM 2326000100076 Matrix - Foil, Al alloy 2326000100077 Average sample thickness h,mm - 0.1 2326000100078 - Elemental content, % weight - 0.1 2326000100079 - Elemental content, % weight - 5. 2326000100080 METHOD (ACTIV) The rabbits were irradiated under the full 2326000100081 extent of the neutron flux of channels S84, Y4, X26 and2326000100082 the thermal Cavity at the BR1. 2326000100083 Channel Y4 S84 X26 Cavity 2326000100084 Channel radius 50.mm 40.mm 40.mm 40.mm 2326000100085 Channel length 500.mm 300.mm 300.mm 300.mm 2326000100086 Rabbits radius 11.1mm 10.mm 20.mm 15.mm 2326000100087 Rabbits length 71.mm 53.mm 80.mm 60.mm 2326000100088 Typical irr.time 429.+-5.m 3600+-2s 180.+-1m 240.+-1m 2326000100089 The Cd-covered rabbits were irradiated within 30 min, 2326000100090 1 h and 1 day separation to the normal rabbits for 2326000100091 channels S84, X26 and Y4, respectively. 2326000100092 - Lu-176 ( Provider- IRMM, foil,Al alloy, 0.1 % weight,2326000100093 thickness 0.1mm) was used as temperature monitor; 2326000100094 neutron self-shielding factors Gtherm=0.998,Gepi=1.000,2326000100095 Er = 0.158 eV, factor s0=1.76 (+-10%) were adopted . 2326000100096 ASSUMED (ASSUM,(79-AU-197(N,G)79-AU-198,,RI)/ 2326000100097 (79-AU-197(N,G)79-AU-198,,SIG)) 2326000100098 - Au-197 data: Er=5.65 eV (+-7.%), Q0=15.7 (+-2%) ; 2326000100099 FCd=0.991, HL=2.695d , Gamma Energy 411.8 keV, 2326000100100 Intensity 95.54%, k0=1.00 . 2326000100101 DETECTOR (HPGE) Different HPGe detectors attached to Dual LFC 2326000100102 modules for dead time correction. 2326000100103 CORRECTION Epithermal and thermal self-shielding corrections 2326000100104 factors Gt and Ge were obtained through the Chilian+ 2326000100105 and the MATSSF methods, are given in Table 1 of 2326000100106 JRN,302,655,2014. 2326000100107 HISTORY (20141210C) M.M. 2326000100108 (20151013A) SD: SF4 modified, SF5=M+ added in REACTION 2326000100109 code in Subents 029, 030, 037, 038, 072, 073, 101, 102,2326000100110 109, 110. 2326000100111 (20181012A) SD: Value corrected in Subents 085,142. 2326000100112 (20230212A) SD: Correction in Subents 135, 136. 2326000100113 ENDBIB 111 0 2326000100114 COMMON 2 3 2326000100115 ASSUM ASSUM-ERR 2326000100116 NO-DIM PER-CENT 2326000100117 15.7 0.1 2326000100118 ENDCOMMON 3 0 2326000100119 ENDSUBENT 118 0 2326000199999 SUBENT 23260002 20141210 22412326000200001 BIB 8 38 2326000200002 REACTION ((19-K-41(N,G)19-K-42,,RI)// 2326000200003 (19-K-41(N,G)19-K-42,,SIG)) 2326000200004 Q0 value (ratio of resonance integral to thermal 2326000200005 neutron activation cross-section) 2326000200006 SAMPLE Provider - Alfa Aesar, 2326000200007 Matrix - Liquid on paper, 2326000200008 Elemental content, % weight - 0.1 2326000200009 Average sample thickness h,mm - 1.25 2326000200010 DECAY-DATA (19-K-42,12.36HR,DG,312.7,0.00336,DG,1524.7,0.1808) 2326000200011 METHOD Measurement at Y4 channel. 2326000200012 ANALYSIS The Q0(or s0) factor was determined by 2326000200013 - the classical method: from the mean (AVG) and 2326000200014 observed SD of the results from all channels employed, 2326000200015 when inputting the recommended Er value from 2326000200016 references - 2960 eV (+-7%) 2326000200017 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326000200018 Uncertainty in the Q0 determination for for the simple 2326000200019 case of one determination in one irradiation channel 2326000200020 with one standard, given no type-B uncertainties 2326000200021 contributions from the FCd = 1 and neutron 2326000200022 self-shielding effects is on average 2326000200023 2.5 % for foils, 2.6 % for compounds; 2326000200024 include contributions from : 2326000200025 - The combined uncertainty 1.2 % 2326000200026 for liquids/compounds in the parameter OMEGACd . 2326000200027 - A combined type-B uncertainty of from the 2326000200028 comparator Qa factor 1.9 % . 2326000200029 - A combined type-B uncertainty of 1.2 % during 2326000200030 Qa -> Q0 conversion, due to the uncertainty on a and 2326000200031 an average 7 % uncertainty on the recommended effective2326000200032 resonance energy factor for the analyte, taken from 2326000200033 references. 2326000200034 ADD-RES Measured k0-values with one-sigma uncertainty: 2326000200035 E-gamma,keV k0, no-dim. 2326000200036 312.7 1.75E-5 (+-1.9%) 2326000200037 1524.7 9.45E-4 (+-1.9%) 2326000200038 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326000200039 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326000200040 ENDBIB 38 0 2326000200041 COMMON 2 3 2326000200042 EN-MIN-NM EN-MEAN-DN 2326000200043 EV EV 2326000200044 0.5 0.0253 2326000200045 ENDCOMMON 3 0 2326000200046 DATA 2 1 2326000200047 DATA DATA-ERR 2326000200048 NO-DIM PER-CENT 2326000200049 0.74 4. 2326000200050 ENDDATA 3 0 2326000200051 ENDSUBENT 50 0 2326000299999 SUBENT 23260003 20141210 22412326000300001 BIB 9 46 2326000300002 REACTION 1((24-CR-50(N,G)24-CR-51,,RI)// 2326000300003 (24-CR-50(N,G)24-CR-51,,SIG)) 2326000300004 2((24-CR-50(N,G)24-CR-51,,RI)// 2326000300005 (24-CR-50(N,G)24-CR-51,,SIG)) 2326000300006 Q0 value (ratio of resonance integral to thermal 2326000300007 neutron activation cross-section) 2326000300008 SAMPLE Provider - Goodfellow IRMM 2326000300009 Matrix - Slab Foil,Al Alloy2326000300010 Elemental content, % weight > 99.99 10. 2326000300011 Average sample thickness h,mm - 0.05 0.8 2326000300012 DECAY-DATA (24-CR-51,27.7D,DG,320.1,0.0991) 2326000300013 METHOD Measurements at S84, Y4 channels. 2326000300014 ANALYSIS The Q0(or s0) factors were determined by 2 different 2326000300015 approaches: 2326000300016 1- the classical method: from the mean (AVG) and 2326000300017 observed SD of the results from all channels employed, 2326000300018 when inputting the recommended Er value from 2326000300019 references - 7530 eV (+-16%). 2326000300020 2- the a-vector method applied on up to 3 irradiation 2326000300021 channels: leading to simultaneous Q0 (or s0) and Er 2326000300022 determination; 2326000300023 MISC-COL (MISC) Effective resonance energy defined by a-vector 2326000300024 method. 2326000300025 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326000300026 Uncertainty in the Q0 determination for for the simple 2326000300027 case of one determination in one irradiation channel 2326000300028 with one standard, given no type-B uncertainties 2326000300029 contributions from the FCd = 1 and neutron 2326000300030 self-shielding effects is on average 2326000300031 2.5 % for foils, - 2.6 % for compounds; 2326000300032 include contributions from : 2326000300033 - The combined uncertainty of 1.1 % for foils and 1.2 %2326000300034 for liquids/compounds in the parameter OMEGACd . 2326000300035 - A combined type-B uncertainty of from the 2326000300036 comparator Qa factor 1.9 % for Y4 and 1.8 % for S84. 2326000300037 - A combined type-B uncertainty of 1.2 % during 2326000300038 Qa -> Q0 conversion, due to the uncertainty on a and 2326000300039 an average 7 % uncertainty on the recommended effective2326000300040 resonance energy factor for the analysis, taken from 2326000300041 references. 2326000300042 ADD-RES Measured k0-values with one-sigma uncertainty: 2326000300043 E-gamma,keV k0, no-dim. 2326000300044 320.1 2.49E-3 (+-1.3%) 2326000300045 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326000300046 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326000300047 1(DEP,23260004) Measured values at two channels. 2326000300048 ENDBIB 46 0 2326000300049 COMMON 2 3 2326000300050 EN-MIN-NM EN-MEAN-DN 2326000300051 EV EV 2326000300052 0.5 0.0253 2326000300053 ENDCOMMON 3 0 2326000300054 DATA 6 1 2326000300055 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326000300056 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326000300057 0.48 2. 0.46 3. 0.027 25. 2326000300058 ENDDATA 3 0 2326000300059 ENDSUBENT 58 0 2326000399999 SUBENT 23260004 20141210 22412326000400001 BIB 7 35 2326000400002 REACTION 1((24-CR-50(N,G)24-CR-51,,RI)// 2326000400003 (24-CR-50(N,G)24-CR-51,,SIG)) 2326000400004 2((24-CR-50(N,G)24-CR-51,,RI)// 2326000400005 (24-CR-50(N,G)24-CR-51,,SIG)) 2326000400006 Q0 value (ratio of resonance integral to thermal 2326000400007 neutron activation cross-section) 2326000400008 SAMPLE Provider - Goodfellow IRMM 2326000400009 Matrix Slab Foil,Al Alloy2326000400010 Elemental content, % weight >99.99 10. 2326000400011 Average sample thickness h,mm 0.05 0.8 2326000400012 DECAY-DATA (24-CR-51,27.7D,DG,320.1,0.0991) 2326000400013 METHOD Measurements at channels: 2326000400014 1 S84 2326000400015 2 Y4 . 2326000400016 ANALYSIS The Q0(or s0) factors were determined by inputting the 2326000400017 recommended Er value from references - 7530 eV (+-16%).2326000400018 ERR-ANALYS (DATA-ERR) Standard deviation. 2326000400019 Uncertainty in the Q0 determination for for the simple 2326000400020 case of one determination in one irradiation channel 2326000400021 with one standard, given no type-B uncertainties 2326000400022 contributions from the FCd = 1 and neutron 2326000400023 self-shielding effects is on average 2326000400024 2.5 % for foils, 2.6 % for compounds; 2326000400025 include contributions from : 2326000400026 - The combined uncertainty of 1.1 % for foils and 1.2 %2326000400027 for liquids/compounds in the parameter OMEGACd . 2326000400028 - A combined type-B uncertainty from the comparator Qa 2326000400029 factor for channels Y4 - 1.9 % , S84 - 1.8 % . 2326000400030 - A combined type-B uncertainty of 1.2 % during 2326000400031 Qa -> Q0 conversion, due to the uncertainty on a and 2326000400032 an average 7 % uncertainty on the recommended effective2326000400033 resonance energy factor for the analyte, taken from 2326000400034 references. 2326000400035 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf. 2326000400036 (COREL,23260003) Average Q0. 2326000400037 ENDBIB 35 0 2326000400038 COMMON 2 3 2326000400039 EN-MIN-NM EN-MEAN-DN 2326000400040 EV EV 2326000400041 0.5 0.0253 2326000400042 ENDCOMMON 3 0 2326000400043 DATA 4 1 2326000400044 DATA 1DATA-ERR 1DATA 2DATA-ERR 2 2326000400045 NO-DIM PER-CENT NO-DIM PER-CENT 2326000400046 0.46 2. 0.50 2. 2326000400047 ENDDATA 3 0 2326000400048 ENDSUBENT 47 0 2326000499999 SUBENT 23260005 20141210 22412326000500001 BIB 9 41 2326000500002 REACTION ((38-SR-84(N,G)38-SR-85-M,,RI)// 2326000500003 (38-SR-84(N,G)38-SR-85-M,,SIG)) 2326000500004 Q0 value (ratio of resonance integral to thermal 2326000500005 neutron activation cross-section) 2326000500006 SAMPLE - Provider - Sigma-Aldrich 2326000500007 Matrix - SrCO(3) 2326000500008 Elemental content, % weight - 59.351 2326000500009 - Average sample thickness h,mm - 0.2 2326000500010 - Average sample thickness h,mm - 0.6 2326000500011 DECAY-DATA (38-SR-85-M,67.63MIN,DG,151.2,0.123,DG,231.9,0.841) 2326000500012 METHOD Measurements at channel S84. 2326000500013 ANALYSIS The Q0(or s0) factors were determined by 2326000500014 - the classical method: from the mean (AVG) and 2326000500015 observed SD of the results from all channels employed, 2326000500016 when inputting the recommended Er value from 2326000500017 references - 469.eV (+-7%). 2326000500018 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326000500019 Uncertainty in the Q0 determination for for the simple 2326000500020 case of one determination in one irradiation channel 2326000500021 with one standard, given no type-B uncertainties 2326000500022 contributions from the FCd = 1 and neutron 2326000500023 self-shielding effects is on average 2326000500024 2.6 % for compounds; 2326000500025 include contributions from : 2326000500026 - The combined uncertainty of 1.2 % 2326000500027 for liquids/compounds in the parameter OMEGACd . 2326000500028 - A combined type-B uncertainty from the comparator Qa 2326000500029 factor for channel S84 - 1.8 % . 2326000500030 - A combined type-B uncertainty of 1.2 % during 2326000500031 Qa -> Q0 conversion, due to the uncertainty on a and 2326000500032 an average 7 % uncertainty on the recommended effective2326000500033 resonance energy factor for the analyte, taken from 2326000500034 references. 2326000500035 COMMENT Of compiler. DATA uncertainty in Table 5 of 2326000500036 J,JRN,302,655,2014 is 5.% . 2326000500037 ADD-RES Measured k0-values with one-sigma uncertainty: 2326000500038 E-gamma,keV k0, no-dim. 2326000500039 151.2 1.08E-5 (+-1.9%) 2326000500040 231.9 7.43E-5 (+-2.0%) 2326000500041 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326000500042 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326000500043 ENDBIB 41 0 2326000500044 COMMON 2 3 2326000500045 EN-MIN-NM EN-MEAN-DN 2326000500046 EV EV 2326000500047 0.5 0.0253 2326000500048 ENDCOMMON 3 0 2326000500049 DATA 2 1 2326000500050 DATA DATA-ERR 2326000500051 NO-DIM PER-CENT 2326000500052 13.0 3. 2326000500053 ENDDATA 3 0 2326000500054 ENDSUBENT 53 0 2326000599999 SUBENT 23260006 20141210 22412326000600001 BIB 9 49 2326000600002 REACTION 1((38-SR-84(N,G)38-SR-85-G,(M),RI)// 2326000600003 (38-SR-84(N,G)38-SR-85-G,(M),SIG)) 2326000600004 2((38-SR-84(N,G)38-SR-85-G,(M),RI)// 2326000600005 (38-SR-84(N,G)38-SR-85-G,(M),SIG)) 2326000600006 Q0 value (ratio of resonance integral to thermal 2326000600007 neutron activation cross-section) 2326000600008 SAMPLE - Provider - Sigma-Aldrich 2326000600009 Matrix - SrCO(3) 2326000600010 Elemental content, % weight - 59.351 2326000600011 - Average sample thickness h,mm - 0.2 2326000600012 - Average sample thickness h,mm - 0.6 2326000600013 DECAY-DATA (38-SR-85-G,64.84D,DG,514.0,0.985) 2326000600014 METHOD Measurements at channels: 2326000600015 S84 2326000600016 Y4 . 2326000600017 ANALYSIS The Q0(or s0) factors were determined by 2 different 2326000600018 approaches: 2326000600019 1- the classical method: from the mean (AVG) and 2326000600020 observed SD of the results from all channels employed, 2326000600021 when inputting the recommended Er value from 2326000600022 references . 2326000600023 2- the a-vector method applied on up to 3 irradiation 2326000600024 channels: leading to simultaneous Q0 (or s0) and Er 2326000600025 determination; 2326000600026 MISC-COL (MISC) Effective resonance energy defined by a-vector 2326000600027 method. 2326000600028 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326000600029 Uncertainty in the Q0 determination for for the simple 2326000600030 case of one determination in one irradiation channel 2326000600031 with one standard, given no type-B uncertainties 2326000600032 contributions from the FCd = 1 and neutron 2326000600033 self-shielding effects is on average 2326000600034 2.6 % for compounds; 2326000600035 include contributions from : 2326000600036 - The combined uncertainty 1.2 % 2326000600037 for liquids/compounds in the parameter OMEGACd . 2326000600038 - A combined type-B uncertainty from the comparator Qa 2326000600039 factor for channels Y4 - 1.9 % , S84 - 1.8 % . 2326000600040 - A combined type-B uncertainty of 1.2 % during 2326000600041 Qa -> Q0 conversion, due to the uncertainty on a and 2326000600042 an average 7 % uncertainty on the recommended effective2326000600043 resonance energy factor for the analyte, taken from 2326000600044 references. 2326000600045 ADD-RES Measured k0-values with one-sigma uncertainty: 2326000600046 E-gamma,keV k0, no-dim. 2326000600047 514.0 9.21E-5 (+-1.9%) 2326000600048 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326000600049 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326000600050 1(DEP,23260007) Measurement at two channels. 2326000600051 ENDBIB 49 0 2326000600052 COMMON 2 3 2326000600053 EN-MIN-NM EN-MEAN-DN 2326000600054 EV EV 2326000600055 0.5 0.0253 2326000600056 ENDCOMMON 3 0 2326000600057 DATA 6 1 2326000600058 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326000600059 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326000600060 14.5 2. 14.6 2. 506. 25. 2326000600061 ENDDATA 3 0 2326000600062 ENDSUBENT 61 0 2326000699999 SUBENT 23260007 20141210 22412326000700001 BIB 7 36 2326000700002 REACTION 1((38-SR-84(N,G)38-SR-85-G,(M),RI)// 2326000700003 (38-SR-84(N,G)38-SR-85-G,(M),SIG)) 2326000700004 2((38-SR-84(N,G)38-SR-85-G,(M),RI)// 2326000700005 (38-SR-84(N,G)38-SR-85-G,(M),SIG)) 2326000700006 Q0 value (ratio of resonance integral to thermal 2326000700007 neutron activation cross-section) 2326000700008 SAMPLE - Provider - Sigma-Aldrich 2326000700009 Matrix - SrCO(3) 2326000700010 Elemental content, % weight - 59.351 2326000700011 - Average sample thickness h,mm - 0.2 2326000700012 - Average sample thickness h,mm - 0.6 2326000700013 DECAY-DATA (38-SR-85-G,64.84D,DG,514.0,0.985) 2326000700014 METHOD Measurements at channels: 2326000700015 1 S84 2326000700016 2 Y4 . 2326000700017 ANALYSIS The Q0(or s0) factors were determined by inputting the 2326000700018 recommended Er value from references . 2326000700019 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326000700020 Uncertainty in the Q0 determination for for the simple 2326000700021 case of one determination in one irradiation channel 2326000700022 with one standard, given no type-B uncertainties 2326000700023 contributions from the FCd = 1 and neutron 2326000700024 self-shielding effects is on average 2326000700025 2.6 % for compounds; 2326000700026 include contributions from : 2326000700027 - The combined uncertainty of 1.2 % 2326000700028 for liquids/compounds in the parameter OMEGACd . 2326000700029 - A combined type-B uncertainty from the comparator Qa 2326000700030 factor for channels Y4 - 1.9 % , S84 - 1.8 % . 2326000700031 - A combined type-B uncertainty of 1.2 % during 2326000700032 Qa -> Q0 conversion, due to the uncertainty on a and 2326000700033 an average 7 % uncertainty on the recommended effective2326000700034 resonance energy factor for the analyte, taken from 2326000700035 references. 2326000700036 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326000700037 (COREL,23260006) Average Q0 . 2326000700038 ENDBIB 36 0 2326000700039 COMMON 2 3 2326000700040 EN-MIN-NM EN-MEAN-DN 2326000700041 EV EV 2326000700042 0.5 0.0253 2326000700043 ENDCOMMON 3 0 2326000700044 DATA 4 1 2326000700045 DATA 1DATA-ERR 1DATA 2DATA-ERR 2 2326000700046 NO-DIM PER-CENT NO-DIM PER-CENT 2326000700047 14.6 4. 14.5 2. 2326000700048 ENDDATA 3 0 2326000700049 ENDSUBENT 48 0 2326000799999 SUBENT 23260008 20141210 22412326000800001 BIB 9 49 2326000800002 REACTION 1((38-SR-86(N,G)38-SR-87-M,,RI)// 2326000800003 (38-SR-86(N,G)38-SR-87-M,,SIG)) 2326000800004 2((38-SR-86(N,G)38-SR-87-M,,RI)// 2326000800005 (38-SR-86(N,G)38-SR-87-M,,SIG)) 2326000800006 Q0 value (ratio of resonance integral to thermal 2326000800007 neutron activation cross-section) 2326000800008 SAMPLE - Provider - Sigma-Aldrich 2326000800009 Matrix - SrCO(3) 2326000800010 Elemental content, % weight - 59.351 2326000800011 - Average sample thickness h,mm - 0.2 2326000800012 - Average sample thickness h,mm - 0.6 2326000800013 DECAY-DATA (38-SR-87-M,2.803HR,DG,388.5,0.824) 2326000800014 METHOD Measurements at channels: 2326000800015 S84 2326000800016 Y4 . 2326000800017 ANALYSIS The Q0(or s0) factors were determined by 2 different 2326000800018 approaches: 2326000800019 1- the classical method: from the mean (AVG) and 2326000800020 observed SD of the results from all channels employed, 2326000800021 when inputting the recommended Er value from 2326000800022 references - 795. eV (+-2%). 2326000800023 2- the a-vector method applied on up to 3 irradiation 2326000800024 channels: leading to simultaneous Q0 (or s0) and Er 2326000800025 determination. 2326000800026 MISC-COL (MISC) Effective resonance energy defined by a-vector 2326000800027 method. 2326000800028 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326000800029 Uncertainty in the Q0 determination for for the simple 2326000800030 case of one determination in one irradiation channel 2326000800031 with one standard, given no type-B uncertainties 2326000800032 contributions from the FCd = 1 and neutron 2326000800033 self-shielding effects is on average 2326000800034 2.6 % for compounds; 2326000800035 include contributions from : 2326000800036 - The combined uncertainty of 1.2 % 2326000800037 for liquids/compounds in the parameter OMEGACd . 2326000800038 - A combined type-B uncertainty from the comparator Qa 2326000800039 factor for channels Y4 - 1.9 % , S84 - 1.8 % . 2326000800040 - A combined type-B uncertainty of 1.2 % during 2326000800041 Qa -> Q0 conversion, due to the uncertainty on a and 2326000800042 an average 7 % uncertainty on the recommended effective2326000800043 resonance energy factor for the analyte, taken from 2326000800044 references. 2326000800045 ADD-RES Measured k0-values with one-sigma uncertainty: 2326000800046 E-gamma,keV k0, no-dim. 2326000800047 388.5 1.54E-3 (+-2.0%) 2326000800048 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326000800049 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326000800050 1(DEP,23260009) Measurements at two channels. 2326000800051 ENDBIB 49 0 2326000800052 COMMON 2 3 2326000800053 EN-MIN-NM EN-MEAN-DN 2326000800054 EV EV 2326000800055 0.5 0.0253 2326000800056 ENDCOMMON 3 0 2326000800057 DATA 6 1 2326000800058 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326000800059 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326000800060 4.04 2. 3.95 2. 502. 25. 2326000800061 ENDDATA 3 0 2326000800062 ENDSUBENT 61 0 2326000899999 SUBENT 23260009 20141210 22412326000900001 BIB 7 36 2326000900002 REACTION 1((38-SR-86(N,G)38-SR-87-M,,RI)// 2326000900003 (38-SR-86(N,G)38-SR-87-M,,SIG)) 2326000900004 2((38-SR-86(N,G)38-SR-87-M,,RI)// 2326000900005 (38-SR-86(N,G)38-SR-87-M,,SIG)) 2326000900006 Q0 value (ratio of resonance integral to thermal 2326000900007 neutron activation cross-section) 2326000900008 SAMPLE - Provider - Sigma-Aldrich 2326000900009 Matrix - SrCO(3) 2326000900010 Elemental content, % weight - 59.351 2326000900011 - Average sample thickness h,mm - 0.2 2326000900012 - Average sample thickness h,mm - 0.6 2326000900013 DECAY-DATA (38-SR-87-M,2.803HR,DG,388.5,0.824) 2326000900014 METHOD Measurements at channels: 2326000900015 1 S84 2326000900016 2 Y4 . 2326000900017 ANALYSIS The Q0(or s0) factors were determined by inputting the 2326000900018 recommended Er value from references - 795. eV (+-2%). 2326000900019 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326000900020 Uncertainty in the Q0 determination for for the simple 2326000900021 case of one determination in one irradiation channel 2326000900022 with one standard, given no type-B uncertainties 2326000900023 contributions from the FCd = 1 and neutron 2326000900024 self-shielding effects is on average 2326000900025 2.6 % for compounds; 2326000900026 include contributions from : 2326000900027 - The combined uncertainty of 1.2 % 2326000900028 for liquids/compounds in the parameter OMEGACd . 2326000900029 - A combined type-B uncertainty from the comparator Qa 2326000900030 factor for channels Y4 - 1.9 % , S84 - 1.8 % . 2326000900031 - A combined type-B uncertainty of 1.2 % during 2326000900032 Qa -> Q0 conversion, due to the uncertainty on a and 2326000900033 an average 7 % uncertainty on the recommended effective2326000900034 resonance energy factor for the analyte, taken from 2326000900035 references. 2326000900036 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326000900037 (COREL,23260008) Average Q0 . 2326000900038 ENDBIB 36 0 2326000900039 COMMON 2 3 2326000900040 EN-MIN-NM EN-MEAN-DN 2326000900041 EV EV 2326000900042 0.5 0.0253 2326000900043 ENDCOMMON 3 0 2326000900044 DATA 4 1 2326000900045 DATA 1DATA-ERR 1DATA 2DATA-ERR 2 2326000900046 NO-DIM PER-CENT NO-DIM PER-CENT 2326000900047 3.97 2. 4.06 1. 2326000900048 ENDDATA 3 0 2326000900049 ENDSUBENT 48 0 2326000999999 SUBENT 23260010 20141210 22412326001000001 BIB 8 51 2326001000002 REACTION ((42-MO-100(N,G)42-MO-101,,RI)// 2326001000003 (42-MO-100(N,G)42-MO-101,,SIG)) 2326001000004 Q0 value (ratio of resonance integral to thermal 2326001000005 neutron activation cross-section) 2326001000006 SAMPLE Provider - Goodfellow 2326001000007 Matrix - Foil 2326001000008 Elemental content, % weight - 99.9 2326001000009 Average sample thickness h,mm - 0.025 2326001000010 DECAY-DATA (42-MO-101,14.61MIN,DG,191.9,0.1821,DG,505.1,0.1162, 2326001000011 DG,590.1,0.205,DG,695.6,0.665,DG,1011.1,0.146) 2326001000012 (43-TC-101,14.2MIN,DG,127.2,0.0263,DG,184.1,0.0160, 2326001000013 DG,306.8,0.890,DG,545.1,0.0596) 2326001000014 METHOD Measurements at channel: 2326001000015 S84 via Mo-101 2326001000016 S84 via Tc-101 2326001000017 ANALYSIS The Q0(or s0) factors were determined by 2326001000018 - the classical method: from the mean (AVG) and 2326001000019 observed SD of the results from all channels employed, 2326001000020 when inputting the recommended Er value from 2326001000021 references - 672.eV (+-14%). 2326001000022 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326001000023 Uncertainty in the Q0 determination for for the simple 2326001000024 case of one determination in one irradiation channel 2326001000025 with one standard, given no type-B uncertainties 2326001000026 contributions from the FCd = 1 and neutron 2326001000027 self-shielding effects is on average 2326001000028 2.5 % for foils, 2326001000029 include contributions from : 2326001000030 - The combined uncertainty of 1.1 % for foils 2326001000031 in the parameter OMEGACd . 2326001000032 - A combined type-B uncertainty from the comparator Qa 2326001000033 factor for channel S84 - 1.8 % . 2326001000034 - A combined type-B uncertainty of 1.2 % during 2326001000035 Qa -> Q0 conversion, due to the uncertainty on a and 2326001000036 an average 7 % uncertainty on the recommended effective2326001000037 resonance energy factor for the analyte, taken from 2326001000038 references. 2326001000039 ADD-RES Measured k0-values with one-sigma uncertainty: 2326001000040 E-gamma,keV k0, no-dim. 2326001000041 191.9 7.82E-5 (+-1.9%) 2326001000042 505.1 4.98E-5 (+-1.9%) 2326001000043 590.1 8.76E-5 (+-1.9%) 2326001000044 695.6 2.85E-5 (+-1.9%) 2326001000045 1011.1 6.29E-5 (+-1.9%) 2326001000046 127.2 1.23E-5 (+-1.9%) 2326001000047 184.1 6.88E-6 (+-1.9%) 2326001000048 306.8 3.83E-4 (+-1.9%) 2326001000049 545.1 2.56E-5 (+-1.9%) 2326001000050 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326001000051 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326001000052 (DEP,23260012) Measurements used in averaging. 2326001000053 ENDBIB 51 0 2326001000054 COMMON 2 3 2326001000055 EN-MIN-NM EN-MEAN-DN 2326001000056 EV EV 2326001000057 0.5 0.0253 2326001000058 ENDCOMMON 3 0 2326001000059 DATA 2 1 2326001000060 DATA DATA-ERR 2326001000061 NO-DIM PER-CENT 2326001000062 19.9 2. 2326001000063 ENDDATA 3 0 2326001000064 ENDSUBENT 63 0 2326001099999 SUBENT 23260011 20141210 22412326001100001 BIB 7 38 2326001100002 REACTION 1((42-MO-100(N,G)42-MO-101,,RI)// 2326001100003 (42-MO-100(N,G)42-MO-101,,SIG)) 2326001100004 2((42-MO-100(N,G)42-MO-101,,RI)// 2326001100005 (42-MO-100(N,G)42-MO-101,,SIG)) 2326001100006 Q0 value (ratio of resonance integral to thermal 2326001100007 neutron activation cross-section) 2326001100008 SAMPLE Provider - Goodfellow 2326001100009 Matrix - Foil 2326001100010 Elemental content, % weight - 99.9 2326001100011 Average sample thickness h,mm - 0.025 2326001100012 DECAY-DATA1(42-MO-101,14.61MIN,DG,191.9,0.1821,DG,505.1,0.1162, 2326001100013 DG,590.1,0.205,DG,695.6,0.665,DG,1011.1,0.146) 2326001100014 2(43-TC-101,14.2MIN,DG,127.2,0.0263,DG,184.1,0.0160, 2326001100015 DG,306.8,0.890,DG,545.1,0.0596) 2326001100016 METHOD Measurements at channel: 2326001100017 1 S84 via Mo-101 2326001100018 2 S84 via Tc-101 2326001100019 ANALYSIS The Q0(or s0) factors were determined by inputting the 2326001100020 recommended Er value from references - 672.eV (+-14%). 2326001100021 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326001100022 Uncertainty in the Q0 determination for for the simple 2326001100023 case of one determination in one irradiation channel 2326001100024 with one standard, given no type-B uncertainties 2326001100025 contributions from the FCd = 1 and neutron 2326001100026 self-shielding effects is on average 2326001100027 2.5 % for foils, 2326001100028 include contributions from : 2326001100029 - The combined uncertainty of 1.1 % for foils 2326001100030 in the parameter OMEGACd . 2326001100031 - A combined type-B uncertainty from the comparator Qa 2326001100032 factor for channels S84 - 1.8 % . 2326001100033 - A combined type-B uncertainty of 1.2 % during 2326001100034 Qa -> Q0 conversion, due to the uncertainty on a and 2326001100035 an average 7 % uncertainty on the recommended effective2326001100036 resonance energy factor for the analyte, taken from 2326001100037 references. 2326001100038 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326001100039 (COREL,23260011) Average Q0 . 2326001100040 ENDBIB 38 0 2326001100041 COMMON 2 3 2326001100042 EN-MIN-NM EN-MEAN-DN 2326001100043 EV EV 2326001100044 0.5 0.0253 2326001100045 ENDCOMMON 3 0 2326001100046 DATA 4 1 2326001100047 DATA 1DATA-ERR 1DATA 2DATA-ERR 2 2326001100048 NO-DIM PER-CENT NO-DIM PER-CENT 2326001100049 19.9 1. 19.9 1. 2326001100050 ENDDATA 3 0 2326001100051 ENDSUBENT 50 0 2326001199999 SUBENT 23260012 20141210 22412326001200001 BIB 9 53 2326001200002 REACTION 1((44-RU-96(N,G)44-RU-97,,RI)// 2326001200003 (44-RU-96(N,G)44-RU-97,,SIG)) 2326001200004 2((44-RU-96(N,G)44-RU-97,,RI)// 2326001200005 (44-RU-96(N,G)44-RU-97,,SIG)) 2326001200006 Q0 value (ratio of resonance integral to thermal 2326001200007 neutron activation cross-section) 2326001200008 SAMPLE - Provider - Alfa Aesar 2326001200009 Matrix - Foil,Pt Alloy 2326001200010 Elemental content, % weight - 4.6 2326001200011 Average sample thickness h,mm - 0.05 2326001200012 - Provider - Alfa Aesar 2326001200013 Matrix - Liquid on paper 2326001200014 Elemental content, % weight - 0.1 2326001200015 Average sample thickness h,mm - 1.25 2326001200016 DECAY-DATA (44-RU-97,2.9D,DG,215.7,0.856,DG,324.5,0.1079) 2326001200017 METHOD Measurements at channels: 2326001200018 S84 2326001200019 Y4 . 2326001200020 ANALYSIS The Q0(or s0) factors were determined by 2 different 2326001200021 approaches: 2326001200022 1- the classical method: from the mean (AVG) and 2326001200023 observed SD of the results from all channels employed, 2326001200024 when inputting the recommended Er value from 2326001200025 references - 776. eV (+-16%). 2326001200026 2- the a-vector method applied on up to 3 irradiation 2326001200027 channels: leading to simultaneous Q0 (or s0) and Er 2326001200028 determination. 2326001200029 MISC-COL (MISC) Effective resonance energy defined by a-vector 2326001200030 method. 2326001200031 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326001200032 Uncertainty in the Q0 determination for for the simple 2326001200033 case of one determination in one irradiation channel 2326001200034 with one standard, given no type-B uncertainties 2326001200035 contributions from the FCd = 1 and neutron 2326001200036 self-shielding effects is on average 2326001200037 2.5 % for foils, 2.6 % for compounds; 2326001200038 include contributions from : 2326001200039 - The combined uncertainty of 1.1 % for foils and 1.2 %2326001200040 for liquids/compounds in the parameter OMEGACd . 2326001200041 - A combined type-B uncertainty from the comparator Qa 2326001200042 factor for channels S84 - 1.8 % . 2326001200043 - A combined type-B uncertainty of 1.2 % during 2326001200044 Qa -> Q0 conversion, due to the uncertainty on a and 2326001200045 an average 7 % uncertainty on the recommended effective2326001200046 resonance energy factor for the analyte, taken from 2326001200047 references. 2326001200048 ADD-RES Measured k0-values with one-sigma uncertainty: 2326001200049 E-gamma,keV k0, no-dim. 2326001200050 215.7 2.43E-4 (+-1.3%) 2326001200051 324.5 3.06E-5 (+-1.3%) 2326001200052 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326001200053 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326001200054 (DEP,23260014) Measurements at two channels. 2326001200055 ENDBIB 53 0 2326001200056 COMMON 2 3 2326001200057 EN-MIN-NM EN-MEAN-DN 2326001200058 EV EV 2326001200059 0.5 0.0253 2326001200060 ENDCOMMON 3 0 2326001200061 DATA 6 1 2326001200062 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326001200063 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326001200064 25.6 2. 26.2 2. 1343. 25. 2326001200065 ENDDATA 3 0 2326001200066 ENDSUBENT 65 0 2326001299999 SUBENT 23260013 20141210 22412326001300001 BIB 7 39 2326001300002 REACTION 1((44-RU-96(N,G)44-RU-97,,RI)// 2326001300003 (44-RU-96(N,G)44-RU-97,,SIG)) 2326001300004 2((44-RU-96(N,G)44-RU-97,,RI)// 2326001300005 (44-RU-96(N,G)44-RU-97,,SIG)) 2326001300006 Q0 value (ratio of resonance integral to thermal 2326001300007 neutron activation cross-section) 2326001300008 SAMPLE - Provider - Alfa Aesar 2326001300009 Matrix - Foil,Pt Alloy 2326001300010 Elemental content, % weight - 4.6 2326001300011 Average sample thickness h,mm - 0.05 2326001300012 - Provider - Alfa Aesar 2326001300013 Matrix - Liquid on paper 2326001300014 Elemental content, % weight - 0.1 2326001300015 Average sample thickness h,mm - 1.25 2326001300016 DECAY-DATA (44-RU-97,2.9D,DG,215.7,0.856,DG,324.5,0.1079) 2326001300017 METHOD Measurements at channels: 2326001300018 1 S84 2326001300019 2 Y4 . 2326001300020 ANALYSIS The Q0(or s0) factors were determined by inputting the 2326001300021 recommended Er value from references - 776. eV (+-16%).2326001300022 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326001300023 Uncertainty in the Q0 determination for for the simple 2326001300024 case of one determination in one irradiation channel 2326001300025 with one standard, given no type-B uncertainties 2326001300026 contributions from the FCd = 1 and neutron 2326001300027 self-shielding effects is on average 2326001300028 2.5 % for foils, 2.6 % for compounds; 2326001300029 include contributions from : 2326001300030 - The combined uncertainty of 1.1 % for foils and 1.2 %2326001300031 for liquids/compounds in the parameter OMEGACd . 2326001300032 - A combined type-B uncertainty from the comparator Qa 2326001300033 factor for channels S84 - 1.8 % . 2326001300034 - A combined type-B uncertainty of 1.2 % during 2326001300035 Qa -> Q0 conversion, due to the uncertainty on a and 2326001300036 an average 7 % uncertainty on the recommended effective2326001300037 resonance energy factor for the analyte, taken from 2326001300038 references. 2326001300039 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326001300040 (COREL,23260013) Average Q0 . 2326001300041 ENDBIB 39 0 2326001300042 COMMON 2 3 2326001300043 EN-MIN-NM EN-MEAN-DN 2326001300044 EV EV 2326001300045 0.5 0.0253 2326001300046 ENDCOMMON 3 0 2326001300047 DATA 4 1 2326001300048 DATA 1DATA-ERR 1DATA 2DATA-ERR 2 2326001300049 NO-DIM PER-CENT NO-DIM PER-CENT 2326001300050 26.3 2. 25.3 2. 2326001300051 ENDDATA 3 0 2326001300052 ENDSUBENT 51 0 2326001399999 SUBENT 23260014 20141210 22412326001400001 BIB 10 55 2326001400002 REACTION 1((44-RU-102(N,G)44-RU-103,,RI)// 2326001400003 (44-RU-102(N,G)44-RU-103,,SIG)) 2326001400004 2((44-RU-102(N,G)44-RU-103,,RI)// 2326001400005 (44-RU-102(N,G)44-RU-103,,SIG)) 2326001400006 Q0 value (ratio of resonance integral to thermal 2326001400007 neutron activation cross-section) 2326001400008 SAMPLE - Provider - Alfa Aesar 2326001400009 Matrix - Foil,Pt Alloy 2326001400010 Elemental content, % weight - 4.6 2326001400011 Average sample thickness h,mm - 0.05 2326001400012 - Provider - Alfa Aesar 2326001400013 Matrix - Liquid on paper 2326001400014 Elemental content, % weight - 0.1 2326001400015 Average sample thickness h,mm - 1.25 2326001400016 DECAY-DATA (44-RU-103,39.35D,DG,497.1,0.910,DG,610.3,0.0576) 2326001400017 METHOD Measurements at channels: 2326001400018 S84 2326001400019 Y4 . 2326001400020 ANALYSIS The Q0(or s0) factors were determined by 2 different 2326001400021 approaches: 2326001400022 1- the classical method: from the mean (AVG) and 2326001400023 observed SD of the results from all channels employed, 2326001400024 when inputting the recommended Er value from 2326001400025 references - 181. eV (+-4%). 2326001400026 2- the a-vector method applied on up to 3 irradiation 2326001400027 channels: leading to simultaneous Q0 (or s0) and Er 2326001400028 determination. 2326001400029 MISC-COL (MISC) Effective resonance energy defined by a-vector 2326001400030 method. 2326001400031 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326001400032 Uncertainty in the Q0 determination for for the simple 2326001400033 case of one determination in one irradiation channel 2326001400034 with one standard, given no type-B uncertainties 2326001400035 contributions from the FCd = 1 and neutron 2326001400036 self-shielding effects is on average 2326001400037 2.5 % for foils, 2.6 % for compounds; 2326001400038 include contributions from : 2326001400039 - The combined uncertainty of 1.1 % for foils and 1.2 %2326001400040 for liquids/compounds in the parameter OMEGACd . 2326001400041 - A combined type-B uncertainty from the comparator Qa 2326001400042 factor for channels Y4 - 1.9 % , S84 - 1.8 % . 2326001400043 - A combined type-B uncertainty of 1.2 % during 2326001400044 Qa -> Q0 conversion, due to the uncertainty on a and 2326001400045 an average 7 % uncertainty on the recommended effective2326001400046 resonance energy factor for the analyte, taken from 2326001400047 references. 2326001400048 ADD-RES Measured k0-values with one-sigma uncertainty: 2326001400049 E-gamma,keV k0, no-dim. 2326001400050 497.1 7.36E-3 (+-1.2%) 2326001400051 610.3 4.67E-4 (+-1.4%) 2326001400052 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326001400053 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326001400054 (DEP,23260016) Measurements at two channels. 2326001400055 COMMENT Of compiler. DATA 1 uncertainty in Table 5 of 2326001400056 J,JRN,302,655,2014 is 6.% ( probably misprint ?). 2326001400057 ENDBIB 55 0 2326001400058 COMMON 2 3 2326001400059 EN-MIN-NM EN-MEAN-DN 2326001400060 EV EV 2326001400061 0.5 0.0253 2326001400062 ENDCOMMON 3 0 2326001400063 DATA 6 1 2326001400064 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326001400065 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326001400066 3.35 3. 3.60 2. 1556. 25. 2326001400067 ENDDATA 3 0 2326001400068 ENDSUBENT 67 0 2326001499999 SUBENT 23260015 20141210 22412326001500001 BIB 7 40 2326001500002 REACTION 1((44-RU-102(N,G)44-RU-103,,RI)// 2326001500003 (44-RU-102(N,G)44-RU-103,,SIG)) 2326001500004 2((44-RU-102(N,G)44-RU-103,,RI)// 2326001500005 (44-RU-102(N,G)44-RU-103,,SIG)) 2326001500006 Q0 value (ratio of resonance integral to thermal 2326001500007 neutron activation cross-section) 2326001500008 SAMPLE - Provider - Alfa Aesar 2326001500009 Matrix - Foil,Pt Alloy 2326001500010 Elemental content, % weight - 4.6 2326001500011 Average sample thickness h,mm - 0.05 2326001500012 - Provider - Alfa Aesar 2326001500013 Matrix - Liquid on paper 2326001500014 Elemental content, % weight - 0.1 2326001500015 Average sample thickness h,mm - 1.25 2326001500016 DECAY-DATA (44-RU-103,39.35D,DG,497.1,0.910,DG,610.3,0.0576) 2326001500017 METHOD Measurements at channels: 2326001500018 1 S84 2326001500019 2 Y4 . 2326001500020 ANALYSIS The Q0(or s0) factors were determined by inputting the 2326001500021 recommended Er value from references - 181. eV (+-4%). 2326001500022 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326001500023 Uncertainty in the Q0 determination for for the simple 2326001500024 case of one determination in one irradiation channel 2326001500025 with one standard, given no type-B uncertainties 2326001500026 contributions from the FCd = 1 and neutron 2326001500027 self-shielding effects is on average 2326001500028 2.5 % for foils, 2.6 % for compounds; 2326001500029 include contributions from : 2326001500030 - The combined uncertainty of 1.1 % for foils and 1.2 %2326001500031 for liquids/compounds in the parameter OMEGACd . 2326001500032 - A combined type-B uncertainty from the comparator Qa 2326001500033 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326001500034 S84 - 1.8 % . 2326001500035 - A combined type-B uncertainty of 1.2 % during 2326001500036 Qa -> Q0 conversion, due to the uncertainty on a and 2326001500037 an average 7 % uncertainty on the recommended effective2326001500038 resonance energy factor for the analyte, taken from 2326001500039 references. 2326001500040 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326001500041 (COREL,23260015) Average Q0 . 2326001500042 ENDBIB 40 0 2326001500043 COMMON 2 3 2326001500044 EN-MIN-NM EN-MEAN-DN 2326001500045 EV EV 2326001500046 0.5 0.0253 2326001500047 ENDCOMMON 3 0 2326001500048 DATA 4 1 2326001500049 DATA 1DATA-ERR 1DATA 2DATA-ERR 2 2326001500050 NO-DIM PER-CENT NO-DIM PER-CENT 2326001500051 3.62 2. 3.20 3. 2326001500052 ENDDATA 3 0 2326001500053 ENDSUBENT 52 0 2326001599999 SUBENT 23260016 20141210 22412326001600001 BIB 9 66 2326001600002 REACTION 1((44-RU-104(N,G)44-RU-105,,RI)// 2326001600003 (44-RU-104(N,G)44-RU-105,,SIG)) 2326001600004 2((44-RU-104(N,G)44-RU-105,,RI)// 2326001600005 (44-RU-104(N,G)44-RU-105,,SIG)) 2326001600006 Q0 value (ratio of resonance integral to thermal 2326001600007 neutron activation cross-section) 2326001600008 SAMPLE - Provider - Alfa Aesar 2326001600009 Matrix - Foil,Pt Alloy 2326001600010 Elemental content, % weight - 4.6 2326001600011 Average sample thickness h,mm - 0.05 2326001600012 - Provider - Alfa Aesar 2326001600013 Matrix - Liquid on paper 2326001600014 Elemental content, % weight - 0.1 2326001600015 Average sample thickness h,mm - 1.25 2326001600016 DECAY-DATA (44-RU-105,4.44HR,DG,262.8,0.0657,DG,316.4,0.111, 2326001600017 DG,469.4,0.175,DG,676.4,0.157,DG,724.3,0.473) 2326001600018 (45-RH-105-M,42.3SEC,DG,129.6,0.200) 2326001600019 (45-RH-105-G,35.36HR,DG,306.1,0.051,DG,318.9,0.191) 2326001600020 METHOD Measurements at channel: 2326001600021 S84 via Ru-105 2326001600022 Y4 via Ru-105 2326001600023 S84 via Rh-105-m 2326001600024 Y4 via Rh-105-m 2326001600025 S84 via Rh-105-g 2326001600026 Y4 via Rh-105-g 2326001600027 ANALYSIS The Q0(or s0) factors were determined by 2 different 2326001600028 approaches: 2326001600029 1- the classical method: from the mean (AVG) and 2326001600030 observed SD of the results from all channels employed, 2326001600031 when inputting the recommended Er value from 2326001600032 references - 495. eV (+-10%). 2326001600033 2- the a-vector method applied on up to 3 irradiation 2326001600034 channels: leading to simultaneous Q0 (or s0) and Er 2326001600035 determination. 2326001600036 MISC-COL (MISC) Effective resonance energy defined by a-vector 2326001600037 method. 2326001600038 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326001600039 Uncertainty in the Q0 determination for for the simple 2326001600040 case of one determination in one irradiation channel 2326001600041 with one standard, given no type-B uncertainties 2326001600042 contributions from the FCd = 1 and neutron 2326001600043 self-shielding effects is on average 2326001600044 2.5 % for foils, 2.6 % for compounds; 2326001600045 include contributions from : 2326001600046 - The combined uncertainty of 1.1 % for foils and 1.2 %2326001600047 for liquids/compounds in the parameter OMEGACd . 2326001600048 - A combined type-B uncertainty from the comparator Qa 2326001600049 factor for channels Y4 - 1.9 % , S84 - 1.8 % . 2326001600050 - A combined type-B uncertainty of 1.2 % during 2326001600051 Qa -> Q0 conversion, due to the uncertainty on a and 2326001600052 an average 7 % uncertainty on the recommended effective2326001600053 resonance energy factor for the analyte, taken from 2326001600054 references. 2326001600055 ADD-RES Measured k0-values with one-sigma uncertainty: 2326001600056 E-gamma,keV k0, no-dim. 2326001600057 262.8 1.28E-4 (+-1.2%) 2326001600058 316.4 2.17E-4 (+-1.3%) 2326001600059 469.4 3.47E-4 (+-1.3%) 2326001600060 676.4 3.05E-4 (+-1.3%) 2326001600061 724.3 9.26E-4 (+-1.3%) 2326001600062 129.6 1.03E-4 (+-1.3%) 2326001600063 306.1 9.98E-5 (+-1.4%) 2326001600064 318.9 3.67E-4 (+-1.4%) 2326001600065 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326001600066 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326001600067 (DEP,23260018) Measurements at two channels. 2326001600068 ENDBIB 66 0 2326001600069 COMMON 2 3 2326001600070 EN-MIN-NM EN-MEAN-DN 2326001600071 EV EV 2326001600072 0.5 0.0253 2326001600073 ENDCOMMON 3 0 2326001600074 DATA 6 1 2326001600075 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326001600076 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326001600077 13.1 2. 13.1 2. 504. 25. 2326001600078 ENDDATA 3 0 2326001600079 ENDSUBENT 78 0 2326001699999 SUBENT 23260017 20141210 22412326001700001 BIB 7 54 2326001700002 REACTION 1((44-RU-104(N,G)44-RU-105,,RI)// 2326001700003 (44-RU-104(N,G)44-RU-105,,SIG)) 2326001700004 2((44-RU-104(N,G)44-RU-105,,RI)// 2326001700005 (44-RU-104(N,G)44-RU-105,,SIG)) 2326001700006 3((44-RU-104(N,G)44-RU-105,,RI)// 2326001700007 (44-RU-104(N,G)44-RU-105,,SIG)) 2326001700008 4((44-RU-104(N,G)44-RU-105,,RI)// 2326001700009 (44-RU-104(N,G)44-RU-105,,SIG)) 2326001700010 5((44-RU-104(N,G)44-RU-105,,RI)// 2326001700011 (44-RU-104(N,G)44-RU-105,,SIG)) 2326001700012 6((44-RU-104(N,G)44-RU-105,,RI)// 2326001700013 (44-RU-104(N,G)44-RU-105,,SIG)) 2326001700014 Q0 value (ratio of resonance integral to thermal 2326001700015 neutron activation cross-section) 2326001700016 SAMPLE - Provider - Alfa Aesar 2326001700017 Matrix - Foil,Pt Alloy 2326001700018 Elemental content, % weight - 4.6 2326001700019 Average sample thickness h,mm - 0.05 2326001700020 - Provider - Alfa Aesar 2326001700021 Matrix - Liquid on paper 2326001700022 Elemental content, % weight - 0.1 2326001700023 Average sample thickness h,mm - 1.25 2326001700024 DECAY-DATA (44-RU-105,4.44HR,DG,262.8,0.0657,DG,316.4,0.111, 2326001700025 DG,469.4,0.175,DG,676.4,0.157,DG,724.3,0.473) 2326001700026 (45-RH-105-M,42.3SEC,DG,129.6,0.200) 2326001700027 (45-RH-105-G,35.36HR,DG,306.1,0.051,DG,318.9,0.191) 2326001700028 METHOD Measurements at channel: 2326001700029 1 S84 via Ru-105 2326001700030 2 Y4 via Ru-105 2326001700031 3 S84 via Rh-105-m 2326001700032 4 Y4 via Rh-105-m 2326001700033 5 S84 via Rh-105-g 2326001700034 6 Y4 via Rh-105-g 2326001700035 ANALYSIS The Q0(or s0) factors were determined by inputting the 2326001700036 recommended Er value from references - 495. eV (+-10%).2326001700037 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326001700038 Uncertainty in the Q0 determination for for the simple 2326001700039 case of one determination in one irradiation channel 2326001700040 with one standard, given no type-B uncertainties 2326001700041 contributions from the FCd = 1 and neutron 2326001700042 self-shielding effects is on average 2326001700043 2.5 % for foils, 2.6 % for compounds; 2326001700044 include contributions from : 2326001700045 - The combined uncertainty of 1.1 % for foils and 1.2 %2326001700046 for liquids/compounds in the parameter OMEGACd . 2326001700047 - A combined type-B uncertainty from the comparator Qa 2326001700048 factor for channels Y4 - 1.9 % , S84 - 1.8 % . 2326001700049 - A combined type-B uncertainty of 1.2 % during 2326001700050 Qa -> Q0 conversion, due to the uncertainty on a and 2326001700051 an average 7 % uncertainty on the recommended effective2326001700052 resonance energy factor for the analyte, taken from 2326001700053 references. 2326001700054 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326001700055 (COREL,23260017) Average Q0 . 2326001700056 ENDBIB 54 0 2326001700057 COMMON 2 3 2326001700058 EN-MIN-NM EN-MEAN-DN 2326001700059 EV EV 2326001700060 0.5 0.0253 2326001700061 ENDCOMMON 3 0 2326001700062 DATA 12 1 2326001700063 DATA 1DATA-ERR 1DATA 2DATA-ERR 2DATA 3DATA-ERR 32326001700064 DATA 4DATA-ERR 4DATA 5DATA-ERR 5DATA 6DATA-ERR 62326001700065 NO-DIM PER-CENT NO-DIM PER-CENT NO-DIM PER-CENT 2326001700066 NO-DIM PER-CENT NO-DIM PER-CENT NO-DIM PER-CENT 2326001700067 13.2 1. 13.2 2. 12.9 1. 2326001700068 13.2 2. 12.9 1. 13.1 1. 2326001700069 ENDDATA 6 0 2326001700070 ENDSUBENT 69 0 2326001799999 SUBENT 23260018 20141210 22412326001800001 BIB 9 50 2326001800002 REACTION ((46-PD-108(N,G)46-PD-109,,RI)// 2326001800003 (46-PD-108(N,G)46-PD-109,,SIG)) 2326001800004 Q0 value (ratio of resonance integral to thermal 2326001800005 neutron activation cross-section) 2326001800006 SAMPLE Provider - Goodfellow 2326001800007 Matrix - Wire 2326001800008 Elemental content, % weight > 99.99 2326001800009 Average sample thickness h,mm - 0.5 2326001800010 DECAY-DATA (46-PD-109-G,13.46HR,DG,311.4,0.00032,DG,602.5,0.00008,2326001800011 DG,636.3,0.00010,DG,647.3,0.000244,DG,781.4,0.000112) 2326001800012 (47-AG-109-M,39.6SEC,DG,88.0,0.037) 2326001800013 METHOD Measurements at channel Y4 2326001800014 ANALYSIS The Q0(or s0) factors were determined by 2326001800015 - the classical method: from the mean (AVG) and 2326001800016 observed SD of the results from all channels employed, 2326001800017 when inputting the recommended Er value from 2326001800018 references - 39.7eV (+-5%). 2326001800019 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326001800020 Uncertainty in the Q0 determination for for the simple 2326001800021 case of one determination in one irradiation channel 2326001800022 with one standard, given no type-B uncertainties 2326001800023 contributions from the FCd = 1 and neutron 2326001800024 self-shielding effects is on average 2326001800025 2.5 % for foils, 2.6 % for compounds; 2326001800026 include contributions from : 2326001800027 - The combined uncertainty of 1.1 % for foils and 1.2 %2326001800028 for liquids/compounds in the parameter OMEGACd . 2326001800029 - A combined type-B uncertainty from the comparator Qa 2326001800030 factor for channel Y4 - 1.9 % . 2326001800031 - A combined type-B uncertainty of 1.2 % during 2326001800032 Qa -> Q0 conversion, due to the uncertainty on a and 2326001800033 an average 7 % uncertainty on the recommended effective2326001800034 resonance energy factor for the analyte, taken from 2326001800035 references. 2326001800036 COMMENT Of compiler. 2326001800037 - For wire - uncertainties are not specified, 2326001800038 so compiled in free text as for foils / compounds. 2326001800039 - DATA uncertainty in Table 5 of 2326001800040 J,JRN,302,655,2014 is 7.% . 2326001800041 ADD-RES Measured k0-values with one-sigma uncertainty: 2326001800042 E-gamma,keV k0, no-dim. 2326001800043 311.4 1.41E-5 (+-1.8%) 2326001800044 602.5 3.58E-6 (+-1.9%) 2326001800045 636.3 4.52E-6 (+-1.7%) 2326001800046 647.3 1.08E-5 (+-1.8%) 2326001800047 781.41 4.96E-6 (+-1.7%) 2326001800048 88.0 1.53E-3 (+-3.5%) 2326001800049 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326001800050 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326001800051 (DEP,23260020) Two measurements used for averaging. 2326001800052 ENDBIB 50 0 2326001800053 COMMON 2 3 2326001800054 EN-MIN-NM EN-MEAN-DN 2326001800055 EV EV 2326001800056 0.5 0.0253 2326001800057 ENDCOMMON 3 0 2326001800058 DATA 2 1 2326001800059 DATA DATA-ERR 2326001800060 NO-DIM PER-CENT 2326001800061 26.6 4. 2326001800062 ENDDATA 3 0 2326001800063 ENDSUBENT 62 0 2326001899999 SUBENT 23260019 20141210 22412326001900001 BIB 8 40 2326001900002 REACTION 1((46-PD-108(N,G)46-PD-109,,RI)// 2326001900003 (46-PD-108(N,G)46-PD-109,,SIG)) 2326001900004 2((46-PD-108(N,G)46-PD-109,,RI)// 2326001900005 (46-PD-108(N,G)46-PD-109,,SIG)) 2326001900006 Q0 value (ratio of resonance integral to thermal 2326001900007 neutron activation cross-section) 2326001900008 SAMPLE Provider - Goodfellow 2326001900009 Matrix - Wire 2326001900010 Elemental content, % weight > 99.99 2326001900011 Average sample thickness h,mm - 0.5 2326001900012 DECAY-DATA1(46-PD-109-G,13.46HR,DG,311.4,0.00032,DG,602.5,0.00008,2326001900013 DG,636.3,0.00010,DG,647.3,0.000244,DG,781.4,0.000112) 2326001900014 2(47-AG-109-M,39.6SEC,DG,88.0,0.037) 2326001900015 METHOD Measurements at channel Y4 2326001900016 1 via Pd-109 2326001900017 2 via Ag-109-m 2326001900018 ANALYSIS The Q0(or s0) factors were determined by inputting the 2326001900019 recommended Er value from references - 39.7eV (+-5%). 2326001900020 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326001900021 Uncertainty in the Q0 determination for for the simple 2326001900022 case of one determination in one irradiation channel 2326001900023 with one standard, given no type-B uncertainties 2326001900024 contributions from the FCd = 1 and neutron 2326001900025 self-shielding effects is on average 2326001900026 2.5 % for foils, 2.6 % for compounds; 2326001900027 include contributions from : 2326001900028 - The combined uncertainty of 1.1 % for foils and 1.2 %2326001900029 for liquids/compounds in the parameter OMEGACd . 2326001900030 - A combined type-B uncertainty from the comparator Qa 2326001900031 factor for channel Y4 - 1.9 % . 2326001900032 - A combined type-B uncertainty of 1.2 % during 2326001900033 Qa -> Q0 conversion, due to the uncertainty on a and 2326001900034 an average 7 % uncertainty on the recommended effective2326001900035 resonance energy factor for the analyte, taken from 2326001900036 references. 2326001900037 COMMENT Of compiler. 2326001900038 For wire - uncertainties are not specified, 2326001900039 so compiled in free text as for foils / compounds. 2326001900040 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326001900041 (COREL,23260019) Average Q0 . 2326001900042 ENDBIB 40 0 2326001900043 COMMON 2 3 2326001900044 EN-MIN-NM EN-MEAN-DN 2326001900045 EV EV 2326001900046 0.5 0.0253 2326001900047 ENDCOMMON 3 0 2326001900048 DATA 4 1 2326001900049 DATA 1DATA-ERR 1DATA 2DATA-ERR 2 2326001900050 NO-DIM PER-CENT NO-DIM PER-CENT 2326001900051 26.3 4. 26.8 4. 2326001900052 ENDDATA 3 0 2326001900053 ENDSUBENT 52 0 2326001999999 SUBENT 23260020 20141210 22412326002000001 BIB 8 44 2326002000002 REACTION ((46-PD-110(N,G)46-PD-111-M,,RI)// 2326002000003 (46-PD-110(N,G)46-PD-111-M,,SIG)) 2326002000004 Q0 value (ratio of resonance integral to thermal 2326002000005 neutron activation cross-section) 2326002000006 SAMPLE Provider - Goodfellow 2326002000007 Matrix - Wire 2326002000008 Elemental content, % weight > 99.99 2326002000009 Average sample thickness h,mm - 0.5 2326002000010 DECAY-DATA (46-PD-111-M,5.5HR,DG,172.2,0.340) 2326002000011 (46-PD-111-G,23.4MIN) 2326002000012 (47-AG-111-G,7.45D,DG,245.4,0.0124,DG,342.0,0.067) 2326002000013 ANALYSIS The Q0(or s0) factors were determined by 2326002000014 - the classical method: from the mean (AVG) and 2326002000015 observed SD of the results from all channels employed, 2326002000016 when inputting the recommended Er value from 2326002000017 references - 950.eV (+-9%). 2326002000018 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326002000019 Uncertainty in the Q0 determination for for the simple 2326002000020 case of one determination in one irradiation channel 2326002000021 with one standard, given no type-B uncertainties 2326002000022 contributions from the FCd = 1 and neutron 2326002000023 self-shielding effects is on average 2326002000024 2.5 % for foils, 2.6 % for compounds; 2326002000025 include contributions from : 2326002000026 - The combined uncertainty of 1.1 % for foils and 1.2 %2326002000027 for liquids/compounds in the parameter OMEGACd . 2326002000028 - A combined type-B uncertainty from the comparator Qa 2326002000029 factor for channel Y4 - 1.9 % . 2326002000030 - A combined type-B uncertainty of 1.2 % during 2326002000031 Qa -> Q0 conversion, due to the uncertainty on a and 2326002000032 an average 7 % uncertainty on the recommended effective2326002000033 resonance energy factor for the analyte, taken from 2326002000034 references. 2326002000035 COMMENT Of compiler. 2326002000036 For wire - uncertainties are not specified, 2326002000037 so compiled in free text as for foils / compounds. 2326002000038 ADD-RES Measured k0-values with one-sigma uncertainty: 2326002000039 E-gamma,keV k0, no-dim. 2326002000040 172.2 1.02E-5 (+-2.3%) 2326002000041 245.4 7.86E-6 (+-2.6%) 2326002000042 342.0 4.74E-5 (+-2.0%) 2326002000043 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326002000044 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326002000045 (DEP,23260022) Two measurements used for averaging. 2326002000046 ENDBIB 44 0 2326002000047 COMMON 2 3 2326002000048 EN-MIN-NM EN-MEAN-DN 2326002000049 EV EV 2326002000050 0.5 0.0253 2326002000051 ENDCOMMON 3 0 2326002000052 DATA 2 1 2326002000053 DATA DATA-ERR 2326002000054 NO-DIM PER-CENT 2326002000055 11.9 5. 2326002000056 ENDDATA 3 0 2326002000057 ENDSUBENT 56 0 2326002099999 SUBENT 23260021 20141210 22412326002100001 BIB 8 40 2326002100002 REACTION 1((46-PD-110(N,G)46-PD-111-M,,RI)// 2326002100003 (46-PD-110(N,G)46-PD-111-M,,SIG)) 2326002100004 2((46-PD-110(N,G)46-PD-111-M,,RI)// 2326002100005 (46-PD-110(N,G)46-PD-111-M,,SIG)) 2326002100006 Q0 value (ratio of resonance integral to thermal 2326002100007 neutron activation cross-section) 2326002100008 SAMPLE Provider - Goodfellow 2326002100009 Matrix - Wire 2326002100010 Elemental content, % weight > 99.99 2326002100011 Average sample thickness h,mm - 0.5 2326002100012 DECAY-DATA1(46-PD-111-M,5.5HR,DG,172.2,0.340) 2326002100013 (46-PD-111-G,23.4MIN) 2326002100014 2(47-AG-111-G,7.45D,DG,245.4,0.0124,DG,342.0,0.067) 2326002100015 METHOD Measurement at channel Y4 2326002100016 1 via Pd-11-M 2326002100017 2 via Ag-111 2326002100018 ANALYSIS The Q0(or s0) factors were determined by inputting the 2326002100019 recommended Er value from references - 950.eV (+-9%). 2326002100020 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326002100021 Uncertainty in the Q0 determination for for the simple 2326002100022 case of one determination in one irradiation channel 2326002100023 with one standard, given no type-B uncertainties 2326002100024 contributions from the FCd = 1 and neutron 2326002100025 self-shielding effects is on average 2326002100026 2.5 % for foils, 2.6 % for compounds; 2326002100027 include contributions from : 2326002100028 - The combined uncertainty of 1.1 % for foils and 1.2 %2326002100029 for liquids/compounds in the parameter OMEGACd . 2326002100030 - A combined type-B uncertainty from the comparator Qa 2326002100031 factor for channel Y4 - 1.9 % . 2326002100032 - A combined type-B uncertainty of 1.2 % during 2326002100033 Qa -> Q0 conversion, due to the uncertainty on a and 2326002100034 an average 7 % uncertainty on the recommended effective2326002100035 resonance energy factor for the analyte, taken from 2326002100036 references. 2326002100037 COMMENT Of compiler. 2326002100038 For wire - uncertainties are not specified, 2326002100039 so compiled in free text as for foils / compounds. 2326002100040 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326002100041 (COREL,23260021) Average Q0 . 2326002100042 ENDBIB 40 0 2326002100043 COMMON 2 3 2326002100044 EN-MIN-NM EN-MEAN-DN 2326002100045 EV EV 2326002100046 0.5 0.0253 2326002100047 ENDCOMMON 3 0 2326002100048 DATA 4 1 2326002100049 DATA 1DATA-ERR 1DATA 2DATA-ERR 2 2326002100050 NO-DIM PER-CENT NO-DIM PER-CENT 2326002100051 11.9 3. 9.9 3. 2326002100052 ENDDATA 3 0 2326002100053 ENDSUBENT 52 0 2326002199999 SUBENT 23260022 20141210 22412326002200001 BIB 9 70 2326002200002 REACTION 1((47-AG-109(N,G)47-AG-110-M,,RI)// 2326002200003 (47-AG-109(N,G)47-AG-110-M,,SIG)) 2326002200004 2((47-AG-109(N,G)47-AG-110-M,,RI)// 2326002200005 (47-AG-109(N,G)47-AG-110-M,,SIG)) 2326002200006 Q0 value (ratio of resonance integral to thermal 2326002200007 neutron activation cross-section) 2326002200008 SAMPLE Provider - IRMM 2326002200009 Matrix - Foil,Al alloy 2326002200010 Elemental content, % weight - 1. 2326002200011 Average sample thickness h,mm - 0.1 2326002200012 DECAY-DATA (47-AG-110-M,249.8D,DG,446.8,0.037,DG,620.4,0.0273, 2326002200013 DG,657.8,0.9561,DG,677.6,0.107,DG,687.0,0.0653, 2326002200014 DG,706.7,0.1669,DG,744.3,0.0477,DG,763.9,0.226, 2326002200015 DG,818.0,0.0743,DG,884.7,0.750,DG,937.5,0.350, 2326002200016 DG,1384.3,0.251,DG,1475.8,0.0408,DG,1505.0,0.1333, 2326002200017 DG,1562.3,0.0122) 2326002200018 METHOD Measurement at channel: 2326002200019 S85 2326002200020 Y4 2326002200021 X26 2326002200022 ANALYSIS The Q0(or s0) factors were determined by 2 different 2326002200023 approaches: 2326002200024 1- the classical method: from the mean (AVG) and 2326002200025 observed SD of the results from all channels employed, 2326002200026 when inputting the recommended Er value from 2326002200027 references - 6.08 eV (+-1%). 2326002200028 2- the a-vector method applied on up to 3 irradiation 2326002200029 channels: leading to simultaneous Q0 (or s0) and Er 2326002200030 determination. 2326002200031 MISC-COL (MISC) Effective resonance energy defined by a-vector 2326002200032 method. 2326002200033 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326002200034 Uncertainty in the Q0 determination for for the simple 2326002200035 case of one determination in one irradiation channel 2326002200036 with one standard, given no type-B uncertainties 2326002200037 contributions from the FCd = 1 and neutron 2326002200038 self-shielding effects is on average 2326002200039 2.5 % for foils, 2.6 % for compounds; 2326002200040 include contributions from : 2326002200041 - The combined uncertainty of 1.1 % for foils and 1.2 %2326002200042 for liquids/compounds in the parameter OMEGACd . 2326002200043 - A combined type-B uncertainty from the comparator Qa 2326002200044 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326002200045 S84 - 1.8 % . 2326002200046 - A combined type-B uncertainty of 1.2 % during 2326002200047 Qa -> Q0 conversion, due to the uncertainty on a and 2326002200048 an average 7 % uncertainty on the recommended effective2326002200049 resonance energy factor for the analyte, taken from 2326002200050 references. 2326002200051 ADD-RES Measured k0-values with one-sigma uncertainty: 2326002200052 E-gamma,keV k0, no-dim. 2326002200053 446.8 1.37E-3 (+-2.3%) 2326002200054 620.4 1.01E-3 (+-2.3%) 2326002200055 657.8 3.53E-2 (+-1.8%) 2326002200056 677.6 3.93E-3 (+-1.9%) 2326002200057 687.0 2.43E-3 (+-1.7%) 2326002200058 706.7 6.20E-3 (+-1.8%) 2326002200059 744.3 1.77E-3 (+-2.1%) 2326002200060 763.9 8.35E-3 (+-1.9%) 2326002200061 818.0 2.73E-3 (+-2.1%) 2326002200062 884.7 2.75E-2 (+-2.0%) 2326002200063 937.5 1.29E-2 (+-1.7%) 2326002200064 1384.3 9.22E-3 (+-2.6%) 2326002200065 1475.8 1.51E-3 (+-2.0%) 2326002200066 1505.0 4.93E-3 (+-2.3%) 2326002200067 1562.3 4.54E-4 (+-1.8%) 2326002200068 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326002200069 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326002200070 Table 6 of J,JRN,302,631,2014. 2326002200071 1(DEP,23260024) Q0 measured at 3 channels. 2326002200072 ENDBIB 70 0 2326002200073 COMMON 2 3 2326002200074 EN-MIN-NM EN-MEAN-DN 2326002200075 EV EV 2326002200076 0.5 0.0253 2326002200077 ENDCOMMON 3 0 2326002200078 DATA 6 1 2326002200079 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326002200080 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326002200081 16.5 2. 16.5 2. 5.7 7. 2326002200082 ENDDATA 3 0 2326002200083 ENDSUBENT 82 0 2326002299999 SUBENT 23260023 20141210 22412326002300001 BIB 7 45 2326002300002 REACTION 1((47-AG-109(N,G)47-AG-110-M,,RI)// 2326002300003 (47-AG-109(N,G)47-AG-110-M,,SIG)) 2326002300004 2((47-AG-109(N,G)47-AG-110-M,,RI)// 2326002300005 (47-AG-109(N,G)47-AG-110-M,,SIG)) 2326002300006 3((47-AG-109(N,G)47-AG-110-M,,RI)// 2326002300007 (47-AG-109(N,G)47-AG-110-M,,SIG)) 2326002300008 Q0 value (ratio of resonance integral to thermal 2326002300009 neutron activation cross-section) 2326002300010 SAMPLE Provider - IRMM 2326002300011 Matrix - Foil,Al alloy 2326002300012 Elemental content, % weight - 1. 2326002300013 Average sample thickness h,mm - 0.1 2326002300014 DECAY-DATA (47-AG-110-M,249.8D,DG,446.8,0.037,DG,620.4,0.0273, 2326002300015 DG,657.8,0.9561,DG,677.6,0.107,DG,687.0,0.0653, 2326002300016 DG,706.7,0.1669,DG,744.3,0.0477,DG,763.9,0.226, 2326002300017 DG,818.0,0.0743,DG,884.7,0.750,DG,937.5,0.350, 2326002300018 DG,1384.3,0.251,DG,1475.8,0.0408,DG,1505.0,0.1333, 2326002300019 DG,1562.3,0.0122) 2326002300020 METHOD Measurement at channel: 2326002300021 1 S85 2326002300022 2 Y4 2326002300023 3 X26 2326002300024 ANALYSIS The Q0(or s0) factors were determined inputting the 2326002300025 recommended Er value from references - 6.08 eV (+-1%). 2326002300026 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326002300027 Uncertainty in the Q0 determination for for the simple 2326002300028 case of one determination in one irradiation channel 2326002300029 with one standard, given no type-B uncertainties 2326002300030 contributions from the FCd = 1 and neutron 2326002300031 self-shielding effects is on average 2326002300032 2.5 % for foils, 2.6 % for compounds; 2326002300033 include contributions from : 2326002300034 - The combined uncertainty of 1.1 % for foils and 1.2 %2326002300035 for liquids/compounds in the parameter OMEGACd . 2326002300036 - A combined type-B uncertainty from the comparator Qa 2326002300037 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326002300038 S84 - 1.8 % . 2326002300039 - A combined type-B uncertainty of 1.2 % during 2326002300040 Qa -> Q0 conversion, due to the uncertainty on a and 2326002300041 an average 7 % uncertainty on the recommended effective2326002300042 resonance energy factor for the analyte, taken from 2326002300043 references. 2326002300044 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326002300045 Table 6 of J,JRN,302,631,2014. 2326002300046 (COREL,23260025) Average Q0 . 2326002300047 ENDBIB 45 0 2326002300048 COMMON 2 3 2326002300049 EN-MIN-NM EN-MEAN-DN 2326002300050 EV EV 2326002300051 0.5 0.0253 2326002300052 ENDCOMMON 3 0 2326002300053 DATA 6 1 2326002300054 DATA 1DATA-ERR 1DATA 2DATA-ERR 2DATA 3DATA-ERR 32326002300055 NO-DIM PER-CENT NO-DIM PER-CENT NO-DIM PER-CENT 2326002300056 16.3 2. 16.7 1. 16.3 1. 2326002300057 ENDDATA 3 0 2326002300058 ENDSUBENT 57 0 2326002399999 SUBENT 23260024 20141210 22412326002400001 BIB 9 58 2326002400002 REACTION 1((48-CD-114(N,G)48-CD-115-G,,RI)// 2326002400003 (48-CD-114(N,G)48-CD-115-G,,SIG)) 2326002400004 2((48-CD-114(N,G)48-CD-115-G,,RI)// 2326002400005 (48-CD-114(N,G)48-CD-115-G,,SIG)) 2326002400006 Q0 value (ratio of resonance integral to thermal 2326002400007 neutron activation cross-section) 2326002400008 SAMPLE Provider - NIST 2326002400009 Matrix - Liquid on paper 2326002400010 Elemental content, % weight - 1. 2326002400011 Average sample thickness h,mm - 1.25 2326002400012 DECAY-DATA (48-CD-115-G,53.5HR,DG,527.9,0.275) 2326002400013 (49-IN-115-M,4.486HR,DG,336.2,0.458) 2326002400014 METHOD Measurement at channel: 2326002400015 S85, via Cd-115. 2326002400016 Y4, via Cd-115. 2326002400017 X26, via Cd-115. 2326002400018 S85, via In-115-M. 2326002400019 Y4, via In-115-M. 2326002400020 X26, via In-115-M. 2326002400021 ANALYSIS The Q0(or s0) factors were determined by 2 different 2326002400022 approaches: 2326002400023 1- the classical method: from the mean (AVG) and 2326002400024 observed SD of the results from all channels employed, 2326002400025 when inputting the recommended Er value from 2326002400026 references - 207. eV (+-19%). 2326002400027 2- the a-vector method applied on up to 3 irradiation 2326002400028 channels: leading to simultaneous Q0 (or s0) and Er 2326002400029 determination. 2326002400030 The Cd transmission factor FCd (a parameter that 2326002400031 accounts for a possible loss in the induced activity of2326002400032 samples irradiated inside a Cd-cover, dimensionless) 2326002400033 0.40 . 2326002400034 MISC-COL (MISC) Effective resonance energy defined by a-vector 2326002400035 method. 2326002400036 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326002400037 Uncertainty in the Q0 determination for for the simple 2326002400038 case of one determination in one irradiation channel 2326002400039 with one standard include contributions from : 2326002400040 - For an isotope 114Cd maximum 5 % uncertainty in 2326002400041 the observed FCd = 0.40, meaning a 5.2 % combined 2326002400042 uncertainty for this isotope OMEGACd factor (liquid 2326002400043 standard). 2326002400044 - A combined type-B uncertainty from the comparator Qa 2326002400045 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326002400046 S84 - 1.8 % . 2326002400047 - A combined type-B uncertainty of 1.2 % during 2326002400048 Qa -> Q0 conversion, due to the uncertainty on a and 2326002400049 an average 7 % uncertainty on the recommended effective2326002400050 resonance energy factor for the analyte, taken from 2326002400051 references. 2326002400052 ADD-RES Measured k0-values with one-sigma uncertainty: 2326002400053 E-gamma,keV k0, no-dim. 2326002400054 527.9 4.97E-4 (+-5.0%) 2326002400055 336.2 8.07E-4 (+-5.0%) 2326002400056 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326002400057 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326002400058 Table 6 of J,JRN,302,631,2014. 2326002400059 1(DEP,23260026) Q0 measured at different channels. 2326002400060 ENDBIB 58 0 2326002400061 COMMON 2 3 2326002400062 EN-MIN-NM EN-MEAN-DN 2326002400063 EV EV 2326002400064 0.5 0.0253 2326002400065 ENDCOMMON 3 0 2326002400066 DATA 6 1 2326002400067 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326002400068 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326002400069 31.4 4. 31.0 4. 202. 33. 2326002400070 ENDDATA 3 0 2326002400071 ENDSUBENT 70 0 2326002499999 SUBENT 23260025 20141210 22412326002500001 BIB 7 54 2326002500002 REACTION 1((48-CD-114(N,G)48-CD-115-G,,RI)// 2326002500003 (48-CD-114(N,G)48-CD-115-G,,SIG)) 2326002500004 2((48-CD-114(N,G)48-CD-115-G,,RI)// 2326002500005 (48-CD-114(N,G)48-CD-115-G,,SIG)) 2326002500006 3((48-CD-114(N,G)48-CD-115-G,,RI)// 2326002500007 (48-CD-114(N,G)48-CD-115-G,,SIG)) 2326002500008 4((48-CD-114(N,G)48-CD-115-G,,RI)// 2326002500009 (48-CD-114(N,G)48-CD-115-G,,SIG)) 2326002500010 5((48-CD-114(N,G)48-CD-115-G,,RI)// 2326002500011 (48-CD-114(N,G)48-CD-115-G,,SIG)) 2326002500012 6((48-CD-114(N,G)48-CD-115-G,,RI)// 2326002500013 (48-CD-114(N,G)48-CD-115-G,,SIG)) 2326002500014 Q0 value (ratio of resonance integral to thermal 2326002500015 neutron activation cross-section) 2326002500016 SAMPLE Provider - NIST 2326002500017 Matrix - Liquid on paper 2326002500018 Elemental content, % weight - 1. 2326002500019 Average sample thickness h,mm - 1.25 2326002500020 DECAY-DATA (48-CD-115-G,53.5HR,DG,527.9,0.275) 2326002500021 (49-IN-115-M,4.486HR,DG,336.2,0.458) 2326002500022 METHOD Measurement at channel: 2326002500023 1 S85, via Cd-115. 2326002500024 2 Y4, via Cd-115. 2326002500025 3 X26, via Cd-115. 2326002500026 4 S85, via In-115-M. 2326002500027 5 Y4, via In-115-M. 2326002500028 6 X26, via In-115-M. 2326002500029 The Cd transmission factor FCd (a parameter that 2326002500030 accounts for a possible loss in the induced activity of2326002500031 samples irradiated inside a Cd-cover, dimensionless) 2326002500032 0.40 . 2326002500033 ANALYSIS The Q0(or s0) factors were determined 2326002500034 inputting the recommended Er value from 2326002500035 references - 6.08 eV (+-1%). 2326002500036 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326002500037 Uncertainty in the Q0 determination for for the simple 2326002500038 case of one determination in one irradiation channel 2326002500039 with one standard include contributions from : 2326002500040 - For an isotope 114Cd maximum 5 % uncertainty in 2326002500041 the observed FCd = 0.40, meaning a 5.2 % combined 2326002500042 uncertainty for this isotope OMEGACd factor (liquid 2326002500043 standard). 2326002500044 - A combined type-B uncertainty from the comparator Qa 2326002500045 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326002500046 S84 - 1.8 % . 2326002500047 - A combined type-B uncertainty of 1.2 % during 2326002500048 Qa -> Q0 conversion, due to the uncertainty on a and 2326002500049 an average 7 % uncertainty on the recommended effective2326002500050 resonance energy factor for the analyte, taken from 2326002500051 references. 2326002500052 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326002500053 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326002500054 Table 6 of J,JRN,302,631,2014. 2326002500055 (COREL,23260025) Average Q0 . 2326002500056 ENDBIB 54 0 2326002500057 COMMON 2 3 2326002500058 EN-MIN-NM EN-MEAN-DN 2326002500059 EV EV 2326002500060 0.5 0.0253 2326002500061 ENDCOMMON 3 0 2326002500062 DATA 12 1 2326002500063 DATA 1DATA-ERR 1DATA 2DATA-ERR 2DATA 3DATA-ERR 32326002500064 DATA 4DATA-ERR 4DATA 5DATA-ERR 5DATA 6DATA-ERR 62326002500065 NO-DIM PER-CENT NO-DIM PER-CENT NO-DIM PER-CENT 2326002500066 NO-DIM PER-CENT NO-DIM PER-CENT NO-DIM PER-CENT 2326002500067 31.8 7. 30.3 5. 32.5 4. 2326002500068 32.3 7. 30.4 5. 33.1 4. 2326002500069 ENDDATA 6 0 2326002500070 ENDSUBENT 69 0 2326002599999 SUBENT 23260026 20141210 22412326002600001 BIB 9 57 2326002600002 REACTION 1((49-IN-113(N,G)49-IN-114-M,,RI)// 2326002600003 (49-IN-113(N,G)49-IN-114-M,,SIG)) 2326002600004 2((49-IN-113(N,G)49-IN-114-M,,RI)// 2326002600005 (49-IN-113(N,G)49-IN-114-M,,SIG)) 2326002600006 Q0 value (ratio of resonance integral to thermal 2326002600007 neutron activation cross-section) 2326002600008 SAMPLE Provider - IRMM 2326002600009 Average sample thickness h,mm - 0.1 2326002600010 -Matrix - Foil, Sn alloy 2326002600011 Elemental content, % weight - 15.4 2326002600012 -Matrix - Foil, Sn alloy 2326002600013 Elemental content, % weight - 5.15 2326002600014 -Matrix - Foil, Al alloy 2326002600015 Elemental content, % weight - 1. 2326002600016 -Matrix - Foil, Al alloy 2326002600017 Elemental content, % weight - 0.017 2326002600018 DECAY-DATA (49-IN-114-M,49.51D,DG,190.3,0.1556,DG,558.4,0.0439, 2326002600019 DG,725.2,0.0439) 2326002600020 METHOD Measurement at channels: 2326002600021 Y4 2326002600022 X26 2326002600023 ANALYSIS The Q0(or s0) factors were determined by 2 different 2326002600024 approaches: 2326002600025 1- the classical method: from the mean (AVG) and 2326002600026 observed SD of the results from all channels employed, 2326002600027 when inputting the recommended Er value from 2326002600028 references - 6.41 eV (+-15%). 2326002600029 2- the a-vector method applied on up to 3 irradiation 2326002600030 channels: leading to simultaneous Q0 (or s0) and Er 2326002600031 determination. 2326002600032 MISC-COL (MISC) Effective resonance energy Er defined by 2326002600033 a-vector method. 2326002600034 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326002600035 Uncertainty in the Q0 determination for for the simple 2326002600036 case of one determination in one irradiation channel 2326002600037 with one standard, given no type-B uncertainties 2326002600038 contributions from the FCd = 1 and neutron 2326002600039 self-shielding effects is on average 2326002600040 2.5 % for foils, 2.6 % for compounds; 2326002600041 include contributions from : 2326002600042 - The combined uncertainty of 1.1 % for foils and 1.2 %2326002600043 for liquids/compounds in the parameter OMEGACd . 2326002600044 - A combined type-B uncertainty from the comparator Qa 2326002600045 factor for channels X26 up to 2.1 %, Y4 - 1.9 % . 2326002600046 - A combined type-B uncertainty of 1.2 % during 2326002600047 Qa -> Q0 conversion, due to the uncertainty on a and 2326002600048 an average 7 % uncertainty on the recommended effective2326002600049 resonance energy factor for the analyte, taken from 2326002600050 references. 2326002600051 ADD-RES Measured k0-values with one-sigma uncertainty: 2326002600052 E-gamma,keV k0, no-dim. 2326002600053 190.3 1.02E-3 (+-1.3%) 2326002600054 558.4 2.70E-4 (+-1.2%) 2326002600055 725.2 2.79E-4 (+-1.2%) 2326002600056 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326002600057 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326002600058 1(DEP,23260028) Q0 measured at different channels. 2326002600059 ENDBIB 57 0 2326002600060 COMMON 2 3 2326002600061 EN-MIN-NM EN-MEAN-DN 2326002600062 EV EV 2326002600063 0.5 0.0253 2326002600064 ENDCOMMON 3 0 2326002600065 DATA 6 1 2326002600066 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326002600067 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326002600068 24.1 2. 23.7 2. 4.99 25. 2326002600069 ENDDATA 3 0 2326002600070 ENDSUBENT 69 0 2326002699999 SUBENT 23260027 20141210 22412326002700001 BIB 7 42 2326002700002 REACTION 1((49-IN-113(N,G)49-IN-114-M,,RI)// 2326002700003 (49-IN-113(N,G)49-IN-114-M,,SIG)) 2326002700004 2((49-IN-113(N,G)49-IN-114-M,,RI)// 2326002700005 (49-IN-113(N,G)49-IN-114-M,,SIG)) 2326002700006 Q0 value (ratio of resonance integral to thermal 2326002700007 neutron activation cross-section) 2326002700008 SAMPLE Provider - IRMM 2326002700009 Average sample thickness h,mm - 0.1 2326002700010 -Matrix - Foil, Sn alloy 2326002700011 Elemental content, % weight - 15.4 2326002700012 -Matrix - Foil, Sn alloy 2326002700013 Elemental content, % weight - 5.15 2326002700014 -Matrix - Foil, Al alloy 2326002700015 Elemental content, % weight - 1. 2326002700016 -Matrix - Foil, Al alloy 2326002700017 Elemental content, % weight - 0.017 2326002700018 DECAY-DATA (49-IN-114-M,49.51D,DG,190.3,0.1556,DG,558.4,0.0439, 2326002700019 DG,725.2,0.0439) 2326002700020 METHOD Measurement at channels: 2326002700021 1 Y4 2326002700022 2 X26 2326002700023 ANALYSIS The Q0(or s0) factors were determined by inputting the 2326002700024 recommended Er value from references - 6.41 eV (+-15%).2326002700025 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326002700026 Uncertainty in the Q0 determination for for the simple 2326002700027 case of one determination in one irradiation channel 2326002700028 with one standard, given no type-B uncertainties 2326002700029 contributions from the FCd = 1 and neutron 2326002700030 self-shielding effects is on average 2326002700031 2.5 % for foils, 2.6 % for compounds; 2326002700032 include contributions from : 2326002700033 - The combined uncertainty of 1.1 % for foils and 1.2 %2326002700034 for liquids/compounds in the parameter OMEGACd . 2326002700035 - A combined type-B uncertainty from the comparator Qa 2326002700036 factor for channels X26 up to 2.1 %, Y4 - 1.9 % . 2326002700037 - A combined type-B uncertainty of 1.2 % during 2326002700038 Qa -> Q0 conversion, due to the uncertainty on a and 2326002700039 an average 7 % uncertainty on the recommended effective2326002700040 resonance energy factor for the analyte, taken from 2326002700041 references. 2326002700042 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326002700043 (COREL,23260027) Average Q0 . 2326002700044 ENDBIB 42 0 2326002700045 COMMON 2 3 2326002700046 EN-MIN-NM EN-MEAN-DN 2326002700047 EV EV 2326002700048 0.5 0.0253 2326002700049 ENDCOMMON 3 0 2326002700050 DATA 4 1 2326002700051 DATA 1DATA-ERR 1DATA 2DATA-ERR 2 2326002700052 NO-DIM PER-CENT NO-DIM PER-CENT 2326002700053 24.0 3. 24.2 2. 2326002700054 ENDDATA 3 0 2326002700055 ENDSUBENT 54 0 2326002799999 SUBENT 23260028 20141210 22412326002800001 BIB 10 60 2326002800002 REACTION ((49-IN-115(N,G)49-IN-116-M,,RI)// 2326002800003 (49-IN-115(N,G)49-IN-116-M,,SIG)) 2326002800004 Q0 value (ratio of resonance integral to thermal 2326002800005 neutron activation cross-section) 2326002800006 SAMPLE Provider - IRMM 2326002800007 Average sample thickness h,mm - 0.1 2326002800008 -Matrix - Foil, Sn alloy 2326002800009 Elemental content, % weight - 15.4 2326002800010 -Matrix - Foil, Sn alloy 2326002800011 Elemental content, % weight - 5.15 2326002800012 -Matrix - Foil, Al alloy 2326002800013 Elemental content, % weight - 1. 2326002800014 -Matrix - Foil, Al alloy 2326002800015 Elemental content, % weight - 0.017 2326002800016 DECAY-DATA (49-IN-116-M1,54.41MIN,DG,138.3,0.037,DG,416.9,0.272, 2326002800017 DG,818.7,0.1213,DG,1097.3,0.585,DG,1293.5,0.848, 2326002800018 DG,1507.4,0.0992,DG,2112.1,0.1509) 2326002800019 METHOD Measurement at S84 channel. 2326002800020 REL-REF (R,,F.De Corte,T,DE CORTE,1987) 2326002800021 The k0-standardization method: a move to the 2326002800022 optimization of neutron activation analysis. 2326002800023 Ph.D. Thesis. Gent Universiteit, Belgium. 2326002800024 ANALYSIS FCd=0.927 value adopted from REL-REF of F.De Corte. 2326002800025 The Q0(or s0) factors were determined by 2326002800026 the classical method: from the mean (AVG) and 2326002800027 observed SD of the results from all channels employed, 2326002800028 when inputting the recommended Er value from 2326002800029 references - 1.56 eV (+-7%). 2326002800030 ERR-ANALYS (DATA-ERR1) One sigma uncertainty (Table 5). 2326002800031 (DATA-ERR2) Standard deviation ( from Suppl.material- 2326002800032 direct measurement). 2326002800033 Uncertainty in the Q0 determination for for the simple 2326002800034 case of one determination in one irradiation channel 2326002800035 with one standard, given no type-B uncertainties 2326002800036 contributions from the FCd = 1 and neutron 2326002800037 self-shielding effects is on average 2326002800038 2.5 % for foils, 2.6 % for compounds; 2326002800039 include contributions from : 2326002800040 - The combined uncertainty of 1.5 % for In-115 2326002800041 in the parameter OMEGACd . 2326002800042 - A combined type-B uncertainty from the comparator Qa 2326002800043 factor for channels S84 - 1.8 % . 2326002800044 - A combined type-B uncertainty of 1.2 % during 2326002800045 Qa -> Q0 conversion, due to the uncertainty on a and 2326002800046 an average 7 % uncertainty on the recommended effective2326002800047 resonance energy factor for the analyte, taken from 2326002800048 references. 2326002800049 ADD-RES Measured k0-values with one-sigma uncertainty: 2326002800050 E-gamma,keV k0, no-dim. 2326002800051 138.3 1.02E-3 (+-1.4%) 2326002800052 416.9 7.59E-1 (+-1.6%) 2326002800053 818.7 3.39E-1 (+-1.8%) 2326002800054 1097.3 1.60E+0 (+-1.4%) 2326002800055 1293.5 2.32E+0 (+-1.5%) 2326002800056 1507.4 2.70E-1 (+-1.4%) 2326002800057 2112.1 4.15E-1 (+-1.6%) 2326002800058 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326002800059 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326002800060 COMMENT Of compiler. DATA uncertainty in Table 5 of 2326002800061 J,JRN,302,655,2014 is 3.%. 2326002800062 ENDBIB 60 0 2326002800063 COMMON 2 3 2326002800064 EN-MIN-NM EN-MEAN-DN 2326002800065 EV EV 2326002800066 0.5 0.0253 2326002800067 ENDCOMMON 3 0 2326002800068 DATA 3 1 2326002800069 DATA DATA-ERR1 DATA-ERR2 2326002800070 NO-DIM PER-CENT PER-CENT 2326002800071 16.7 3. 2. 2326002800072 ENDDATA 3 0 2326002800073 ENDSUBENT 72 0 2326002899999 SUBENT 23260029 20151013 22452326002900001 BIB 10 55 2326002900002 REACTION 1((50-SN-112(N,G)50-SN-113-G,M+,RI)// 2326002900003 (50-SN-112(N,G)50-SN-113-G,M+,SIG)) 2326002900004 2((50-SN-112(N,G)50-SN-113-G,M+,RI)// 2326002900005 (50-SN-112(N,G)50-SN-113-G,M+,SIG)) 2326002900006 Q0 value (ratio of resonance integral to thermal 2326002900007 neutron activation cross-section) 2326002900008 SAMPLE Provider - IRMM 2326002900009 Average sample thickness h,mm - 0.1 2326002900010 Matrix - Foil, In alloy 2326002900011 - Elemental content, % weight - 84.6 2326002900012 - Elemental content, % weight - 94.85 2326002900013 DECAY-DATA (50-SN-113-G,115.1D,DG,255.1,0.0211) 2326002900014 (49-IN-113-M,99.48MIN,DG,391.7,0.6497) 2326002900015 METHOD Measurement at channels: 2326002900016 Y4 via Sn-113 2326002900017 X26 via Sn-113 2326002900018 Y4 via In-113-m 2326002900019 X26 via In-113-m 2326002900020 ANALYSIS The Q0(or s0) factors were determined by 2 different 2326002900021 approaches: 2326002900022 1- the classical method: from the mean (AVG) and 2326002900023 observed SD of the results from all channels employed, 2326002900024 when inputting the recommended Er value from 2326002900025 references - 107. eV (+-3%). 2326002900026 2- the a-vector method applied on up to 3 irradiation 2326002900027 channels: leading to simultaneous Q0 (or s0) and Er 2326002900028 determination. 2326002900029 MISC-COL (MISC) Effective resonance energy Er defined by 2326002900030 a-vector method. 2326002900031 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326002900032 Uncertainty in the Q0 determination for the simple 2326002900033 case of one determination in one irradiation channel 2326002900034 with one standard, given no type-B uncertainties 2326002900035 contributions from the factor Cd (F(Cd))=1 and neutron 2326002900036 self-shielding effects is on average 2326002900037 2.5 % for foils, 2.6 % for compounds; 2326002900038 include contributions from : 2326002900039 - The combined uncertainty of 1.1 % for foils and 1.2 %2326002900040 for liquids/compounds in the parameter OMEGACd . 2326002900041 - A combined type-B uncertainty from the comparator Qa 2326002900042 factor for channels X26 up to 2.1 %, Y4 - 1.9 % . 2326002900043 - A combined type-B uncertainty of 1.2 % during 2326002900044 Qa -> Q0 conversion, due to the uncertainty on a and 2326002900045 an average 7 % uncertainty on the recommended effective2326002900046 resonance energy factor for the analyte, taken from 2326002900047 references. 2326002900048 ADD-RES Measured k0-values with one-sigma uncertainty: 2326002900049 E-gamma,keV k0, no-dim. 2326002900050 255.1 1.95E-6 (+-1.2%) 2326002900051 391.7 5.99E-5 (+-1.2%) 2326002900052 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326002900053 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326002900054 1(DEP,23260030) Q0 measured at different channels. 2326002900055 HISTORY (20151013A) SD: SF4=Sn-113->Sn-113g, SF5=M+ (IT=91%) in2326002900056 REACTION code following N.Otsuka's remark. 2326002900057 ENDBIB 55 0 2326002900058 COMMON 2 3 2326002900059 EN-MIN-NM EN-MEAN-DN 2326002900060 EV EV 2326002900061 0.5 0.0253 2326002900062 ENDCOMMON 3 0 2326002900063 DATA 6 1 2326002900064 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326002900065 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326002900066 48.3 4. 45.2 4. 49.9 25. 2326002900067 ENDDATA 3 0 2326002900068 ENDSUBENT 67 0 2326002999999 SUBENT 23260030 20151013 22452326003000001 BIB 8 45 2326003000002 REACTION 1((50-SN-112(N,G)50-SN-113-G,M+,RI)// 2326003000003 (50-SN-112(N,G)50-SN-113-G,M+,SIG)) 2326003000004 2((50-SN-112(N,G)50-SN-113-G,M+,RI)// 2326003000005 (50-SN-112(N,G)50-SN-113-G,M+,SIG)) 2326003000006 3((50-SN-112(N,G)50-SN-113-G,M+,RI)// 2326003000007 (50-SN-112(N,G)50-SN-113-G,M+,SIG)) 2326003000008 4((50-SN-112(N,G)50-SN-113-G,M+,RI)// 2326003000009 (50-SN-112(N,G)50-SN-113-G,M+,SIG)) 2326003000010 Q0 value (ratio of resonance integral to thermal 2326003000011 neutron activation cross-section) 2326003000012 SAMPLE Provider - IRMM 2326003000013 Average sample thickness h,mm - 0.1 2326003000014 Matrix - Foil, In alloy 2326003000015 - Elemental content, % weight - 84.6 2326003000016 - Elemental content, % weight - 94.85 2326003000017 DECAY-DATA (50-SN-113-G,115.1D,DG,255.1,0.0211) 2326003000018 (49-IN-113-M,99.48MIN,DG,391.7,0.6497) 2326003000019 METHOD Measurement at channels: 2326003000020 1 Y4 via Sn-113 2326003000021 2 X26 via Sn-113 2326003000022 3 Y4 via In-113-m 2326003000023 4 X26 via In-113-m 2326003000024 ANALYSIS The Q0(or s0) factors were determined by inputting the 2326003000025 recommended Er value from references - 107. eV (+-3%). 2326003000026 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326003000027 Uncertainty in the Q0 determination for the simple 2326003000028 case of one determination in one irradiation channel 2326003000029 with one standard, given no type-B uncertainties 2326003000030 contributions from the FCd = 1 and neutron 2326003000031 self-shielding effects is on average 2326003000032 2.5 % for foils, 2.6 % for compounds; 2326003000033 include contributions from : 2326003000034 - The combined uncertainty of 1.1 % for foils and 1.2 %2326003000035 for liquids/compounds in the parameter OMEGACd . 2326003000036 - A combined type-B uncertainty from the comparator Qa 2326003000037 factor for channels X26 up to 2.1 %, Y4 - 1.9 % . 2326003000038 - A combined type-B uncertainty of 1.2 % during 2326003000039 Qa -> Q0 conversion, due to the uncertainty on a and 2326003000040 an average 7 % uncertainty on the recommended effective2326003000041 resonance energy factor for the analyte, taken from 2326003000042 references. 2326003000043 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326003000044 HISTORY (20151013A) SD: SF4=Sn-113->Sn-113g, SF5=M+ (IT=91%) in2326003000045 REACTION code following N.Otsuka's remark. STATUS 2326003000046 'COREL' deleted. 2326003000047 ENDBIB 45 0 2326003000048 COMMON 2 3 2326003000049 EN-MIN-NM EN-MEAN-DN 2326003000050 EV EV 2326003000051 0.5 0.0253 2326003000052 ENDCOMMON 3 0 2326003000053 DATA 8 1 2326003000054 DATA 1DATA-ERR 1DATA 2DATA-ERR 2DATA 3DATA-ERR 32326003000055 DATA 4DATA-ERR 4 2326003000056 NO-DIM PER-CENT NO-DIM PER-CENT NO-DIM PER-CENT 2326003000057 NO-DIM PER-CENT 2326003000058 47.6 2. 49.1 1. 55.8 3. 2326003000059 55.7 3. 2326003000060 ENDDATA 6 0 2326003000061 ENDSUBENT 60 0 2326003099999 SUBENT 23260031 20141210 22412326003100001 BIB 9 50 2326003100002 REACTION 1((50-SN-116(N,G)50-SN-117-M,,RI)// 2326003100003 (50-SN-116(N,G)50-SN-117-M,,SIG)) 2326003100004 2((50-SN-116(N,G)50-SN-117-M,,RI)// 2326003100005 (50-SN-116(N,G)50-SN-117-M,,SIG)) 2326003100006 Q0 value (ratio of resonance integral to thermal 2326003100007 neutron activation cross-section) 2326003100008 SAMPLE Provider - IRMM 2326003100009 Average sample thickness h,mm - 0.1 2326003100010 Matrix - Foil, In alloy 2326003100011 - Elemental content, % weight - 84.6 2326003100012 - Elemental content, % weight - 94.85 2326003100013 DECAY-DATA (50-SN-117-M,13.6D,DG,156.0,0.02113,DG,158.4,0.864) 2326003100014 METHOD Measurement at channels: 2326003100015 Y4 2326003100016 X26 2326003100017 ANALYSIS The Q0(or s0) factors were determined by 2 different 2326003100018 approaches: 2326003100019 1- the classical method: from the mean (AVG) and 2326003100020 observed SD of the results from all channels employed, 2326003100021 when inputting the recommended Er value from 2326003100022 references - 128. eV (+-3%). 2326003100023 2- the a-vector method applied on up to 3 irradiation 2326003100024 channels: leading to simultaneous Q0 (or s0) and Er 2326003100025 determination. 2326003100026 MISC-COL (MISC) Effective resonance energy Er defined by 2326003100027 a-vector method. 2326003100028 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326003100029 Uncertainty in the Q0 determination for for the simple 2326003100030 case of one determination in one irradiation channel 2326003100031 with one standard, given no type-B uncertainties 2326003100032 contributions from the FCd = 1 and neutron 2326003100033 self-shielding effects is on average 2326003100034 2.5 % for foils, 2.6 % for compounds; 2326003100035 include contributions from : 2326003100036 - The combined uncertainty of 1.1 % for foils and 1.2 %2326003100037 for liquids/compounds in the parameter OMEGACd . 2326003100038 - A combined type-B uncertainty from the comparator Qa 2326003100039 factor for channels X26 up to 2.1 %, Y4 - 1.9 % . 2326003100040 - A combined type-B uncertainty of 1.2 % during 2326003100041 Qa -> Q0 conversion, due to the uncertainty on a and 2326003100042 an average 7 % uncertainty on the recommended effective2326003100043 resonance energy factor for the analyte, taken from 2326003100044 references. 2326003100045 ADD-RES Measured k0-values with one-sigma uncertainty: 2326003100046 E-gamma,keV k0, no-dim. 2326003100047 156.0 3.33E-7 (+-1.2%) 2326003100048 158.4 1.36E-5 (+-1.2%) 2326003100049 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326003100050 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326003100051 1(DEP,23260033) Q0 measured at different channels. 2326003100052 ENDBIB 50 0 2326003100053 COMMON 2 3 2326003100054 EN-MIN-NM EN-MEAN-DN 2326003100055 EV EV 2326003100056 0.5 0.0253 2326003100057 ENDCOMMON 3 0 2326003100058 DATA 6 1 2326003100059 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326003100060 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326003100061 55.8 3. 55.9 3. 130. 25. 2326003100062 ENDDATA 3 0 2326003100063 ENDSUBENT 62 0 2326003199999 SUBENT 23260032 20141210 22412326003200001 BIB 7 36 2326003200002 REACTION 1((50-SN-116(N,G)50-SN-117-M,,RI)// 2326003200003 (50-SN-116(N,G)50-SN-117-M,,SIG)) 2326003200004 2((50-SN-116(N,G)50-SN-117-M,,RI)// 2326003200005 (50-SN-116(N,G)50-SN-117-M,,SIG)) 2326003200006 Q0 value (ratio of resonance integral to thermal 2326003200007 neutron activation cross-section) 2326003200008 SAMPLE Provider - IRMM 2326003200009 Average sample thickness h,mm - 0.1 2326003200010 Matrix - Foil, In alloy 2326003200011 - Elemental content, % weight - 84.6 2326003200012 - Elemental content, % weight - 94.85 2326003200013 DECAY-DATA (50-SN-117-M,13.6D,DG,156.0,0.02113,DG,158.4,0.864) 2326003200014 METHOD Measurement at channels: 2326003200015 1 Y4 2326003200016 2 X26 2326003200017 ANALYSIS The Q0(or s0) factors were determined by inputting the 2326003200018 recommended Er value from references - 128. eV (+-3%). 2326003200019 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326003200020 Uncertainty in the Q0 determination for for the simple 2326003200021 case of one determination in one irradiation channel 2326003200022 with one standard, given no type-B uncertainties 2326003200023 contributions from the FCd = 1 and neutron 2326003200024 self-shielding effects is on average 2326003200025 2.5 % for foils, 2.6 % for compounds; 2326003200026 include contributions from : 2326003200027 - The combined uncertainty of 1.1 % for foils and 1.2 %2326003200028 for liquids/compounds in the parameter OMEGACd . 2326003200029 - A combined type-B uncertainty from the comparator Qa 2326003200030 factor for channels X26 up to 2.1 %, Y4 - 1.9 % . 2326003200031 - A combined type-B uncertainty of 1.2 % during 2326003200032 Qa -> Q0 conversion, due to the uncertainty on a and 2326003200033 an average 7 % uncertainty on the recommended effective2326003200034 resonance energy factor for the analyte, taken from 2326003200035 references. 2326003200036 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326003200037 (COREL,23260032) Average Q0 . 2326003200038 ENDBIB 36 0 2326003200039 COMMON 2 3 2326003200040 EN-MIN-NM EN-MEAN-DN 2326003200041 EV EV 2326003200042 0.5 0.0253 2326003200043 ENDCOMMON 3 0 2326003200044 DATA 4 1 2326003200045 DATA 1DATA-ERR 1DATA 2DATA-ERR 2 2326003200046 NO-DIM PER-CENT NO-DIM PER-CENT 2326003200047 55.8 3. 55.7 3. 2326003200048 ENDDATA 3 0 2326003200049 ENDSUBENT 48 0 2326003299999 SUBENT 23260033 20141210 22412326003300001 BIB 9 65 2326003300002 REACTION 1((50-SN-124(N,G)50-SN-125,,RI)// 2326003300003 (50-SN-124(N,G)50-SN-125,,SIG)) 2326003300004 2((50-SN-124(N,G)50-SN-125,,RI)// 2326003300005 (50-SN-124(N,G)50-SN-125,,SIG)) 2326003300006 Q0 value (ratio of resonance integral to thermal 2326003300007 neutron activation cross-section) 2326003300008 SAMPLE Provider - IRMM 2326003300009 Average sample thickness h,mm - 0.1 2326003300010 Matrix - Foil, In alloy 2326003300011 - Elemental content, % weight - 84.6 2326003300012 - Elemental content, % weight - 94.85 2326003300013 DECAY-DATA (50-SN-125-G,9.64D,DG,822.4,0.043,DG,915.6,0.041, 2326003300014 DG,1067.1,0.0100,DG,1089.2,0.046) 2326003300015 (50-SN-125-M,9.52MIN,DG,331.9,0.973) 2326003300016 (51-SB-125,2.7586YR,DG,176.3,0.0684,DG,427.9,0.2960, 2326003300017 DG,463.4,0.1049,DG,600.5,0.1764,DG,606.6,0.498, 2326003300018 DG,635.9,0.1122) 2326003300019 METHOD Measurement at channels: 2326003300020 Y4 via Sn-125-g 2326003300021 X26 via Sn-125-g 2326003300022 Y4 via Sb-125 2326003300023 X26 via Sb-125 2326003300024 ANALYSIS The Q0(or s0) factors were determined by 2 different 2326003300025 approaches: 2326003300026 1- the classical method: from the mean (AVG) and 2326003300027 observed SD of the results from all channels employed, 2326003300028 when inputting the recommended Er value from 2326003300029 references - 74.2 eV (+-7%). 2326003300030 2- the a-vector method applied on up to 3 irradiation 2326003300031 channels: leading to simultaneous Q0 (or s0) and Er 2326003300032 determination. 2326003300033 MISC-COL (MISC) Effective resonance energy Er defined by 2326003300034 a-vector method. 2326003300035 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326003300036 Uncertainty in the Q0 determination for for the simple 2326003300037 case of one determination in one irradiation channel 2326003300038 with one standard, given no type-B uncertainties 2326003300039 contributions from the FCd = 1 and neutron 2326003300040 self-shielding effects is on average 2326003300041 2.5 % for foils, 2.6 % for compounds; 2326003300042 include contributions from : 2326003300043 - The combined uncertainty of 1.1 % for foils and 1.2 %2326003300044 for liquids/compounds in the parameter OMEGACd . 2326003300045 - A combined type-B uncertainty from the comparator Qa 2326003300046 factor for channels X26 up to 2.1 %, Y4 - 1.9 % . 2326003300047 - A combined type-B uncertainty of 1.2 % during 2326003300048 Qa -> Q0 conversion, due to the uncertainty on a and 2326003300049 an average 7 % uncertainty on the recommended effective2326003300050 resonance energy factor for the analyte, taken from 2326003300051 references. 2326003300052 ADD-RES Measured k0-values with one-sigma uncertainty: 2326003300053 E-gamma,keV k0, no-dim. 2326003300054 822.5 2.08E-7 (+-1.4%) 2326003300055 915.6 1.88E-7 (+-1.4%) 2326003300056 1067.1 4.64E-7 (+-1.2%) 2326003300057 1089.2 2.50E-7 (+-1.3%) 2326003300058 176.3 3.19E-7 (+-1.2%) 2326003300059 427.9 1.40E-6 (+-1.8%) 2326003300060 463.4 4.95E-7 (+-1.5%) 2326003300061 600.5 8.28E-7 (+-1.3%) 2326003300062 606.6 2.32E-7 (+-1.2%) 2326003300063 635.9 5.31E-7 (+-1.7%) 2326003300064 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326003300065 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326003300066 1(DEP,23260035) Q0 measured at different channels. 2326003300067 ENDBIB 65 0 2326003300068 COMMON 2 3 2326003300069 EN-MIN-NM EN-MEAN-DN 2326003300070 EV EV 2326003300071 0.5 0.0253 2326003300072 ENDCOMMON 3 0 2326003300073 DATA 6 1 2326003300074 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326003300075 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326003300076 34.7 2. 35.0 3. 14.6 4. 2326003300077 ENDDATA 3 0 2326003300078 ENDSUBENT 77 0 2326003399999 SUBENT 23260034 20141210 22412326003400001 BIB 7 47 2326003400002 REACTION 1((50-SN-124(N,G)50-SN-125,,RI)// 2326003400003 (50-SN-124(N,G)50-SN-125,,SIG)) 2326003400004 2((50-SN-124(N,G)50-SN-125,,RI)// 2326003400005 (50-SN-124(N,G)50-SN-125,,SIG)) 2326003400006 3((50-SN-124(N,G)50-SN-125,,RI)// 2326003400007 (50-SN-124(N,G)50-SN-125,,SIG)) 2326003400008 4((50-SN-124(N,G)50-SN-125,,RI)// 2326003400009 (50-SN-124(N,G)50-SN-125,,SIG)) 2326003400010 Q0 value (ratio of resonance integral to thermal 2326003400011 neutron activation cross-section) 2326003400012 SAMPLE Provider - IRMM 2326003400013 Average sample thickness h,mm - 0.1 2326003400014 Matrix - Foil, In alloy 2326003400015 - Elemental content, % weight - 84.6 2326003400016 - Elemental content, % weight - 94.85 2326003400017 DECAY-DATA (50-SN-125-G,9.64D,DG,822.4,0.043,DG,915.6,0.041, 2326003400018 DG,1067.1,0.0100,DG,1089.2,0.046) 2326003400019 (50-SN-125-M,9.52MIN,DG,331.9,0.973) 2326003400020 (51-SB-125,2.7586YR,DG,176.3,0.0684,DG,427.9,0.2960, 2326003400021 DG,463.4,0.1049,DG,600.5,0.1764,DG,606.6,0.498, 2326003400022 DG,635.9,0.1122) 2326003400023 METHOD Measurement at channels: 2326003400024 1 Y4 via Sn-125-g 2326003400025 2 X26 via Sn-125-g 2326003400026 3 Y4 via Sb-125 2326003400027 4 X26 via Sb-125 2326003400028 ANALYSIS The Q0(or s0) factors were determined by inputting the 2326003400029 recommended Er value from references - 74.2 eV (+-7%). 2326003400030 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326003400031 Uncertainty in the Q0 determination for for the simple 2326003400032 case of one determination in one irradiation channel 2326003400033 with one standard, given no type-B uncertainties 2326003400034 contributions from the FCd = 1 and neutron 2326003400035 self-shielding effects is on average 2326003400036 2.5 % for foils, 2.6 % for compounds; 2326003400037 include contributions from : 2326003400038 - The combined uncertainty of 1.1 % for foils and 1.2 %2326003400039 for liquids/compounds in the parameter OMEGACd . 2326003400040 - A combined type-B uncertainty from the comparator Qa 2326003400041 factor for channels X26 up to 2.1 %, Y4 - 1.9 % . 2326003400042 - A combined type-B uncertainty of 1.2 % during 2326003400043 Qa -> Q0 conversion, due to the uncertainty on a and 2326003400044 an average 7 % uncertainty on the recommended effective2326003400045 resonance energy factor for the analyte, taken from 2326003400046 references. 2326003400047 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326003400048 (COREL,23260034) Average Q0. 2326003400049 ENDBIB 47 0 2326003400050 COMMON 2 3 2326003400051 EN-MIN-NM EN-MEAN-DN 2326003400052 EV EV 2326003400053 0.5 0.0253 2326003400054 ENDCOMMON 3 0 2326003400055 DATA 8 1 2326003400056 DATA 1DATA-ERR 1DATA 2DATA-ERR 2DATA 3DATA-ERR 32326003400057 DATA 4DATA-ERR 4 2326003400058 NO-DIM PER-CENT NO-DIM PER-CENT NO-DIM PER-CENT 2326003400059 NO-DIM PER-CENT 2326003400060 16.7 4. 16.3 3. 16.3 2. 2326003400061 17.1 1. 2326003400062 ENDDATA 6 0 2326003400063 ENDSUBENT 62 0 2326003499999 SUBENT 23260035 20141210 22412326003500001 BIB 10 56 2326003500002 REACTION 1((51-SB-121(N,G)51-SB-122,,RI)// 2326003500003 (51-SB-121(N,G)51-SB-122,,SIG)) 2326003500004 2((51-SB-121(N,G)51-SB-122,,RI)// 2326003500005 (51-SB-121(N,G)51-SB-122,,SIG)) 2326003500006 Q0 value (ratio of resonance integral to thermal 2326003500007 neutron activation cross-section) 2326003500008 SAMPLE Provider - IRMM 2326003500009 Matrix - Foil, Al alloy 2326003500010 Elemental content, % weight - 1. 2326003500011 Average sample thickness h,mm - 0.1 2326003500012 DECAY-DATA (51-SB-122-G,2.724D,DG,564.2,0.7067,DG,692.7,0.0385) 2326003500013 REL-REF (R,,F.De Corte,T,DE CORTE,1987) 2326003500014 The k0-standardization method: a move to the 2326003500015 optimization of neutron activation analysis. 2326003500016 Ph.D. Thesis. Gent Universiteit, Belgium. 2326003500017 METHOD Measurement at channels: 2326003500018 S84 2326003500019 Y4 2326003500020 X26 2326003500021 ANALYSIS FCd=0.99 value adopted from REL-REF of F.De Corte. 2326003500022 The Q0(or s0) factors were determined by 2 different 2326003500023 approaches: 2326003500024 1- the classical method: from the mean (AVG) and 2326003500025 observed SD of the results from all channels employed, 2326003500026 when inputting the recommended Er value from 2326003500027 references - 13.1 eV (+-7%). 2326003500028 2- the a-vector method applied on up to 3 irradiation 2326003500029 channels: leading to simultaneous Q0 (or s0) and Er 2326003500030 determination. 2326003500031 MISC-COL (MISC) Effective resonance energy Er defined by 2326003500032 a-vector method. 2326003500033 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326003500034 Uncertainty in the Q0 determination for for the simple 2326003500035 case of one determination in one irradiation channel 2326003500036 with one standard, given no type-B uncertainties 2326003500037 contributions from the FCd = 1 and neutron 2326003500038 self-shielding effects is on average 2326003500039 2.5 % for foils, 2.6 % for compounds; 2326003500040 include contributions from : 2326003500041 - The combined uncertainty of 1.2 % for foils and 1.2 %2326003500042 for liquids/compounds in the parameter OMEGACd . 2326003500043 - A combined type-B uncertainty from the comparator Qa 2326003500044 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326003500045 S84 - 1.8 % . 2326003500046 - A combined type-B uncertainty of 1.2 % during 2326003500047 Qa -> Q0 conversion, due to the uncertainty on a and 2326003500048 an average 7 % uncertainty on the recommended effective2326003500049 resonance energy factor for the analyte, taken from 2326003500050 references. 2326003500051 ADD-RES Measured k0-values with one-sigma uncertainty: 2326003500052 E-gamma,keV k0, no-dim. 2326003500053 564.2 4.00E-2 (+-2.0%) 2326003500054 692.7 2.18E-3 (+-2.0%) 2326003500055 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326003500056 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326003500057 1(DEP,23260037) Q0 measured at different channels. 2326003500058 ENDBIB 56 0 2326003500059 COMMON 2 3 2326003500060 EN-MIN-NM EN-MEAN-DN 2326003500061 EV EV 2326003500062 0.5 0.0253 2326003500063 ENDCOMMON 3 0 2326003500064 DATA 6 1 2326003500065 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326003500066 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326003500067 34.7 2. 35.0 3. 14.6 4. 2326003500068 ENDDATA 3 0 2326003500069 ENDSUBENT 68 0 2326003599999 SUBENT 23260036 20141210 22412326003600001 BIB 7 39 2326003600002 REACTION 1((51-SB-121(N,G)51-SB-122,,RI)// 2326003600003 (51-SB-121(N,G)51-SB-122,,SIG)) 2326003600004 2((51-SB-121(N,G)51-SB-122,,RI)// 2326003600005 (51-SB-121(N,G)51-SB-122,,SIG)) 2326003600006 3((51-SB-121(N,G)51-SB-122,,RI)// 2326003600007 (51-SB-121(N,G)51-SB-122,,SIG)) 2326003600008 Q0 value (ratio of resonance integral to thermal 2326003600009 neutron activation cross-section) 2326003600010 SAMPLE Provider - IRMM 2326003600011 Matrix - Foil, Al alloy 2326003600012 Elemental content, % weight - 1. 2326003600013 Average sample thickness h,mm - 0.1 2326003600014 DECAY-DATA (51-SB-122-G,2.724D,DG,564.2,0.7067,DG,692.7,0.0385) 2326003600015 METHOD Measurement at channels: 2326003600016 1 S84 2326003600017 2 Y4 2326003600018 3 X26 2326003600019 ANALYSIS The Q0(or s0) factors were determined by inputting the 2326003600020 recommended Er value from references - 13.1 eV (+-7%). 2326003600021 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326003600022 Uncertainty in the Q0 determination for for the simple 2326003600023 case of one determination in one irradiation channel 2326003600024 with one standard, given no type-B uncertainties 2326003600025 contributions from the FCd = 1 and neutron 2326003600026 self-shielding effects is on average 2326003600027 2.5 % for foils, 2.6 % for compounds; 2326003600028 include contributions from : 2326003600029 - The combined uncertainty of 1.2 % for foils and 1.2 %2326003600030 for liquids/compounds in the parameter OMEGACd . 2326003600031 - A combined type-B uncertainty from the comparator Qa 2326003600032 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326003600033 S84 - 1.8 % . 2326003600034 - A combined type-B uncertainty of 1.2 % during 2326003600035 Qa -> Q0 conversion, due to the uncertainty on a and 2326003600036 an average 7 % uncertainty on the recommended effective2326003600037 resonance energy factor for the analyte, taken from 2326003600038 references. 2326003600039 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326003600040 (COREL,23260037) Average Q0. 2326003600041 ENDBIB 39 0 2326003600042 COMMON 2 3 2326003600043 EN-MIN-NM EN-MEAN-DN 2326003600044 EV EV 2326003600045 0.5 0.0253 2326003600046 ENDCOMMON 3 0 2326003600047 DATA 6 1 2326003600048 DATA 1DATA-ERR 1DATA 2DATA-ERR 2DATA 3DATA-ERR 32326003600049 NO-DIM PER-CENT NO-DIM PER-CENT NO-DIM PER-CENT 2326003600050 34.8 2. 34.9 1. 34.3 1. 2326003600051 ENDDATA 3 0 2326003600052 ENDSUBENT 51 0 2326003699999 SUBENT 23260037 20151013 22452326003700001 BIB 10 67 2326003700002 REACTION 1((51-SB-123(N,G)51-SB-124-G,M+,RI)// 2326003700003 (51-SB-123(N,G)51-SB-124-G,M+,SIG)) 2326003700004 2((51-SB-123(N,G)51-SB-124-G,M+,RI)// 2326003700005 (51-SB-123(N,G)51-SB-124-G,M+,SIG)) 2326003700006 Q0 value (ratio of resonance integral to thermal 2326003700007 neutron activation cross-section) 2326003700008 SAMPLE Provider - IRMM 2326003700009 Matrix - Foil, Al alloy 2326003700010 Elemental content, % weight - 1. 2326003700011 Average sample thickness h,mm - 0.1 2326003700012 DECAY-DATA (51-SB-124-G,60.2D,DG,602.7,0.978,DG,645.9,0.0742, 2326003700013 DG,709.3,0.01353,DG,713.8,0.02276,DG,722.8,0.1076, 2326003700014 DG,968.2,0.01882,DG,1045.1,0.01833,DG,1325.5,0.0158, 2326003700015 DG,1368.2,0.02624,DG,1436.6,0.1217,DG,1691.0,0.4757, 2326003700016 DG,2090.9,0.0549) 2326003700017 METHOD Measurement at channels: 2326003700018 S84 2326003700019 Y4 2326003700020 X26 2326003700021 ANALYSIS The Q0(or s0) factors were determined by 2 different 2326003700022 approaches: 2326003700023 1- the classical method: from the mean (AVG) and 2326003700024 observed SD of the results from all channels employed, 2326003700025 when inputting the recommended Er value from 2326003700026 references - 28.2 eV (+-7%). 2326003700027 2- the a-vector method applied on up to 3 irradiation 2326003700028 channels: leading to simultaneous Q0 (or s0) and Er 2326003700029 determination. 2326003700030 MISC-COL (MISC) Effective resonance energy Er defined by 2326003700031 a-vector method. 2326003700032 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326003700033 Uncertainty in the Q0 determination for the simple 2326003700034 case of one determination in one irradiation channel 2326003700035 with one standard, given no type-B uncertainties 2326003700036 contributions from the FCd = 1 and neutron 2326003700037 self-shielding effects is on average 2326003700038 2.5 % for foils, 2.6 % for compounds; 2326003700039 include contributions from : 2326003700040 - The combined uncertainty of 1.1 % for foils and 1.2 %2326003700041 for liquids/compounds in the parameter OMEGACd . 2326003700042 - A combined type-B uncertainty from the comparator Qa 2326003700043 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326003700044 S84 - 1.8 % . 2326003700045 - A combined type-B uncertainty of 1.2 % during 2326003700046 Qa -> Q0 conversion, due to the uncertainty on a and 2326003700047 an average 7 % uncertainty on the recommended effective2326003700048 resonance energy factor for the analyte, taken from 2326003700049 references. 2326003700050 ADD-RES Measured k0-values with one-sigma uncertainty: 2326003700051 E-gamma,keV k0, no-dim. 2326003700052 602.7 2.80E-2 (+-1.8%) 2326003700053 645.9 2.11E-3 (+-1.8%) 2326003700054 709.3 3.87E-4 (+-1.7%) 2326003700055 713.8 6.47E-4 (+-2.0%) 2326003700056 722.8 3.08E-3 (+-1.7%) 2326003700057 968.2 5.43E-4 (+-1.8%) 2326003700058 1045.1 5.22E-4 (+-2.0%) 2326003700059 1325.5 4.46E-4 (+-1.8%) 2326003700060 1368.2 7.50E-4 (+-1.8%) 2326003700061 1436.6 3.48E-4 (+-3.2%) 2326003700062 1691.0 1.38E-2 (+-1.8%) 2326003700063 2090.9 1.58E-3 (+-1.8%) 2326003700064 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326003700065 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326003700066 1(DEP,23260038) Q0 measured at different channels. 2326003700067 HISTORY (20151013A) SD: SF4=Sb-124->Sb-124g, SF5=M+ (IT=75%) in2326003700068 REACTION code following N.Otsuka's remark. 2326003700069 ENDBIB 67 0 2326003700070 COMMON 2 3 2326003700071 EN-MIN-NM EN-MEAN-DN 2326003700072 EV EV 2326003700073 0.5 0.0253 2326003700074 ENDCOMMON 3 0 2326003700075 DATA 6 1 2326003700076 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326003700077 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326003700078 30.5 2. 31.0 3. 32.4 5. 2326003700079 ENDDATA 3 0 2326003700080 ENDSUBENT 79 0 2326003799999 SUBENT 23260038 20151013 22452326003800001 BIB 8 45 2326003800002 REACTION 1((51-SB-123(N,G)51-SB-124-G,M+,RI)// 2326003800003 (51-SB-123(N,G)51-SB-124-G,M+,SIG)) 2326003800004 2((51-SB-123(N,G)51-SB-124-G,M+,RI)// 2326003800005 (51-SB-123(N,G)51-SB-124-G,M+,SIG)) 2326003800006 3((51-SB-123(N,G)51-SB-124-G,M+,RI)// 2326003800007 (51-SB-123(N,G)51-SB-124-G,M+,SIG)) 2326003800008 Q0 value (ratio of resonance integral to thermal 2326003800009 neutron activation cross-section) 2326003800010 SAMPLE Provider - IRMM 2326003800011 Matrix - Foil, Al alloy 2326003800012 Elemental content, % weight - 1. 2326003800013 Average sample thickness h,mm - 0.1 2326003800014 DECAY-DATA (51-SB-124-G,60.2D,DG,602.7,0.978,DG,645.9,0.0742, 2326003800015 DG,709.3,0.01353,DG,713.8,0.02276,DG,722.8,0.1076, 2326003800016 DG,968.2,0.01882,DG,1045.1,0.01833,DG,1325.5,0.0158, 2326003800017 DG,1368.2,0.02624,DG,1436.6,0.1217,DG,1691.0,0.4757, 2326003800018 DG,2090.9,0.0549) 2326003800019 METHOD Measurement at channels: 2326003800020 1 S84 2326003800021 2 Y4 2326003800022 3 X26 2326003800023 ANALYSIS The Q0(or s0) factors were determined by inputting the 2326003800024 recommended Er value from references - 28.2 eV (+-7%). 2326003800025 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326003800026 Uncertainty in the Q0 determination for the simple 2326003800027 case of one determination in one irradiation channel 2326003800028 with one standard, given no type-B uncertainties 2326003800029 contributions from the FCd = 1 and neutron 2326003800030 self-shielding effects is on average 2326003800031 2.5 % for foils, 2.6 % for compounds; 2326003800032 include contributions from : 2326003800033 - The combined uncertainty of 1.1 % for foils and 1.2 %2326003800034 for liquids/compounds in the parameter OMEGACd . 2326003800035 - A combined type-B uncertainty from the comparator Qa 2326003800036 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326003800037 S84 - 1.8 % . 2326003800038 - A combined type-B uncertainty of 1.2 % during 2326003800039 Qa -> Q0 conversion, due to the uncertainty on a and 2326003800040 an average 7 % uncertainty on the recommended effective2326003800041 resonance energy factor for the analyte, taken from 2326003800042 references. 2326003800043 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326003800044 HISTORY (20151013A) SD: SF4=Sb-124->Sb-124g, SF5=M+ (IT=75%) in2326003800045 REACTION code following N.Otsuka's remark. STATUS 2326003800046 'COREL' deleted. 2326003800047 ENDBIB 45 0 2326003800048 COMMON 2 3 2326003800049 EN-MIN-NM EN-MEAN-DN 2326003800050 EV EV 2326003800051 0.5 0.0253 2326003800052 ENDCOMMON 3 0 2326003800053 DATA 6 1 2326003800054 DATA 1DATA-ERR 1DATA 2DATA-ERR 2DATA 3DATA-ERR 32326003800055 NO-DIM PER-CENT NO-DIM PER-CENT NO-DIM PER-CENT 2326003800056 30.8 2. 30.8 1. 30.2 1. 2326003800057 ENDDATA 3 0 2326003800058 ENDSUBENT 57 0 2326003899999 SUBENT 23260039 20141210 22412326003900001 BIB 10 52 2326003900002 REACTION 1((56-BA-134(N,G)56-BA-135-M,,RI)// 2326003900003 (56-BA-134(N,G)56-BA-135-M,,SIG)) 2326003900004 2((56-BA-134(N,G)56-BA-135-M,,RI)// 2326003900005 (56-BA-134(N,G)56-BA-135-M,,SIG)) 2326003900006 Q0 value (ratio of resonance integral to thermal 2326003900007 neutron activation cross-section) 2326003900008 SAMPLE Provider - Sigma-Aldrich 2326003900009 Matrix - BaO 2326003900010 Elemental content, % weight - 89.565 2326003900011 Average sample thickness h,mm - 0.15 2326003900012 DECAY-DATA (56-BA-135-M,28.7HR,DG,268.3,0.160) 2326003900013 METHOD Measurement at channels: 2326003900014 S84 2326003900015 Y4 2326003900016 X26 2326003900017 ANALYSIS The Q0(or s0) factors were determined by 2326003900018 approaches: 2326003900019 1- the classical method: from the mean (AVG) and 2326003900020 observed SD of the results from all channels employed, 2326003900021 when inputting the recommended Er value from 2326003900022 references - 115. eV . 2326003900023 2- the a-vector method applied on up to 3 irradiation 2326003900024 channels: leading to simultaneous Q0 (or s0) and Er 2326003900025 determination. 2326003900026 MISC-COL (MISC) Effective resonance energy Er defined by 2326003900027 a-vector method. 2326003900028 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326003900029 Uncertainty in the Q0 determination for for the simple 2326003900030 case of one determination in one irradiation channel 2326003900031 with one standard, given no type-B uncertainties 2326003900032 contributions from the FCd = 1 and neutron 2326003900033 self-shielding effects is on average 2326003900034 2.6 % for compounds; 2326003900035 include contributions from : 2326003900036 - The combined uncertainty of 1.2 % 2326003900037 for liquids/compounds in the parameter OMEGACd . 2326003900038 - A combined type-B uncertainty from the comparator Qa 2326003900039 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326003900040 S84 - 1.8 % . 2326003900041 - A combined type-B uncertainty of 1.2 % during 2326003900042 Qa -> Q0 conversion, due to the uncertainty on a and 2326003900043 an average 7 % uncertainty on the recommended effective2326003900044 resonance energy factor for the analyte, taken from 2326003900045 references. 2326003900046 ADD-RES Measured k0-values with one-sigma uncertainty: 2326003900047 E-gamma,keV k0, no-dim. 2326003900048 268.3 3.21E-6 (+-3.3%) 2326003900049 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326003900050 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326003900051 1(DEP,23260041) Q0 measured at different channels. 2326003900052 COMMENT Of compiler. DATA 1 uncertainty in Table 5 of 2326003900053 J,JRN,302,655,2014 is 23.%. 2326003900054 ENDBIB 52 0 2326003900055 COMMON 2 3 2326003900056 EN-MIN-NM EN-MEAN-DN 2326003900057 EV EV 2326003900058 0.5 0.0253 2326003900059 ENDCOMMON 3 0 2326003900060 DATA 6 1 2326003900061 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326003900062 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326003900063 43.5 12. 52.4 3. 5503. 20. 2326003900064 ENDDATA 3 0 2326003900065 ENDSUBENT 64 0 2326003999999 SUBENT 23260040 20141210 22412326004000001 BIB 7 39 2326004000002 REACTION 1((56-BA-134(N,G)56-BA-135-M,,RI)// 2326004000003 (56-BA-134(N,G)56-BA-135-M,,SIG)) 2326004000004 2((56-BA-134(N,G)56-BA-135-M,,RI)// 2326004000005 (56-BA-134(N,G)56-BA-135-M,,SIG)) 2326004000006 3((56-BA-134(N,G)56-BA-135-M,,RI)// 2326004000007 (56-BA-134(N,G)56-BA-135-M,,SIG)) 2326004000008 Q0 value (ratio of resonance integral to thermal 2326004000009 neutron activation cross-section) 2326004000010 SAMPLE Provider - Sigma-Aldrich 2326004000011 Matrix - BaO 2326004000012 Elemental content, % weight - 89.565 2326004000013 Average sample thickness h,mm - 0.15 2326004000014 DECAY-DATA (56-BA-135-M,28.7HR,DG,268.3,0.160) 2326004000015 METHOD Measurement at channels: 2326004000016 1 S84 2326004000017 2 Y4 2326004000018 3 X26 2326004000019 ANALYSIS The Q0(or s0) factors were determined by inputting the 2326004000020 recommended Er value from references - 115. eV . 2326004000021 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326004000022 Uncertainty in the Q0 determination for for the simple 2326004000023 case of one determination in one irradiation channel 2326004000024 with one standard, given no type-B uncertainties 2326004000025 contributions from the FCd = 1 and neutron 2326004000026 self-shielding effects is on average 2326004000027 2.6 % for compounds; 2326004000028 include contributions from : 2326004000029 - The combined uncertainty of 1.2 % 2326004000030 for liquids/compounds in the parameter OMEGACd . 2326004000031 - A combined type-B uncertainty from the comparator Qa 2326004000032 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326004000033 S84 - 1.8 % . 2326004000034 - A combined type-B uncertainty of 1.2 % during 2326004000035 Qa -> Q0 conversion, due to the uncertainty on a and 2326004000036 an average 7 % uncertainty on the recommended effective2326004000037 resonance energy factor for the analyte, taken from 2326004000038 references. 2326004000039 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326004000040 (COREL,23260040) Average Q0 . 2326004000041 ENDBIB 39 0 2326004000042 COMMON 2 3 2326004000043 EN-MIN-NM EN-MEAN-DN 2326004000044 EV EV 2326004000045 0.5 0.0253 2326004000046 ENDCOMMON 3 0 2326004000047 DATA 6 1 2326004000048 DATA 1DATA-ERR 1DATA 2DATA-ERR 2DATA 3DATA-ERR 32326004000049 NO-DIM PER-CENT NO-DIM PER-CENT NO-DIM PER-CENT 2326004000050 54.7 2. 39.9 1. 36.0 1. 2326004000051 ENDDATA 3 0 2326004000052 ENDSUBENT 51 0 2326004099999 SUBENT 23260041 20141210 22412326004100001 BIB 9 38 2326004100002 REACTION ((64-GD-152(N,G)64-GD-153,,RI)// 2326004100003 (64-GD-152(N,G)64-GD-153,,SIG)) 2326004100004 Q0 value (ratio of resonance integral to thermal 2326004100005 neutron activation cross-section) 2326004100006 SAMPLE Provider - IRMM 2326004100007 Matrix - Disk, Al alloy 2326004100008 Elemental content, % weight - 0.03 2326004100009 Average sample thickness h,mm - 1.6 2326004100010 DECAY-DATA (64-GD-153,240.4D,DG,97.4,0.290,DG,103.2,0.211) 2326004100011 METHOD Measurement at Y4 channel. 2326004100012 ANALYSIS The Q0 factors were determined by inputting the 2326004100013 recommended Er value from references - 16.7 eV (+-9.%).2326004100014 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326004100015 Uncertainty in the Q0 determination for for the simple 2326004100016 case of one determination in one irradiation channel 2326004100017 with one standard, given no type-B uncertainties 2326004100018 contributions from the FCd = 1 and neutron 2326004100019 self-shielding effects is on average 2326004100020 2.6 % for compounds; 2326004100021 include contributions from : 2326004100022 - The combined uncertainty of 1.2 % 2326004100023 for liquids/compounds in the parameter OMEGACd . 2326004100024 - A combined type-B uncertainty from the comparator Qa 2326004100025 factor for channel Y4 - 1.9 % . 2326004100026 - A combined type-B uncertainty of 1.2 % during 2326004100027 Qa -> Q0 conversion, due to the uncertainty on a and 2326004100028 an average 7 % uncertainty on the recommended effective2326004100029 resonance energy factor for the analyte, taken from 2326004100030 references. 2326004100031 ADD-RES Measured k0-values with one-sigma uncertainty: 2326004100032 E-gamma,keV k0, no-dim. 2326004100033 97.4 5.94E-3 (+-1.8%) 2326004100034 103.2 4.34E-3 (+-1.9%) 2326004100035 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326004100036 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326004100037 COMMENT Of compiler. In Table 2 of J,JRN,302,655,2014 2326004100038 in Matrix column - alloy is marked by '*', but not 2326004100039 by 'a' as in Table 1. 2326004100040 ENDBIB 38 0 2326004100041 COMMON 2 3 2326004100042 EN-MIN-NM EN-MEAN-DN 2326004100043 EV EV 2326004100044 0.5 0.0253 2326004100045 ENDCOMMON 3 0 2326004100046 DATA 2 1 2326004100047 DATA DATA-ERR 2326004100048 NO-DIM PER-CENT 2326004100049 0.56 5. 2326004100050 ENDDATA 3 0 2326004100051 ENDSUBENT 50 0 2326004199999 SUBENT 23260042 20141210 22412326004200001 BIB 9 37 2326004200002 REACTION ((64-GD-158(N,G)64-GD-159,,RI)// 2326004200003 (64-GD-158(N,G)64-GD-159,,SIG)) 2326004200004 Q0 value (ratio of resonance integral to thermal 2326004200005 neutron activation cross-section) 2326004200006 SAMPLE Provider - IRMM 2326004200007 Matrix - Disk, Al alloy 2326004200008 Elemental content, % weight - 0.03 2326004200009 Average sample thickness h,mm - 1.6 2326004200010 DECAY-DATA (64-GD-159,18.56HR,DG,363.5,0.1178) 2326004200011 METHOD Measurement at Y4 channel. 2326004200012 ANALYSIS The Q0 factors were determined by inputting the 2326004200013 recommended Er value from references - 48.2 eV (+-8.%).2326004200014 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326004200015 Uncertainty in the Q0 determination for for the simple 2326004200016 case of one determination in one irradiation channel 2326004200017 with one standard, given no type-B uncertainties 2326004200018 contributions from the FCd = 1 and neutron 2326004200019 self-shielding effects is on average 2326004200020 2.6 % for compounds; 2326004200021 include contributions from : 2326004200022 - The combined uncertainty of 1.2 % 2326004200023 for liquids/compounds in the parameter OMEGACd . 2326004200024 - A combined type-B uncertainty from the comparator Qa 2326004200025 factor for channel Y4 - 1.9 % . 2326004200026 - A combined type-B uncertainty of 1.2 % during 2326004200027 Qa -> Q0 conversion, due to the uncertainty on a and 2326004200028 an average 7 % uncertainty on the recommended effective2326004200029 resonance energy factor for the analyte, taken from 2326004200030 references. 2326004200031 ADD-RES Measured k0-values with one-sigma uncertainty: 2326004200032 E-gamma,keV k0, no-dim. 2326004200033 363.5 8.63E-4 (+-1.8%) 2326004200034 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326004200035 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326004200036 COMMENT Of compiler. In Table 2 of J,JRN,302,655,2014 2326004200037 in Matrix column - alloy is marked by '*', but not 2326004200038 by 'a' as in Table 1. 2326004200039 ENDBIB 37 0 2326004200040 COMMON 2 3 2326004200041 EN-MIN-NM EN-MEAN-DN 2326004200042 EV EV 2326004200043 0.5 0.0253 2326004200044 ENDCOMMON 3 0 2326004200045 DATA 2 1 2326004200046 DATA DATA-ERR 2326004200047 NO-DIM PER-CENT 2326004200048 31.2 5. 2326004200049 ENDDATA 3 0 2326004200050 ENDSUBENT 49 0 2326004299999 SUBENT 23260043 20141210 22412326004300001 BIB 10 61 2326004300002 REACTION 1((66-DY-164(N,G)66-DY-165,,RI)// 2326004300003 (66-DY-164(N,G)66-DY-165,,SIG)) 2326004300004 2((66-DY-164(N,G)66-DY-165,,RI)// 2326004300005 (66-DY-164(N,G)66-DY-165,,SIG)) 2326004300006 Q0 value (ratio of resonance integral to thermal 2326004300007 neutron activation cross-section) 2326004300008 SAMPLE Provider - IRMM 2326004300009 Matrix - Foil, Al alloy 2326004300010 Average sample thickness h,mm - 0.1 2326004300011 - Elemental content, % weight - 27. 2326004300012 - Elemental content, % weight - 5. 2326004300013 - Elemental content, % weight - 0.127 2326004300014 DECAY-DATA (66-DY-165-G,2.334HR,DG,94.7,0.0380,DG,279.8,0.0053, 2326004300015 DG,361.7,0.0090,DG,633.4,0.0061,DG,715.3,0.0058) 2326004300016 METHOD Measurement at channels: 2326004300017 S84 2326004300018 X26 2326004300019 ANALYSIS The Q0(or s0) factors were determined by 2326004300020 approaches: 2326004300021 1- the classical method: from the mean (AVG) and 2326004300022 observed SD of the results from all channels employed, 2326004300023 when inputting the recommended Er value from 2326004300024 references - 224. eV (+-5.%) . 2326004300025 2- the a-vector method applied on up to 3 irradiation 2326004300026 channels: leading to simultaneous Q0 (or s0) and Er 2326004300027 determination. 2326004300028 MISC-COL (MISC) Effective resonance energy Er defined by 2326004300029 a-vector method. 2326004300030 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326004300031 Uncertainty in the Q0 determination for for the simple 2326004300032 case of one determination in one irradiation channel 2326004300033 with one standard, given no type-B uncertainties 2326004300034 contributions from the FCd = 1 and neutron 2326004300035 self-shielding effects is on average 2326004300036 2.5 % for foils, 2.6 % for compounds; 2326004300037 include contributions from : 2326004300038 - The combined uncertainty of 1.1 % for foils and 1.2 %2326004300039 for liquids/compounds in the parameter OMEGACd . 2326004300040 - A combined type-B uncertainty from the comparator Qa 2326004300041 factor for channels X26 up to 2.1 %, S84 - 1.8 % . 2326004300042 - A combined type-B uncertainty of 1.2 % during 2326004300043 Qa -> Q0 conversion, due to the uncertainty on a and 2326004300044 an average 7 % uncertainty on the recommended effective2326004300045 resonance energy factor for the analyte, taken from 2326004300046 references. 2326004300047 ADD-RES Measured k0-values with one-sigma uncertainty: 2326004300048 E-gamma,keV k0, no-dim. 2326004300049 94.7 3.62E-1 (+-1.1%) 2326004300050 279.8 5.13E-2 (+-1.2%) 2326004300051 361.7 8.66E-2 (+-1.0%) 2326004300052 633.4 5.79E-2 (+-1.1%) 2326004300053 715.3 5.43E-2 (+-1.3%) 2326004300054 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326004300055 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326004300056 1(DEP,23260047) Q0 measured at different channels. 2326004300057 COMMENT Of compiler. 2326004300058 - DATA 1 uncertainty in Table 5 of 2326004300059 J,JRN,302,655,2014 is 21.% ( misprint ?). 2326004300060 - In Table 2 of J,JRN,302,655,2014 2326004300061 in Matrix column - alloy is marked by '*', but not 2326004300062 by 'a' as in Table 1. 2326004300063 ENDBIB 61 0 2326004300064 COMMON 2 3 2326004300065 EN-MIN-NM EN-MEAN-DN 2326004300066 EV EV 2326004300067 0.5 0.0253 2326004300068 ENDCOMMON 3 0 2326004300069 DATA 6 1 2326004300070 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326004300071 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326004300072 0.13 22. 0.72 3. 28.9 25. 2326004300073 ENDDATA 3 0 2326004300074 ENDSUBENT 73 0 2326004399999 SUBENT 23260044 20141210 22412326004400001 BIB 8 42 2326004400002 REACTION 1((66-DY-164(N,G)66-DY-165,,RI)// 2326004400003 (66-DY-164(N,G)66-DY-165,,SIG)) 2326004400004 2((66-DY-164(N,G)66-DY-165,,RI)// 2326004400005 (66-DY-164(N,G)66-DY-165,,SIG)) 2326004400006 Q0 value (ratio of resonance integral to thermal 2326004400007 neutron activation cross-section) 2326004400008 SAMPLE Provider - IRMM 2326004400009 Matrix - Foil, Al alloy 2326004400010 Average sample thickness h,mm - 0.1 2326004400011 - Elemental content, % weight - 27. 2326004400012 - Elemental content, % weight - 5. 2326004400013 - Elemental content, % weight - 0.127 2326004400014 DECAY-DATA (66-DY-165-G,2.334HR,DG,94.7,0.0380,DG,279.8,0.0053, 2326004400015 DG,361.7,0.0090,DG,633.4,0.0061,DG,715.3,0.0058) 2326004400016 METHOD Measurement at channels: 2326004400017 1 S84 2326004400018 2 X26 2326004400019 ANALYSIS The Q0 factors were determined by inputting the 2326004400020 recommended Er value from references - 224. eV (+-5.%) 2326004400021 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326004400022 Uncertainty in the Q0 determination for for the simple 2326004400023 case of one determination in one irradiation channel 2326004400024 with one standard, given no type-B uncertainties 2326004400025 contributions from the FCd = 1 and neutron 2326004400026 self-shielding effects is on average 2326004400027 2.5 % for foils, 2.6 % for compounds; 2326004400028 include contributions from : 2326004400029 - The combined uncertainty of 1.1 % for foils and 1.2 %2326004400030 for liquids/compounds in the parameter OMEGACd . 2326004400031 - A combined type-B uncertainty from the comparator Qa 2326004400032 factor for channels X26 up to 2.1 %, S84 - 1.8 % . 2326004400033 - A combined type-B uncertainty of 1.2 % during 2326004400034 Qa -> Q0 conversion, due to the uncertainty on a and 2326004400035 an average 7 % uncertainty on the recommended effective2326004400036 resonance energy factor for the analyte, taken from 2326004400037 references. 2326004400038 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326004400039 (COREL,23260046) Average Q0 . 2326004400040 COMMENT Of compiler. 2326004400041 - In Table 2 of J,JRN,302,655,2014 2326004400042 in Matrix column - alloy is marked by '*', but not 2326004400043 by 'a' as in Table 1. 2326004400044 ENDBIB 42 0 2326004400045 COMMON 2 3 2326004400046 EN-MIN-NM EN-MEAN-DN 2326004400047 EV EV 2326004400048 0.5 0.0253 2326004400049 ENDCOMMON 3 0 2326004400050 DATA 4 1 2326004400051 DATA 1DATA-ERR 1DATA 2DATA-ERR 2 2326004400052 NO-DIM PER-CENT NO-DIM PER-CENT 2326004400053 0.14 8. 0.07 7. 2326004400054 ENDDATA 3 0 2326004400055 ENDSUBENT 54 0 2326004499999 SUBENT 23260045 20141210 22412326004500001 BIB 8 34 2326004500002 REACTION ((69-TM-169(N,G)69-TM-170,,RI)// 2326004500003 (69-TM-169(N,G)69-TM-170,,SIG)) 2326004500004 Q0 value (ratio of resonance integral to thermal 2326004500005 neutron activation cross-section) 2326004500006 SAMPLE Provider - Alfa Aesar 2326004500007 Matrix - Liquid on paper 2326004500008 Elemental content, % weight - 0.1 2326004500009 Average sample thickness h,mm - 1.25 2326004500010 DECAY-DATA (69-TM-170,128.6D,DG,84.3,0.0248) 2326004500011 METHOD Measurement at Y4 channel. 2326004500012 ANALYSIS The Q0 factors were determined by inputting the 2326004500013 recommended Er value from references - 4.8 eV (+-2.%). 2326004500014 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326004500015 Uncertainty in the Q0 determination for for the simple 2326004500016 case of one determination in one irradiation channel 2326004500017 with one standard, given no type-B uncertainties 2326004500018 contributions from the FCd = 1 and neutron 2326004500019 self-shielding effects is on average 2326004500020 2.6 % for compounds; 2326004500021 include contributions from : 2326004500022 - The combined uncertainty of 1.2 % 2326004500023 for liquids/compounds in the parameter OMEGACd . 2326004500024 - A combined type-B uncertainty from the comparator Qa 2326004500025 factor for channels Y4 - 1.9 % . 2326004500026 - A combined type-B uncertainty of 1.2 % during 2326004500027 Qa -> Q0 conversion, due to the uncertainty on a and 2326004500028 an average 7 % uncertainty on the recommended effective2326004500029 resonance energy factor for the analyte, taken from 2326004500030 references. 2326004500031 ADD-RES Measured k0-values with one-sigma uncertainty: 2326004500032 E-gamma,keV k0, no-dim. 2326004500033 84.3 3.29E-2 (+-7.1%) 2326004500034 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326004500035 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326004500036 ENDBIB 34 0 2326004500037 COMMON 2 3 2326004500038 EN-MIN-NM EN-MEAN-DN 2326004500039 EV EV 2326004500040 0.5 0.0253 2326004500041 ENDCOMMON 3 0 2326004500042 DATA 2 1 2326004500043 DATA DATA-ERR 2326004500044 NO-DIM PER-CENT 2326004500045 13.3 3. 2326004500046 ENDDATA 3 0 2326004500047 ENDSUBENT 46 0 2326004599999 SUBENT 23260046 20141210 22412326004600001 BIB 9 56 2326004600002 REACTION 1((70-YB-174(N,G)70-YB-175,,RI)// 2326004600003 (70-YB-174(N,G)70-YB-175,,SIG)) 2326004600004 2((70-YB-174(N,G)70-YB-175,,RI)// 2326004600005 (70-YB-174(N,G)70-YB-175,,SIG)) 2326004600006 Q0 value (ratio of resonance integral to thermal 2326004600007 neutron activation cross-section) 2326004600008 SAMPLE Provider - Alfa Aesar 2326004600009 Matrix - Liquid on paper 2326004600010 Elemental content, % weight - 0.1 2326004600011 Average sample thickness h,mm - 1.25 2326004600012 DECAY-DATA (70-YB-175,4.185D,DG,113.8,0.0387,DG,137.7,0.00235, 2326004600013 DG,144.9,0.00672,DG,282.5,0.0613,DG,396.3,0.132) 2326004600014 METHOD Measurement at channels: 2326004600015 S84 2326004600016 Y4 2326004600017 X26 2326004600018 ANALYSIS The Q0 factors were determined by 2326004600019 approaches: 2326004600020 1- the classical method: from the mean (AVG) and 2326004600021 observed SD of the results from all channels employed, 2326004600022 when inputting the recommended Er value from 2326004600023 references - 602. eV (+-8.%) . 2326004600024 2- the a-vector method applied on up to 3 irradiation 2326004600025 channels: leading to simultaneous Q0 and Er 2326004600026 determination. 2326004600027 MISC-COL (MISC) Effective resonance energy Er defined by 2326004600028 a-vector method. 2326004600029 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326004600030 Uncertainty in the Q0 determination for for the simple 2326004600031 case of one determination in one irradiation channel 2326004600032 with one standard, given no type-B uncertainties 2326004600033 contributions from the FCd = 1 and neutron 2326004600034 self-shielding effects is on average 2326004600035 2.5 % for foils, 2.6 % for compounds; 2326004600036 include contributions from : 2326004600037 - The combined uncertainty of 1.2 % 2326004600038 for liquids/compounds in the parameter OMEGACd . 2326004600039 - A combined type-B uncertainty from the comparator Qa 2326004600040 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326004600041 S84 - 1.8 % . 2326004600042 - A combined type-B uncertainty of 1.2 % during 2326004600043 Qa -> Q0 conversion, due to the uncertainty on a and 2326004600044 an average 7 % uncertainty on the recommended effective2326004600045 resonance energy factor for the analyte, taken from 2326004600046 references. 2326004600047 ADD-RES Measured k0-values with one-sigma uncertainty: 2326004600048 E-gamma,keV k0, no-dim. 2326004600049 113.8 9.47E-3 (+-2.0%) 2326004600050 137.7 5.74E-4 (+-2.4%) 2326004600051 144.9 1.63E-3 (+-2.1%) 2326004600052 282.5 1.50E-2 (+-2.2%) 2326004600053 396.3 3.18E-2 (+-2.1%) 2326004600054 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326004600055 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326004600056 Table 6 of J,JRN,302,631,2014. 2326004600057 1(DEP,23260051) Q0 measured at different channels. 2326004600058 ENDBIB 56 0 2326004600059 COMMON 2 3 2326004600060 EN-MIN-NM EN-MEAN-DN 2326004600061 EV EV 2326004600062 0.5 0.0253 2326004600063 ENDCOMMON 3 0 2326004600064 DATA 6 1 2326004600065 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326004600066 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326004600067 0.28 18. 0.48 3. 0.115 30. 2326004600068 ENDDATA 3 0 2326004600069 ENDSUBENT 68 0 2326004699999 SUBENT 23260047 20141210 22412326004700001 BIB 7 41 2326004700002 REACTION 1((70-YB-174(N,G)70-YB-175,,RI)// 2326004700003 (70-YB-174(N,G)70-YB-175,,SIG)) 2326004700004 2((70-YB-174(N,G)70-YB-175,,RI)// 2326004700005 (70-YB-174(N,G)70-YB-175,,SIG)) 2326004700006 3((70-YB-174(N,G)70-YB-175,,RI)// 2326004700007 (70-YB-174(N,G)70-YB-175,,SIG)) 2326004700008 Q0 value (ratio of resonance integral to thermal 2326004700009 neutron activation cross-section) 2326004700010 SAMPLE Provider - Alfa Aesar 2326004700011 Matrix - Liquid on paper 2326004700012 Elemental content, % weight - 0.1 2326004700013 Average sample thickness h,mm - 1.25 2326004700014 DECAY-DATA (70-YB-175,4.185D,DG,113.8,0.0387,DG,137.7,0.00235, 2326004700015 DG,144.9,0.00672,DG,282.5,0.0613,DG,396.3,0.132) 2326004700016 METHOD Measurement at channels: 2326004700017 1 S84 2326004700018 2 Y4 2326004700019 3 X26 2326004700020 ANALYSIS The Q0 factors were determined by inputting the 2326004700021 recommended Er value from references - 602. eV (+-8.%).2326004700022 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326004700023 Uncertainty in the Q0 determination for for the simple 2326004700024 case of one determination in one irradiation channel 2326004700025 with one standard, given no type-B uncertainties 2326004700026 contributions from the FCd = 1 and neutron 2326004700027 self-shielding effects is on average 2326004700028 2.5 % for foils, 2.6 % for compounds; 2326004700029 include contributions from : 2326004700030 - The combined uncertainty of 1.2 % 2326004700031 for liquids/compounds in the parameter OMEGACd . 2326004700032 - A combined type-B uncertainty from the comparator Qa 2326004700033 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326004700034 S84 - 1.8 % . 2326004700035 - A combined type-B uncertainty of 1.2 % during 2326004700036 Qa -> Q0 conversion, due to the uncertainty on a and 2326004700037 an average 7 % uncertainty on the recommended effective2326004700038 resonance energy factor for the analyte, taken from 2326004700039 references. 2326004700040 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326004700041 Table 6 of J,JRN,302,631,2014. 2326004700042 (COREL,23260051) Average Q0 . 2326004700043 ENDBIB 41 0 2326004700044 COMMON 2 3 2326004700045 EN-MIN-NM EN-MEAN-DN 2326004700046 EV EV 2326004700047 0.5 0.0253 2326004700048 ENDCOMMON 3 0 2326004700049 DATA 6 1 2326004700050 DATA 1DATA-ERR 1DATA 2DATA-ERR 2DATA 3DATA-ERR 32326004700051 NO-DIM PER-CENT NO-DIM PER-CENT NO-DIM PER-CENT 2326004700052 0.39 5. 0.34 3. 0.53 5. 2326004700053 ENDDATA 3 0 2326004700054 ENDSUBENT 53 0 2326004799999 SUBENT 23260048 20141210 22412326004800001 BIB 10 55 2326004800002 REACTION 1((70-YB-176(N,G)70-YB-177,,RI)// 2326004800003 (70-YB-176(N,G)70-YB-177,,SIG)) 2326004800004 2((70-YB-176(N,G)70-YB-177,,RI)// 2326004800005 (70-YB-176(N,G)70-YB-177,,SIG)) 2326004800006 Q0 value (ratio of resonance integral to thermal 2326004800007 neutron activation cross-section) 2326004800008 SAMPLE Provider - Alfa Aesar 2326004800009 Matrix - Liquid on paper 2326004800010 Elemental content, % weight - 0.1 2326004800011 Average sample thickness h,mm - 1.25 2326004800012 DECAY-DATA (70-YB-177-G,1.911HR,DG,150.3,0.205,DG,941.8,0.0108, 2326004800013 DG,1080.2,0.059,DG,1241.2,0.0350) 2326004800014 METHOD Measurement at channels: 2326004800015 S84 2326004800016 X26 2326004800017 ANALYSIS The Q0 factors were determined by 2326004800018 approaches: 2326004800019 1- the classical method: from the mean (AVG) and 2326004800020 observed SD of the results from all channels employed, 2326004800021 when inputting the recommended Er value from 2326004800022 references - 412. eV (+-5.%) . 2326004800023 2- the a-vector method applied on up to 3 irradiation 2326004800024 channels: leading to simultaneous Q0 and Er 2326004800025 determination. 2326004800026 MISC-COL (MISC) Effective resonance energy Er defined by 2326004800027 a-vector method. 2326004800028 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326004800029 Uncertainty in the Q0 determination for for the simple 2326004800030 case of one determination in one irradiation channel 2326004800031 with one standard, given no type-B uncertainties 2326004800032 contributions from the FCd = 1 and neutron 2326004800033 self-shielding effects is on average 2326004800034 2.5 % for foils, 2.6 % for compounds; 2326004800035 include contributions from : 2326004800036 - The combined uncertainty of 1.2 % 2326004800037 for liquids/compounds in the parameter OMEGACd . 2326004800038 - A combined type-B uncertainty from the comparator Qa 2326004800039 factor for channels X26 up to 2.1 %, S84 - 1.8 % . 2326004800040 - A combined type-B uncertainty of 1.2 % during 2326004800041 Qa -> Q0 conversion, due to the uncertainty on a and 2326004800042 an average 7 % uncertainty on the recommended effective2326004800043 resonance energy factor for the analyte, taken from 2326004800044 references. 2326004800045 COMMENT Of compiler. DATA 1 uncertainty in Table 5 of 2326004800046 J,JRN,302,655,2014 is 4.%. 2326004800047 ADD-RES Measured k0-values with one-sigma uncertainty: 2326004800048 E-gamma,keV k0, no-dim. 2326004800049 150.3 9.01E-4 (+-2.0%) 2326004800050 941.8 4.89E-5 (+-2.0%) 2326004800051 1080.2 2.64E-4 (+-2.0%) 2326004800052 1241.2 1.59E-4 (+-2.0%) 2326004800053 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326004800054 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326004800055 Table 6 of J,JRN,302,631,2014. 2326004800056 1(DEP,23260053) Q0 measured at different channels. 2326004800057 ENDBIB 55 0 2326004800058 COMMON 2 3 2326004800059 EN-MIN-NM EN-MEAN-DN 2326004800060 EV EV 2326004800061 0.5 0.0253 2326004800062 ENDCOMMON 3 0 2326004800063 DATA 6 1 2326004800064 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326004800065 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326004800066 2.51 3. 2.43 4. 190. 25. 2326004800067 ENDDATA 3 0 2326004800068 ENDSUBENT 67 0 2326004899999 SUBENT 23260049 20141210 22412326004900001 BIB 7 38 2326004900002 REACTION 1((70-YB-176(N,G)70-YB-177,,RI)// 2326004900003 (70-YB-176(N,G)70-YB-177,,SIG)) 2326004900004 2((70-YB-176(N,G)70-YB-177,,RI)// 2326004900005 (70-YB-176(N,G)70-YB-177,,SIG)) 2326004900006 Q0 value (ratio of resonance integral to thermal 2326004900007 neutron activation cross-section) 2326004900008 SAMPLE Provider - Alfa Aesar 2326004900009 Matrix - Liquid on paper 2326004900010 Elemental content, % weight - 0.1 2326004900011 Average sample thickness h,mm - 1.25 2326004900012 DECAY-DATA (70-YB-177-G,1.911HR,DG,150.3,0.205,DG,941.8,0.0108, 2326004900013 DG,1080.2,0.059,DG,1241.2,0.0350) 2326004900014 METHOD Measurement at channels: 2326004900015 1 S84 2326004900016 2 X26 2326004900017 ANALYSIS The Q0 factors were determined by inputting the 2326004900018 recommended Er value from references - 412. eV (+-5.%).2326004900019 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326004900020 Uncertainty in the Q0 determination for for the simple 2326004900021 case of one determination in one irradiation channel 2326004900022 with one standard, given no type-B uncertainties 2326004900023 contributions from the FCd = 1 and neutron 2326004900024 self-shielding effects is on average 2326004900025 2.5 % for foils, 2.6 % for compounds; 2326004900026 include contributions from : 2326004900027 - The combined uncertainty of 1.2 % 2326004900028 for liquids/compounds in the parameter OMEGACd . 2326004900029 - A combined type-B uncertainty from the comparator Qa 2326004900030 factor for channels X26 up to 2.1 %, S84 - 1.8 % . 2326004900031 - A combined type-B uncertainty of 1.2 % during 2326004900032 Qa -> Q0 conversion, due to the uncertainty on a and 2326004900033 an average 7 % uncertainty on the recommended effective2326004900034 resonance energy factor for the analyte, taken from 2326004900035 references. 2326004900036 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326004900037 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326004900038 Table 6 of J,JRN,302,631,2014. 2326004900039 2(COREL,23260052) Average Q0 . 2326004900040 ENDBIB 38 0 2326004900041 COMMON 2 3 2326004900042 EN-MIN-NM EN-MEAN-DN 2326004900043 EV EV 2326004900044 0.5 0.0253 2326004900045 ENDCOMMON 3 0 2326004900046 DATA 4 1 2326004900047 DATA 1DATA-ERR 1DATA 2DATA-ERR 2 2326004900048 NO-DIM PER-CENT NO-DIM PER-CENT 2326004900049 2.42 3. 2.60 3. 2326004900050 ENDDATA 3 0 2326004900051 ENDSUBENT 50 0 2326004999999 SUBENT 23260050 20141210 22412326005000001 BIB 9 51 2326005000002 REACTION 1((72-HF-174(N,G)72-HF-175,,RI)// 2326005000003 (72-HF-174(N,G)72-HF-175,,SIG)) 2326005000004 2((72-HF-174(N,G)72-HF-175,,RI)// 2326005000005 (72-HF-174(N,G)72-HF-175,,SIG)) 2326005000006 Q0 value (ratio of resonance integral to thermal 2326005000007 neutron activation cross-section) 2326005000008 SAMPLE Provider - IRMM 2326005000009 Matrix - Wire,Al alloy 2326005000010 Average sample thickness h,mm - 1. 2326005000011 -Elemental content, % weight - 5. 2326005000012 -Elemental content, % weight - 0.1 2326005000013 DECAY-DATA (72-HF-175,70.D,DG,343.4,0.870) 2326005000014 METHOD Measurement at channels: 2326005000015 S84 2326005000016 Y4 2326005000017 X26 2326005000018 ANALYSIS The Q0 factors were determined by approaches: 2326005000019 1- the classical method: from the mean (AVG) and 2326005000020 observed SD of the results from all channels employed, 2326005000021 when inputting the recommended Er value from 2326005000022 references - 30. eV (+-7.%) . 2326005000023 2- the a-vector method applied on up to 3 irradiation 2326005000024 channels: leading to simultaneous Q0 and Er 2326005000025 determination. 2326005000026 MISC-COL (MISC) Effective resonance energy Er defined by 2326005000027 a-vector method. 2326005000028 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326005000029 Uncertainty in the Q0 determination for for the simple 2326005000030 case of one determination in one irradiation channel 2326005000031 with one standard, given no type-B uncertainties 2326005000032 contributions from the FCd = 1 and neutron 2326005000033 self-shielding effects is on average 2326005000034 2.5 % for foils, 2.6 % for compounds; 2326005000035 include contributions from : 2326005000036 - The combined uncertainty of 1.1 % for foils and 1.2 %2326005000037 for liquids/compounds in the parameter OMEGACd . 2326005000038 - A combined type-B uncertainty from the comparator Qa 2326005000039 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326005000040 S84 - 1.8 % . 2326005000041 - A combined type-B uncertainty of 1.2 % during 2326005000042 Qa -> Q0 conversion, due to the uncertainty on a and 2326005000043 an average 7 % uncertainty on the recommended effective2326005000044 resonance energy factor for the analyte, taken from 2326005000045 references. 2326005000046 ADD-RES Measured k0-values with one-sigma uncertainty: 2326005000047 E-gamma,keV k0, no-dim. 2326005000048 343.4 8.95E-3 (+-1.4%) 2326005000049 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326005000050 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326005000051 Table 6 of J,JRN,302,631,2014. 2326005000052 1(DEP,23260055) Q0 measured at different channels. 2326005000053 ENDBIB 51 0 2326005000054 COMMON 2 3 2326005000055 EN-MIN-NM EN-MEAN-DN 2326005000056 EV EV 2326005000057 0.5 0.0253 2326005000058 ENDCOMMON 3 0 2326005000059 DATA 6 1 2326005000060 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326005000061 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326005000062 0.61 3. 0.64 2. 200. 22. 2326005000063 ENDDATA 3 0 2326005000064 ENDSUBENT 63 0 2326005099999 SUBENT 23260051 20141210 22412326005100001 BIB 7 41 2326005100002 REACTION 1((72-HF-174(N,G)72-HF-175,,RI)// 2326005100003 (72-HF-174(N,G)72-HF-175,,SIG)) 2326005100004 2((72-HF-174(N,G)72-HF-175,,RI)// 2326005100005 (72-HF-174(N,G)72-HF-175,,SIG)) 2326005100006 3((72-HF-174(N,G)72-HF-175,,RI)// 2326005100007 (72-HF-174(N,G)72-HF-175,,SIG)) 2326005100008 Q0 value (ratio of resonance integral to thermal 2326005100009 neutron activation cross-section) 2326005100010 SAMPLE Provider - IRMM 2326005100011 Matrix - Wire,Al alloy 2326005100012 Average sample thickness h,mm - 1. 2326005100013 -Elemental content, % weight - 5. 2326005100014 -Elemental content, % weight - 0.1 2326005100015 DECAY-DATA (72-HF-175,70.D,DG,343.4,0.870) 2326005100016 METHOD Measurement at channels: 2326005100017 1 S84 2326005100018 2 Y4 2326005100019 3 X26 2326005100020 ANALYSIS The Q0 factors were determined by inputting the 2326005100021 recommended Er value from references - 30. eV (+-7.%). 2326005100022 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326005100023 Uncertainty in the Q0 determination for for the simple 2326005100024 case of one determination in one irradiation channel 2326005100025 with one standard, given no type-B uncertainties 2326005100026 contributions from the FCd = 1 and neutron 2326005100027 self-shielding effects is on average 2326005100028 2.5 % for foils, 2.6 % for compounds; 2326005100029 include contributions from : 2326005100030 - The combined uncertainty of 1.1 % for foils and 1.2 %2326005100031 for liquids/compounds in the parameter OMEGACd . 2326005100032 - A combined type-B uncertainty from the comparator Qa 2326005100033 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326005100034 S84 - 1.8 % . 2326005100035 - A combined type-B uncertainty of 1.2 % during 2326005100036 Qa -> Q0 conversion, due to the uncertainty on a and 2326005100037 an average 7 % uncertainty on the recommended effective2326005100038 resonance energy factor for the analyte, taken from 2326005100039 references. 2326005100040 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326005100041 Table 6 of J,JRN,302,631,2014. 2326005100042 (COREL,23260054) Average Q0 . 2326005100043 ENDBIB 41 0 2326005100044 COMMON 2 3 2326005100045 EN-MIN-NM EN-MEAN-DN 2326005100046 EV EV 2326005100047 0.5 0.0253 2326005100048 ENDCOMMON 3 0 2326005100049 DATA 6 1 2326005100050 DATA 1DATA-ERR 1DATA 2DATA-ERR 2DATA 3DATA-ERR 32326005100051 NO-DIM PER-CENT NO-DIM PER-CENT NO-DIM PER-CENT 2326005100052 0.64 2. 0.60 2. 0.60 4. 2326005100053 ENDDATA 3 0 2326005100054 ENDSUBENT 53 0 2326005199999 SUBENT 23260052 20141210 22412326005200001 BIB 9 57 2326005200002 REACTION 1((72-HF-179(N,G)72-HF-180-M,,RI)// 2326005200003 (72-HF-179(N,G)72-HF-180-M,,SIG)) 2326005200004 2((72-HF-179(N,G)72-HF-180-M,,RI)// 2326005200005 (72-HF-179(N,G)72-HF-180-M,,SIG)) 2326005200006 Q0 value (ratio of resonance integral to thermal 2326005200007 neutron activation cross-section) 2326005200008 SAMPLE Provider - IRMM 2326005200009 Matrix - Wire,Al alloy 2326005200010 Average sample thickness h,mm - 1. 2326005200011 -Elemental content, % weight - 5. 2326005200012 -Elemental content, % weight - 0.1 2326005200013 DECAY-DATA (72-HF-180-M,5.5HR,DG,93.3,0.171,DG,215.4,0.813, 2326005200014 DG,332.3,0.941,DG,443.2,0.819,DG,500.7,0.143) 2326005200015 METHOD Measurement at channels: 2326005200016 S84 2326005200017 Y4 2326005200018 X26 2326005200019 ANALYSIS The Q0 factors were determined by 2326005200020 approaches: 2326005200021 1- the classical method: from the mean (AVG) and 2326005200022 observed SD of the results from all channels employed, 2326005200023 when inputting the recommended Er value from 2326005200024 references - 16.2 eV (+-12.%) . 2326005200025 2- the a-vector method applied on up to 3 irradiation 2326005200026 channels: leading to simultaneous Q0 and Er 2326005200027 determination. 2326005200028 MISC-COL (MISC) Effective resonance energy Er defined by 2326005200029 a-vector method. 2326005200030 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326005200031 Uncertainty in the Q0 determination for for the simple 2326005200032 case of one determination in one irradiation channel 2326005200033 with one standard, given no type-B uncertainties 2326005200034 contributions from the FCd = 1 and neutron 2326005200035 self-shielding effects is on average 2326005200036 2.5 % for foils, 2.6 % for compounds; 2326005200037 include contributions from : 2326005200038 - The combined uncertainty of 1.1 % for foils and 1.2 %2326005200039 for liquids/compounds in the parameter OMEGACd . 2326005200040 - A combined type-B uncertainty from the comparator Qa 2326005200041 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326005200042 S84 - 1.8 % . 2326005200043 - A combined type-B uncertainty of 1.2 % during 2326005200044 Qa -> Q0 conversion, due to the uncertainty on a and 2326005200045 an average 7 % uncertainty on the recommended effective2326005200046 resonance energy factor for the analyte, taken from 2326005200047 references. 2326005200048 ADD-RES Measured k0-values with one-sigma uncertainty: 2326005200049 E-gamma,keV k0, no-dim. 2326005200050 93.3 1.19E-4 (+-1.6%) 2326005200051 215.4 5.61E-4 (+-1.3%) 2326005200052 332.3 6.42E-4 (+-1.3%) 2326005200053 443.2 5.62E-4 (+-1.3%) 2326005200054 500.7 9.67E-5 (+-1.3%) 2326005200055 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326005200056 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326005200057 Table 6 of J,JRN,302,631,2014. 2326005200058 1(DEP,23260057) Q0 measured at different channels. 2326005200059 ENDBIB 57 0 2326005200060 COMMON 2 3 2326005200061 EN-MIN-NM EN-MEAN-DN 2326005200062 EV EV 2326005200063 0.5 0.0253 2326005200064 ENDCOMMON 3 0 2326005200065 DATA 6 1 2326005200066 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326005200067 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326005200068 14.1 2. 14.0 2. 12.1 15. 2326005200069 ENDDATA 3 0 2326005200070 ENDSUBENT 69 0 2326005299999 SUBENT 23260053 20141210 22412326005300001 BIB 7 42 2326005300002 REACTION 1((72-HF-179(N,G)72-HF-180-M,,RI)// 2326005300003 (72-HF-179(N,G)72-HF-180-M,,SIG)) 2326005300004 2((72-HF-179(N,G)72-HF-180-M,,RI)// 2326005300005 (72-HF-179(N,G)72-HF-180-M,,SIG)) 2326005300006 3((72-HF-179(N,G)72-HF-180-M,,RI)// 2326005300007 (72-HF-179(N,G)72-HF-180-M,,SIG)) 2326005300008 Q0 value (ratio of resonance integral to thermal 2326005300009 neutron activation cross-section) 2326005300010 SAMPLE Provider - IRMM 2326005300011 Matrix - Wire,Al alloy 2326005300012 Average sample thickness h,mm - 1. 2326005300013 -Elemental content, % weight - 5. 2326005300014 -Elemental content, % weight - 0.1 2326005300015 DECAY-DATA (72-HF-180-M,5.5HR,DG,93.3,0.171,DG,215.4,0.813, 2326005300016 DG,332.3,0.941,DG,443.2,0.819,DG,500.7,0.143) 2326005300017 METHOD Measurement at channels: 2326005300018 1 S84 2326005300019 2 Y4 2326005300020 3 X26 2326005300021 ANALYSIS The Q0 factors were determined by inputting the 2326005300022 recommended Er value from references - 16.2 eV (+-12.%)2326005300023 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326005300024 Uncertainty in the Q0 determination for for the simple 2326005300025 case of one determination in one irradiation channel 2326005300026 with one standard, given no type-B uncertainties 2326005300027 contributions from the FCd = 1 and neutron 2326005300028 self-shielding effects is on average 2326005300029 2.5 % for foils, 2.6 % for compounds; 2326005300030 include contributions from : 2326005300031 - The combined uncertainty of 1.1 % for foils and 1.2 %2326005300032 for liquids/compounds in the parameter OMEGACd . 2326005300033 - A combined type-B uncertainty from the comparator Qa 2326005300034 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326005300035 S84 - 1.8 % . 2326005300036 - A combined type-B uncertainty of 1.2 % during 2326005300037 Qa -> Q0 conversion, due to the uncertainty on a and 2326005300038 an average 7 % uncertainty on the recommended effective2326005300039 resonance energy factor for the analyte, taken from 2326005300040 references. 2326005300041 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326005300042 Table 6 of J,JRN,302,631,2014. 2326005300043 (COREL,23260056) Average Q0 . 2326005300044 ENDBIB 42 0 2326005300045 COMMON 2 3 2326005300046 EN-MIN-NM EN-MEAN-DN 2326005300047 EV EV 2326005300048 0.5 0.0253 2326005300049 ENDCOMMON 3 0 2326005300050 DATA 6 1 2326005300051 DATA 1DATA-ERR 1DATA 2DATA-ERR 2DATA 3DATA-ERR 32326005300052 NO-DIM PER-CENT NO-DIM PER-CENT NO-DIM PER-CENT 2326005300053 14.0 1. 14.6 3. 14.2 2. 2326005300054 ENDDATA 3 0 2326005300055 ENDSUBENT 54 0 2326005399999 SUBENT 23260054 20141210 22412326005400001 BIB 9 55 2326005400002 REACTION 1((72-HF-180(N,G)72-HF-181,,RI)// 2326005400003 (72-HF-180(N,G)72-HF-181,,SIG)) 2326005400004 2((72-HF-180(N,G)72-HF-181,,RI)// 2326005400005 (72-HF-180(N,G)72-HF-181,,SIG)) 2326005400006 Q0 value (ratio of resonance integral to thermal 2326005400007 neutron activation cross-section) 2326005400008 SAMPLE Provider - IRMM 2326005400009 Matrix - Wire,Al alloy 2326005400010 Average sample thickness h,mm - 1. 2326005400011 -Elemental content, % weight - 5. 2326005400012 -Elemental content, % weight - 0.1 2326005400013 DECAY-DATA (72-HF-181,42.39D,DG,133.0,0.433,DG,345.9,0.1512, 2326005400014 DG,482.2,0.805) 2326005400015 METHOD Measurement at channels: 2326005400016 S84 2326005400017 Y4 2326005400018 X26 2326005400019 ANALYSIS The Q0 factors were determined by 2326005400020 approaches: 2326005400021 1- the classical method: from the mean (AVG) and 2326005400022 observed SD of the results from all channels employed, 2326005400023 when inputting the recommended Er value from 2326005400024 references - 115. eV (+-6.%) . 2326005400025 2- the a-vector method applied on up to 3 irradiation 2326005400026 channels: leading to simultaneous Q0 and Er 2326005400027 determination. 2326005400028 MISC-COL (MISC) Effective resonance energy Er defined by 2326005400029 a-vector method. 2326005400030 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326005400031 Uncertainty in the Q0 determination for for the simple 2326005400032 case of one determination in one irradiation channel 2326005400033 with one standard, given no type-B uncertainties 2326005400034 contributions from the FCd = 1 and neutron 2326005400035 self-shielding effects is on average 2326005400036 2.5 % for foils, 2.6 % for compounds; 2326005400037 include contributions from : 2326005400038 - The combined uncertainty of 1.1 % for foils and 1.2 %2326005400039 for liquids/compounds in the parameter OMEGACd . 2326005400040 - A combined type-B uncertainty from the comparator Qa 2326005400041 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326005400042 S84 - 1.8 % . 2326005400043 - A combined type-B uncertainty of 1.2 % during 2326005400044 Qa -> Q0 conversion, due to the uncertainty on a and 2326005400045 an average 7 % uncertainty on the recommended effective2326005400046 resonance energy factor for the analyte, taken from 2326005400047 references. 2326005400048 ADD-RES Measured k0-values with one-sigma uncertainty: 2326005400049 E-gamma,keV k0, no-dim. 2326005400050 133.0 2.33E-2 (+-1.7%) 2326005400051 345.9 8.03E-3 (+-1.4%) 2326005400052 482.2 4.31E-2 (+-1.3%) 2326005400053 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326005400054 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326005400055 Table 6 of J,JRN,302,631,2014. 2326005400056 1(DEP,23260059) Q0 measured at different channels. 2326005400057 ENDBIB 55 0 2326005400058 COMMON 2 3 2326005400059 EN-MIN-NM EN-MEAN-DN 2326005400060 EV EV 2326005400061 0.5 0.0253 2326005400062 ENDCOMMON 3 0 2326005400063 DATA 6 1 2326005400064 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326005400065 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326005400066 2.44 3. 2.46 2. 152. 8. 2326005400067 ENDDATA 3 0 2326005400068 ENDSUBENT 67 0 2326005499999 SUBENT 23260055 20141210 22412326005500001 BIB 7 42 2326005500002 REACTION 1((72-HF-180(N,G)72-HF-181,,RI)// 2326005500003 (72-HF-180(N,G)72-HF-181,,SIG)) 2326005500004 2((72-HF-180(N,G)72-HF-181,,RI)// 2326005500005 (72-HF-180(N,G)72-HF-181,,SIG)) 2326005500006 3((72-HF-180(N,G)72-HF-181,,RI)// 2326005500007 (72-HF-180(N,G)72-HF-181,,SIG)) 2326005500008 Q0 value (ratio of resonance integral to thermal 2326005500009 neutron activation cross-section) 2326005500010 SAMPLE Provider - IRMM 2326005500011 Matrix - Wire,Al alloy 2326005500012 Average sample thickness h,mm - 1. 2326005500013 -Elemental content, % weight - 5. 2326005500014 -Elemental content, % weight - 0.1 2326005500015 DECAY-DATA (72-HF-181,42.39D,DG,133.0,0.433,DG,345.9,0.1512, 2326005500016 DG,482.2,0.805) 2326005500017 METHOD Measurement at channels: 2326005500018 1 S84 2326005500019 2 Y4 2326005500020 3 X26 2326005500021 ANALYSIS The Q0 factors were determined by inputting the 2326005500022 recommended Er value from references - 115. eV (+-6.%) 2326005500023 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326005500024 Uncertainty in the Q0 determination for for the simple 2326005500025 case of one determination in one irradiation channel 2326005500026 with one standard, given no type-B uncertainties 2326005500027 contributions from the FCd = 1 and neutron 2326005500028 self-shielding effects is on average 2326005500029 2.5 % for foils, 2.6 % for compounds; 2326005500030 include contributions from : 2326005500031 - The combined uncertainty of 1.1 % for foils and 1.2 %2326005500032 for liquids/compounds in the parameter OMEGACd . 2326005500033 - A combined type-B uncertainty from the comparator Qa 2326005500034 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326005500035 S84 - 1.8 % . 2326005500036 - A combined type-B uncertainty of 1.2 % during 2326005500037 Qa -> Q0 conversion, due to the uncertainty on a and 2326005500038 an average 7 % uncertainty on the recommended effective2326005500039 resonance energy factor for the analyte, taken from 2326005500040 references. 2326005500041 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326005500042 Table 6 of J,JRN,302,631,2014. 2326005500043 (COREL,23260058) Average Q0 . 2326005500044 ENDBIB 42 0 2326005500045 COMMON 2 3 2326005500046 EN-MIN-NM EN-MEAN-DN 2326005500047 EV EV 2326005500048 0.5 0.0253 2326005500049 ENDCOMMON 3 0 2326005500050 DATA 6 1 2326005500051 DATA 1DATA-ERR 1DATA 2DATA-ERR 2DATA 3DATA-ERR 32326005500052 NO-DIM PER-CENT NO-DIM PER-CENT NO-DIM PER-CENT 2326005500053 2.45 2. 2.54 3. 2.36 3. 2326005500054 ENDDATA 3 0 2326005500055 ENDSUBENT 54 0 2326005599999 SUBENT 23260056 20141210 22412326005600001 BIB 9 83 2326005600002 REACTION 1((73-TA-181(N,G)73-TA-182,,RI)// 2326005600003 (73-TA-181(N,G)73-TA-182,,SIG)) 2326005600004 2((73-TA-181(N,G)73-TA-182,,RI)// 2326005600005 (73-TA-181(N,G)73-TA-182,,SIG)) 2326005600006 Q0 value (ratio of resonance integral to thermal 2326005600007 neutron activation cross-section) 2326005600008 SAMPLE - Provider - IRMM 2326005600009 Matrix - Foil 2326005600010 Elemental content, % weight > 99.99 2326005600011 Average sample thickness h,mm - 1. 2326005600012 - Provider - IRMM 2326005600013 Matrix - Foil, Y alloy 2326005600014 Elemental content, % weight - 0.7 2326005600015 Average sample thickness h,mm - 0.1 2326005600016 - Provider - NIST 2326005600017 Matrix - Liquid on paper 2326005600018 Elemental content, % weight - 1. 2326005600019 Average sample thickness h,mm - 1.25 2326005600020 DECAY-DATA (73-TA-182-G,114.4D,DG,84.7,0.0265,DG,100.1,0.142, 2326005600021 DG,113.7,0.0187,DG,152.4,0.0702,DG,156.4,0.0267, 2326005600022 DG,179.4,0.0312,DG,198.4,0.0147,DG,222.1,0.0757, 2326005600023 DG,229.3,0.0364,DG,264.1,0.0361,DG,1001.7,0.0209, 2326005600024 DG,1121.3,0.3524,DG,1157.5,,DG,1189.1,0.1649, 2326005600025 DG,1221.4,0.2723,DG,1231.0,0.1162,DG,1257.4,0.0151, 2326005600026 DG,1289.2,0.0137) 2326005600027 METHOD Measurement at channels: 2326005600028 S84 2326005600029 Y4 2326005600030 X26 2326005600031 ANALYSIS The Q0 factors were determined by 2326005600032 approaches: 2326005600033 1- the classical method: from the mean (AVG) and 2326005600034 observed SD of the results from all channels employed, 2326005600035 when inputting the recommended Er value from 2326005600036 references - 10.4 eV (+-6.%) . 2326005600037 2- the a-vector method applied on up to 3 irradiation 2326005600038 channels: leading to simultaneous Q0 and Er 2326005600039 determination. 2326005600040 Cd transmission factor FCd=0.972 was used. 2326005600041 MISC-COL (MISC) Effective resonance energy Er defined by 2326005600042 a-vector method. 2326005600043 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326005600044 Uncertainty in the Q0 determination for for the simple 2326005600045 case of one determination in one irradiation channel 2326005600046 with one standard, given no type-B uncertainties 2326005600047 contributions from the FCd = 1 and neutron 2326005600048 self-shielding effects is on average 2326005600049 2.5 % for foils, 2.6 % for compounds; 2326005600050 include contributions from : 2326005600051 - The combined uncertainty of 1.5 % for foils and 1.2 %2326005600052 for liquids/compounds in the parameter OMEGACd . 2326005600053 - A combined type-B uncertainty from the comparator Qa 2326005600054 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326005600055 S84 - 1.8 % . 2326005600056 - A combined type-B uncertainty of 1.2 % during 2326005600057 Qa -> Q0 conversion, due to the uncertainty on a and 2326005600058 an average 7 % uncertainty on the recommended effective2326005600059 resonance energy factor for the analyte, taken from 2326005600060 references. 2326005600061 ADD-RES Measured k0-values with one-sigma uncertainty: 2326005600062 E-gamma,keV k0, no-dim. 2326005600063 84.7 6.23E-3 (+-1.3%) 2326005600064 100.1 3.26E-2 (+-1.2%) 2326005600065 113.7 4.38E-3 (+-1.2%) 2326005600066 152.4 1.63E-2 (+-1.2%) 2326005600067 156.4 6.26E-3 (+-1.2%) 2326005600068 179.4 7.27E-3 (+-1.2%) 2326005600069 198.4 3.40E-3 (+-1.2%) 2326005600070 222.1 1.78E-2 (+-1.2%) 2326005600071 229.3 8.56E-3 (+-1.2%) 2326005600072 264.1 8.41E-3 (+-1.2%) 2326005600073 1001.7 4.82E-3 (+-1.3%) 2326005600074 1121.3 8.26E-2 (+-1.3%) 2326005600075 1157.5 2.35E-3 (+-1.2%) 2326005600076 1189.1 3.83E-2 (+-1.2%) 2326005600077 1221.4 6.39E-2 (+-1.3%) 2326005600078 1231.0 2.71E-2 (+-1.2%) 2326005600079 1257.4 3.52E-3 (+-1.2%) 2326005600080 1289.2 3.20E-3 (+-1.3%) 2326005600081 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326005600082 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326005600083 Table 6 of J,JRN,302,631,2014. 2326005600084 1(DEP,23260061) Q0 measured at different channels. 2326005600085 ENDBIB 83 0 2326005600086 COMMON 2 3 2326005600087 EN-MIN-NM EN-MEAN-DN 2326005600088 EV EV 2326005600089 0.5 0.0253 2326005600090 ENDCOMMON 3 0 2326005600091 DATA 6 1 2326005600092 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326005600093 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326005600094 37.0 3. 36.8 2. 11.1 15. 2326005600095 ENDDATA 3 0 2326005600096 ENDSUBENT 95 0 2326005699999 SUBENT 23260057 20141210 22412326005700001 BIB 7 54 2326005700002 REACTION 1((73-TA-181(N,G)73-TA-182,,RI)// 2326005700003 (73-TA-181(N,G)73-TA-182,,SIG)) 2326005700004 2((73-TA-181(N,G)73-TA-182,,RI)// 2326005700005 (73-TA-181(N,G)73-TA-182,,SIG)) 2326005700006 3((73-TA-181(N,G)73-TA-182,,RI)// 2326005700007 (73-TA-181(N,G)73-TA-182,,SIG)) 2326005700008 Q0 value (ratio of resonance integral to thermal 2326005700009 neutron activation cross-section) 2326005700010 SAMPLE - Provider - IRMM 2326005700011 Matrix - Foil 2326005700012 Elemental content, % weight > 99.99 2326005700013 Average sample thickness h,mm - 1. 2326005700014 - Provider - IRMM 2326005700015 Matrix - Foil, Y alloy 2326005700016 Elemental content, % weight - 0.7 2326005700017 Average sample thickness h,mm - 0.1 2326005700018 - Provider - NIST 2326005700019 Matrix - Liquid on paper 2326005700020 Elemental content, % weight - 1. 2326005700021 Average sample thickness h,mm - 1.25 2326005700022 DECAY-DATA (73-TA-182-G,114.4D,DG,84.7,0.0265,DG,100.1,0.142, 2326005700023 DG,113.7,0.0187,DG,152.4,0.0702,DG,156.4,0.0267, 2326005700024 DG,179.4,0.0312,DG,198.4,0.0147,DG,222.1,0.0757, 2326005700025 DG,229.3,0.0364,DG,264.1,0.0361,DG,1001.7,0.0209, 2326005700026 DG,1121.3,0.3524,DG,1157.5,,DG,1189.1,0.1649, 2326005700027 DG,1221.4,0.2723,DG,1231.0,0.1162,DG,1257.4,0.0151, 2326005700028 DG,1289.2,0.0137) 2326005700029 METHOD Measurement at channels: 2326005700030 1 S84 2326005700031 2 Y4 2326005700032 3 X26 2326005700033 ANALYSIS The Q0 factors were determined by inputting the 2326005700034 recommended Er value from references - 10.4 eV (+-6.%) 2326005700035 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326005700036 Uncertainty in the Q0 determination for for the simple 2326005700037 case of one determination in one irradiation channel 2326005700038 with one standard, given no type-B uncertainties 2326005700039 contributions from the FCd = 1 and neutron 2326005700040 self-shielding effects is on average 2326005700041 2.5 % for foils, 2.6 % for compounds; 2326005700042 include contributions from : 2326005700043 - The combined uncertainty of 1.5 % for foils and 1.2 %2326005700044 for liquids/compounds in the parameter OMEGACd . 2326005700045 - A combined type-B uncertainty from the comparator Qa 2326005700046 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326005700047 S84 - 1.8 % . 2326005700048 - A combined type-B uncertainty of 1.2 % during 2326005700049 Qa -> Q0 conversion, due to the uncertainty on a and 2326005700050 an average 7 % uncertainty on the recommended effective2326005700051 resonance energy factor for the analyte, taken from 2326005700052 references. 2326005700053 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326005700054 Table 6 of J,JRN,302,631,2014. 2326005700055 (COREL,23260060) Average Q0 . 2326005700056 ENDBIB 54 0 2326005700057 COMMON 2 3 2326005700058 EN-MIN-NM EN-MEAN-DN 2326005700059 EV EV 2326005700060 0.5 0.0253 2326005700061 ENDCOMMON 3 0 2326005700062 DATA 6 1 2326005700063 DATA 1DATA-ERR 1DATA 2DATA-ERR 2DATA 3DATA-ERR 32326005700064 NO-DIM PER-CENT NO-DIM PER-CENT NO-DIM PER-CENT 2326005700065 36.5 4. 38.1 2. 36.0 5. 2326005700066 ENDDATA 3 0 2326005700067 ENDSUBENT 66 0 2326005799999 SUBENT 23260058 20141210 22412326005800001 BIB 9 57 2326005800002 REACTION 1((78-PT-196(N,G)78-PT-197-M,,RI)// 2326005800003 (78-PT-196(N,G)78-PT-197-M,,SIG)) 2326005800004 2((78-PT-196(N,G)78-PT-197-M,,RI)// 2326005800005 (78-PT-196(N,G)78-PT-197-M,,SIG)) 2326005800006 Q0 value (ratio of resonance integral to thermal 2326005800007 neutron activation cross-section) 2326005800008 SAMPLE - Provider - Goodfellow 2326005800009 Matrix - Wire 2326005800010 Elemental content, % weight > 99.99 2326005800011 Average sample thickness h,mm - 0.5 2326005800012 - Provider - Alfa Aesar 2326005800013 Matrix - Foil,Ru alloy 2326005800014 Elemental content, % weight - 95.35 2326005800015 Average sample thickness h,mm - 0.05 2326005800016 - Provider - Alfa Aesar 2326005800017 Matrix - Liquid on paper 2326005800018 Elemental content, % weight - 0.1 2326005800019 Average sample thickness h,mm - 1.25 2326005800020 DECAY-DATA (78-PT-197-M,95.41MIN,DG,346.5,0.1110) 2326005800021 METHOD Measurement at channels: 2326005800022 S84 2326005800023 X26 2326005800024 ANALYSIS The Q0 factors were determined by 2326005800025 approaches: 2326005800026 1- the classical method: from the mean (AVG) and 2326005800027 observed SD of the results from all channels employed, 2326005800028 when inputting the recommended Er value from 2326005800029 references - 291. eV . 2326005800030 2- the a-vector method applied on up to 3 irradiation 2326005800031 channels: leading to simultaneous Q0 and Er 2326005800032 determination. 2326005800033 MISC-COL (MISC) Effective resonance energy Er defined by 2326005800034 a-vector method. 2326005800035 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326005800036 Uncertainty in the Q0 determination for for the simple 2326005800037 case of one determination in one irradiation channel 2326005800038 with one standard, given no type-B uncertainties 2326005800039 contributions from the FCd = 1 and neutron 2326005800040 self-shielding effects is on average 2326005800041 2.5 % for foils, 2.6 % for compounds; 2326005800042 include contributions from : 2326005800043 - The combined uncertainty of 1.1 % for foils and 1.2 %2326005800044 for liquids/compounds in the parameter OMEGACd . 2326005800045 - A combined type-B uncertainty from the comparator Qa 2326005800046 factor for channels X26 up to 2.1 %, S84 - 1.8 % . 2326005800047 - A combined type-B uncertainty of 1.2 % during 2326005800048 Qa -> Q0 conversion, due to the uncertainty on a and 2326005800049 an average 7 % uncertainty on the recommended effective2326005800050 resonance energy factor for the analyte, taken from 2326005800051 references. 2326005800052 ADD-RES Measured k0-values with one-sigma uncertainty: 2326005800053 E-gamma,keV k0, no-dim. 2326005800054 346.5 1.06E-5 (+-1.1%) 2326005800055 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326005800056 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326005800057 Table 6 of J,JRN,302,631,2014. 2326005800058 1(DEP,23260063) Q0 measured at different channels. 2326005800059 ENDBIB 57 0 2326005800060 COMMON 2 3 2326005800061 EN-MIN-NM EN-MEAN-DN 2326005800062 EV EV 2326005800063 0.5 0.0253 2326005800064 ENDCOMMON 3 0 2326005800065 DATA 6 1 2326005800066 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326005800067 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326005800068 8.44 15. 9.62 4. 5319. 5. 2326005800069 ENDDATA 3 0 2326005800070 ENDSUBENT 69 0 2326005899999 SUBENT 23260059 20141210 22412326005900001 BIB 7 44 2326005900002 REACTION 1((78-PT-196(N,G)78-PT-197-M,,RI)// 2326005900003 (78-PT-196(N,G)78-PT-197-M,,SIG)) 2326005900004 2((78-PT-196(N,G)78-PT-197-M,,RI)// 2326005900005 (78-PT-196(N,G)78-PT-197-M,,SIG)) 2326005900006 Q0 value (ratio of resonance integral to thermal 2326005900007 neutron activation cross-section) 2326005900008 SAMPLE - Provider - Goodfellow 2326005900009 Matrix - Wire 2326005900010 Elemental content, % weight > 99.99 2326005900011 Average sample thickness h,mm - 0.5 2326005900012 - Provider - Alfa Aesar 2326005900013 Matrix - Foil,Ru alloy 2326005900014 Elemental content, % weight - 95.35 2326005900015 Average sample thickness h,mm - 0.05 2326005900016 - Provider - Alfa Aesar 2326005900017 Matrix - Liquid on paper 2326005900018 Elemental content, % weight - 0.1 2326005900019 Average sample thickness h,mm - 1.25 2326005900020 DECAY-DATA (78-PT-197-M,95.41MIN,DG,346.5,0.1110) 2326005900021 METHOD Measurement at channels: 2326005900022 1 S84 2326005900023 2 X26 2326005900024 ANALYSIS The Q0 factors were determined by inputting the 2326005900025 recommended Er value from references - 291. eV . 2326005900026 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326005900027 Uncertainty in the Q0 determination for for the simple 2326005900028 case of one determination in one irradiation channel 2326005900029 with one standard, given no type-B uncertainties 2326005900030 contributions from the FCd = 1 and neutron 2326005900031 self-shielding effects is on average 2326005900032 2.5 % for foils, 2.6 % for compounds; 2326005900033 include contributions from : 2326005900034 - The combined uncertainty of 1.1 % for foils and 1.2 %2326005900035 for liquids/compounds in the parameter OMEGACd . 2326005900036 - A combined type-B uncertainty from the comparator Qa 2326005900037 factor for channels X26 up to 2.1 %, S84 - 1.8 % . 2326005900038 - A combined type-B uncertainty of 1.2 % during 2326005900039 Qa -> Q0 conversion, due to the uncertainty on a and 2326005900040 an average 7 % uncertainty on the recommended effective2326005900041 resonance energy factor for the analyte, taken from 2326005900042 references. 2326005900043 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326005900044 Table 6 of J,JRN,302,631,2014. 2326005900045 (COREL,23260062) Average Q0 . 2326005900046 ENDBIB 44 0 2326005900047 COMMON 2 3 2326005900048 EN-MIN-NM EN-MEAN-DN 2326005900049 EV EV 2326005900050 0.5 0.0253 2326005900051 ENDCOMMON 3 0 2326005900052 DATA 4 1 2326005900053 DATA 1DATA-ERR 1DATA 2DATA-ERR 2 2326005900054 NO-DIM PER-CENT NO-DIM PER-CENT 2326005900055 9.71 3. 7.16 2. 2326005900056 ENDDATA 3 0 2326005900057 ENDSUBENT 56 0 2326005999999 SUBENT 23260060 20141210 22412326006000001 BIB 9 59 2326006000002 REACTION 1((78-PT-196(N,G)78-PT-197,,RI)// 2326006000003 (78-PT-196(N,G)78-PT-197,,SIG)) 2326006000004 2((78-PT-196(N,G)78-PT-197,,RI)// 2326006000005 (78-PT-196(N,G)78-PT-197,,SIG)) 2326006000006 Q0 value (ratio of resonance integral to thermal 2326006000007 neutron activation cross-section) 2326006000008 SAMPLE - Provider - Goodfellow 2326006000009 Matrix - Wire 2326006000010 Elemental content, % weight > 99.99 2326006000011 Average sample thickness h,mm - 0.5 2326006000012 - Provider - Alfa Aesar 2326006000013 Matrix - Foil,Ru alloy 2326006000014 Elemental content, % weight - 95.35 2326006000015 Average sample thickness h,mm - 0.05 2326006000016 - Provider - Alfa Aesar 2326006000017 Matrix - Liquid on paper 2326006000018 Elemental content, % weight - 0.1 2326006000019 Average sample thickness h,mm - 1.25 2326006000020 DECAY-DATA (78-PT-197-G,19.892HR,DG,191.4,0.0370,DG,268.8,0.0023) 2326006000021 METHOD Measurement at channels: 2326006000022 S84 2326006000023 Y4 2326006000024 X26 2326006000025 ANALYSIS The Q0 factors were determined by 2326006000026 approaches: 2326006000027 1- the classical method: from the mean (AVG) and 2326006000028 observed SD of the results from all channels employed, 2326006000029 when inputting the recommended Er value from 2326006000030 references - 291. eV . 2326006000031 2- the a-vector method applied on up to 3 irradiation 2326006000032 channels: leading to simultaneous Q0 and Er 2326006000033 determination. 2326006000034 MISC-COL (MISC) Effective resonance energy Er defined by 2326006000035 a-vector method. 2326006000036 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326006000037 Uncertainty in the Q0 determination for for the simple 2326006000038 case of one determination in one irradiation channel 2326006000039 with one standard, given no type-B uncertainties 2326006000040 contributions from the FCd = 1 and neutron 2326006000041 self-shielding effects is on average 2326006000042 2.5 % for foils, 2.6 % for compounds; 2326006000043 include contributions from : 2326006000044 - The combined uncertainty of 1.1 % for foils and 1.2 %2326006000045 for liquids/compounds in the parameter OMEGACd . 2326006000046 - A combined type-B uncertainty from the comparator Qa 2326006000047 factor for channels X26 up to 2.1 %, S84 - 1.8 % . 2326006000048 - A combined type-B uncertainty of 1.2 % during 2326006000049 Qa -> Q0 conversion, due to the uncertainty on a and 2326006000050 an average 7 % uncertainty on the recommended effective2326006000051 resonance energy factor for the analyte, taken from 2326006000052 references. 2326006000053 ADD-RES Measured k0-values with one-sigma uncertainty: 2326006000054 E-gamma,keV k0, no-dim. 2326006000055 191.4 7.51E-5 (+-1.5%) 2326006000056 268.8 4.67E-6 (+-1.4) 2326006000057 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326006000058 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326006000059 Table 6 of J,JRN,302,631,2014. 2326006000060 1(DEP,23260065) Q0 measured at different channels. 2326006000061 ENDBIB 59 0 2326006000062 COMMON 2 3 2326006000063 EN-MIN-NM EN-MEAN-DN 2326006000064 EV EV 2326006000065 0.5 0.0253 2326006000066 ENDCOMMON 3 0 2326006000067 DATA 6 1 2326006000068 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326006000069 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326006000070 8.17 12. 9.57 4. 5319. 5. 2326006000071 ENDDATA 3 0 2326006000072 ENDSUBENT 71 0 2326006099999 SUBENT 23260061 20141210 22412326006100001 BIB 7 47 2326006100002 REACTION 1((78-PT-196(N,G)78-PT-197,,RI)// 2326006100003 (78-PT-196(N,G)78-PT-197,,SIG)) 2326006100004 2((78-PT-196(N,G)78-PT-197,,RI)// 2326006100005 (78-PT-196(N,G)78-PT-197,,SIG)) 2326006100006 3((78-PT-196(N,G)78-PT-197,,RI)// 2326006100007 (78-PT-196(N,G)78-PT-197,,SIG)) 2326006100008 Q0 value (ratio of resonance integral to thermal 2326006100009 neutron activation cross-section) 2326006100010 SAMPLE - Provider - Goodfellow 2326006100011 Matrix - Wire 2326006100012 Elemental content, % weight > 99.99 2326006100013 Average sample thickness h,mm - 0.5 2326006100014 - Provider - Alfa Aesar 2326006100015 Matrix - Foil,Ru alloy 2326006100016 Elemental content, % weight - 95.35 2326006100017 Average sample thickness h,mm - 0.05 2326006100018 - Provider - Alfa Aesar 2326006100019 Matrix - Liquid on paper 2326006100020 Elemental content, % weight - 0.1 2326006100021 Average sample thickness h,mm - 1.25 2326006100022 DECAY-DATA (78-PT-197-G,19.892HR,DG,191.4,0.0370,DG,268.8,0.0023) 2326006100023 METHOD Measurement at channels: 2326006100024 1 S84 2326006100025 2 Y4 2326006100026 3 X26 2326006100027 ANALYSIS The Q0 factors were determined by inputting the 2326006100028 recommended Er value from references - 291. eV . 2326006100029 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326006100030 Uncertainty in the Q0 determination for for the simple 2326006100031 case of one determination in one irradiation channel 2326006100032 with one standard, given no type-B uncertainties 2326006100033 contributions from the FCd = 1 and neutron 2326006100034 self-shielding effects is on average 2326006100035 2.5 % for foils, 2.6 % for compounds; 2326006100036 include contributions from : 2326006100037 - The combined uncertainty of 1.1 % for foils and 1.2 %2326006100038 for liquids/compounds in the parameter OMEGACd . 2326006100039 - A combined type-B uncertainty from the comparator Qa 2326006100040 factor for channels X26 up to 2.1 %, S84 - 1.8 % . 2326006100041 - A combined type-B uncertainty of 1.2 % during 2326006100042 Qa -> Q0 conversion, due to the uncertainty on a and 2326006100043 an average 7 % uncertainty on the recommended effective2326006100044 resonance energy factor for the analyte, taken from 2326006100045 references. 2326006100046 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326006100047 Table 6 of J,JRN,302,631,2014. 2326006100048 (COREL,23260064) Average Q0 . 2326006100049 ENDBIB 47 0 2326006100050 COMMON 2 3 2326006100051 EN-MIN-NM EN-MEAN-DN 2326006100052 EV EV 2326006100053 0.5 0.0253 2326006100054 ENDCOMMON 3 0 2326006100055 DATA 6 1 2326006100056 DATA 1DATA-ERR 1DATA 2DATA-ERR 2DATA 3DATA-ERR 32326006100057 NO-DIM PER-CENT NO-DIM PER-CENT NO-DIM PER-CENT 2326006100058 9.55 3. 7.98 2. 6.97 2. 2326006100059 ENDDATA 3 0 2326006100060 ENDSUBENT 59 0 2326006199999 SUBENT 23260062 20141210 22412326006200001 BIB 9 64 2326006200002 REACTION 1((78-PT-198(N,G)78-PT-199,,RI)// 2326006200003 (78-PT-198(N,G)78-PT-199,,SIG)) 2326006200004 2((78-PT-198(N,G)78-PT-199,,RI)// 2326006200005 (78-PT-198(N,G)78-PT-199,,SIG)) 2326006200006 Q0 value (ratio of resonance integral to thermal 2326006200007 neutron activation cross-section) 2326006200008 SAMPLE - Provider - Goodfellow 2326006200009 Matrix - Wire 2326006200010 Elemental content, % weight > 99.99 2326006200011 Average sample thickness h,mm - 0.5 2326006200012 - Provider - Alfa Aesar 2326006200013 Matrix - Foil,Ru alloy 2326006200014 Elemental content, % weight - 95.35 2326006200015 Average sample thickness h,mm - 0.05 2326006200016 - Provider - Alfa Aesar 2326006200017 Matrix - Liquid on paper 2326006200018 Elemental content, % weight - 0.1 2326006200019 Average sample thickness h,mm - 1.25 2326006200020 DECAY-DATA (78-PT-199-G,30.8MIN,DG,493.8,0.0447,DG,543.0,0.1174, 2326006200021 DG,714.6,0.0145) 2326006200022 (79-AU-199,3.139D,DG,158.4,0.400,DG,208.2,0.0872) 2326006200023 METHOD Measurement at channels: 2326006200024 S84 2326006200025 Y4 2326006200026 X26 2326006200027 ANALYSIS The Q0 factors were determined by 2326006200028 approaches: 2326006200029 1- the classical method: from the mean (AVG) and 2326006200030 observed SD of the results from all channels employed, 2326006200031 when inputting the recommended Er value from 2326006200032 references - 106. eV (+-3.) . 2326006200033 2- the a-vector method applied on up to 3 irradiation 2326006200034 channels: leading to simultaneous Q0 and Er 2326006200035 determination. 2326006200036 MISC-COL (MISC) Effective resonance energy Er defined by 2326006200037 a-vector method. 2326006200038 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326006200039 Uncertainty in the Q0 determination for for the simple 2326006200040 case of one determination in one irradiation channel 2326006200041 with one standard, given no type-B uncertainties 2326006200042 contributions from the FCd = 1 and neutron 2326006200043 self-shielding effects is on average 2326006200044 2.5 % for foils, 2.6 % for compounds; 2326006200045 include contributions from : 2326006200046 - The combined uncertainty of 1.1 % for foils and 1.2 %2326006200047 for liquids/compounds in the parameter OMEGACd . 2326006200048 - A combined type-B uncertainty from the comparator Qa 2326006200049 factor for channels X26 up to 2.1 %, S84 - 1.8 % . 2326006200050 - A combined type-B uncertainty of 1.2 % during 2326006200051 Qa -> Q0 conversion, due to the uncertainty on a and 2326006200052 an average 7 % uncertainty on the recommended effective2326006200053 resonance energy factor for the analyte, taken from 2326006200054 references. 2326006200055 ADD-RES Measured k0-values with one-sigma uncertainty: 2326006200056 E-gamma,keV k0, no-dim. 2326006200057 493.8 1.15E-4 (+-1.0%) 2326006200058 543.0 3.00E-4 (+-1.0%) 2326006200059 714.6 3.72E-5 (+-1.0%) 2326006200060 158.4 1.04E-3 (+-1.1%) 2326006200061 208.2 2.26E-4 (+-1.0%) 2326006200062 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326006200063 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326006200064 Table 6 of J,JRN,302,631,2014. 2326006200065 1(DEP,23260067) Q0 measured at different channels. 2326006200066 ENDBIB 64 0 2326006200067 COMMON 2 3 2326006200068 EN-MIN-NM EN-MEAN-DN 2326006200069 EV EV 2326006200070 0.5 0.0253 2326006200071 ENDCOMMON 3 0 2326006200072 DATA 6 1 2326006200073 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326006200074 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326006200075 16.9 2. 17.0 2. 114. 8. 2326006200076 ENDDATA 3 0 2326006200077 ENDSUBENT 76 0 2326006299999 SUBENT 23260063 20141210 22412326006300001 BIB 7 49 2326006300002 REACTION 1((78-PT-198(N,G)78-PT-199,,RI)// 2326006300003 (78-PT-198(N,G)78-PT-199,,SIG)) 2326006300004 2((78-PT-198(N,G)78-PT-199,,RI)// 2326006300005 (78-PT-198(N,G)78-PT-199,,SIG)) 2326006300006 3((78-PT-198(N,G)78-PT-199,,RI)// 2326006300007 (78-PT-198(N,G)78-PT-199,,SIG)) 2326006300008 Q0 value (ratio of resonance integral to thermal 2326006300009 neutron activation cross-section) 2326006300010 SAMPLE - Provider - Goodfellow 2326006300011 Matrix - Wire 2326006300012 Elemental content, % weight > 99.99 2326006300013 Average sample thickness h,mm - 0.5 2326006300014 - Provider - Alfa Aesar 2326006300015 Matrix - Foil,Ru alloy 2326006300016 Elemental content, % weight - 95.35 2326006300017 Average sample thickness h,mm - 0.05 2326006300018 - Provider - Alfa Aesar 2326006300019 Matrix - Liquid on paper 2326006300020 Elemental content, % weight - 0.1 2326006300021 Average sample thickness h,mm - 1.25 2326006300022 DECAY-DATA (78-PT-199-G,30.8MIN,DG,493.8,0.0447,DG,543.0,0.1174, 2326006300023 DG,714.6,0.0145) 2326006300024 (79-AU-199,3.139D,DG,158.4,0.400,DG,208.2,0.0872) 2326006300025 METHOD Measurement at channels: 2326006300026 1 S84 2326006300027 2 Y4 2326006300028 3 X26 2326006300029 ANALYSIS The Q0 factors were determined by inputting the 2326006300030 recommended Er value from references - 106. eV (+-3.) .2326006300031 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326006300032 Uncertainty in the Q0 determination for for the simple 2326006300033 case of one determination in one irradiation channel 2326006300034 with one standard, given no type-B uncertainties 2326006300035 contributions from the FCd = 1 and neutron 2326006300036 self-shielding effects is on average 2326006300037 2.5 % for foils, 2.6 % for compounds; 2326006300038 include contributions from : 2326006300039 - The combined uncertainty of 1.1 % for foils and 1.2 %2326006300040 for liquids/compounds in the parameter OMEGACd . 2326006300041 - A combined type-B uncertainty from the comparator Qa 2326006300042 factor for channels X26 up to 2.1 %, S84 - 1.8 % . 2326006300043 - A combined type-B uncertainty of 1.2 % during 2326006300044 Qa -> Q0 conversion, due to the uncertainty on a and 2326006300045 an average 7 % uncertainty on the recommended effective2326006300046 resonance energy factor for the analyte, taken from 2326006300047 references. 2326006300048 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326006300049 Table 6 of J,JRN,302,631,2014. 2326006300050 (COREL,23260066) Average Q0 . 2326006300051 ENDBIB 49 0 2326006300052 COMMON 2 3 2326006300053 EN-MIN-NM EN-MEAN-DN 2326006300054 EV EV 2326006300055 0.5 0.0253 2326006300056 ENDCOMMON 3 0 2326006300057 DATA 6 1 2326006300058 DATA 1DATA-ERR 1DATA 2DATA-ERR 2DATA 3DATA-ERR 32326006300059 NO-DIM PER-CENT NO-DIM PER-CENT NO-DIM PER-CENT 2326006300060 16.7 2. 17.1 2. 16.7 3. 2326006300061 ENDDATA 3 0 2326006300062 ENDSUBENT 61 0 2326006399999 SUBENT 23260064 20141210 22412326006400001 BIB 9 59 2326006400002 REACTION 1((90-TH-232(N,G)90-TH-233,,RI)// 2326006400003 (90-TH-232(N,G)90-TH-233,,SIG)) 2326006400004 2((90-TH-232(N,G)90-TH-233,,RI)// 2326006400005 (90-TH-232(N,G)90-TH-233,,SIG)) 2326006400006 Q0 value (ratio of resonance integral to thermal 2326006400007 neutron activation cross-section) 2326006400008 SAMPLE - Provider - IRMM 2326006400009 Matrix - Wire, Al alloy 2326006400010 Elemental content, % weight - 0.819 2326006400011 Average sample thickness h,mm - 1. 2326006400012 DECAY-DATA (90-TH-233,22.3MIN) 2326006400013 (91-PA-233,26.97D,DG,300.1,0.0663,DG,311.9,0.385, 2326006400014 DG,340.5,0.0445,DG,375.4,0.00679,DG,398.5,0.01391, 2326006400015 DG,415.8,0.0173) 2326006400016 METHOD Measurement at channels: 2326006400017 S84 2326006400018 Y4 2326006400019 X26 2326006400020 ANALYSIS The Q0 factors were determined by 2326006400021 approaches: 2326006400022 1- the classical method: from the mean (AVG) and 2326006400023 observed SD of the results from all channels employed, 2326006400024 when inputting the recommended Er value from 2326006400025 references - 54.4 eV (+-1.) . 2326006400026 2- the a-vector method applied on up to 3 irradiation 2326006400027 channels: leading to simultaneous Q0 and Er 2326006400028 determination. 2326006400029 MISC-COL (MISC) Effective resonance energy Er defined by 2326006400030 a-vector method. 2326006400031 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326006400032 Uncertainty in the Q0 determination for for the simple 2326006400033 case of one determination in one irradiation channel 2326006400034 with one standard, given no type-B uncertainties 2326006400035 contributions from the FCd = 1 and neutron 2326006400036 self-shielding effects is on average 2326006400037 2.5 % for foils, 2.6 % for compounds; 2326006400038 include contributions from : 2326006400039 - The combined uncertainty of 1.1 % for foils and 1.2 %2326006400040 for liquids/compounds in the parameter OMEGACd . 2326006400041 - A combined type-B uncertainty from the comparator Qa 2326006400042 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326006400043 S84 - 1.8 % . 2326006400044 - A combined type-B uncertainty of 1.2 % during 2326006400045 Qa -> Q0 conversion, due to the uncertainty on a and 2326006400046 an average 7 % uncertainty on the recommended effective2326006400047 resonance energy factor for the analyte, taken from 2326006400048 references. 2326006400049 ADD-RES Measured k0-values with one-sigma uncertainty: 2326006400050 E-gamma,keV k0, no-dim. 2326006400051 300.1 4.42E-3 (+-1.7%) 2326006400052 311.9 2.57E-2 (+-1.7%) 2326006400053 340.5 2.98E-3 (+-1.7%) 2326006400054 375.4 4.51E-4 (+-1.7%) 2326006400055 398.5 9.29E-4 (+-1.8%) 2326006400056 415.8 1.15E-3 (+-1.8%) 2326006400057 STATUS (TABLE) Table 5 of J,JRN,302,655,2014; 2326006400058 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326006400059 Table 6 of J,JRN,302,631,2014. 2326006400060 1(DEP,23260069) Q0 measured at different channels. 2326006400061 ENDBIB 59 0 2326006400062 COMMON 2 3 2326006400063 EN-MIN-NM EN-MEAN-DN 2326006400064 EV EV 2326006400065 0.5 0.0253 2326006400066 ENDCOMMON 3 0 2326006400067 DATA 6 1 2326006400068 DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC MISC-ERR 2326006400069 NO-DIM PER-CENT NO-DIM PER-CENT EV PER-CENT 2326006400070 11.8 2. 11.7 2. 51.7 1. 2326006400071 ENDDATA 3 0 2326006400072 ENDSUBENT 71 0 2326006499999 SUBENT 23260065 20141210 22412326006500001 BIB 7 43 2326006500002 REACTION 1((90-TH-232(N,G)90-TH-233,,RI)// 2326006500003 (90-TH-232(N,G)90-TH-233,,SIG)) 2326006500004 2((90-TH-232(N,G)90-TH-233,,RI)// 2326006500005 (90-TH-232(N,G)90-TH-233,,SIG)) 2326006500006 3((90-TH-232(N,G)90-TH-233,,RI)// 2326006500007 (90-TH-232(N,G)90-TH-233,,SIG)) 2326006500008 Q0 value (ratio of resonance integral to thermal 2326006500009 neutron activation cross-section) 2326006500010 SAMPLE - Provider - IRMM 2326006500011 Matrix - Wire, Al alloy 2326006500012 Elemental content, % weight - 0.819 2326006500013 Average sample thickness h,mm - 1. 2326006500014 DECAY-DATA (90-TH-233,22.3MIN) 2326006500015 (91-PA-233,26.97D,DG,300.1,0.0663,DG,311.9,0.385, 2326006500016 DG,340.5,0.0445,DG,375.4,0.00679,DG,398.5,0.01391, 2326006500017 DG,415.8,0.0173) 2326006500018 METHOD Measurement at channels: 2326006500019 1 S84 2326006500020 2 Y4 2326006500021 3 X26 2326006500022 ANALYSIS The Q0 factors were determined by inputting the 2326006500023 recommended Er value from references - 54.4 eV (+-1.) .2326006500024 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326006500025 Uncertainty in the Q0 determination for for the simple 2326006500026 case of one determination in one irradiation channel 2326006500027 with one standard, given no type-B uncertainties 2326006500028 contributions from the FCd = 1 and neutron 2326006500029 self-shielding effects is on average 2326006500030 2.5 % for foils, 2.6 % for compounds; 2326006500031 include contributions from : 2326006500032 - The combined uncertainty of 1.1 % for foils and 1.2 %2326006500033 for liquids/compounds in the parameter OMEGACd . 2326006500034 - A combined type-B uncertainty from the comparator Qa 2326006500035 factor for channels X26 up to 2.1 %, Y4 - 1.9 % , 2326006500036 S84 - 1.8 % . 2326006500037 - A combined type-B uncertainty of 1.2 % during 2326006500038 Qa -> Q0 conversion, due to the uncertainty on a and 2326006500039 an average 7 % uncertainty on the recommended effective2326006500040 resonance energy factor for the analyte, taken from 2326006500041 references. 2326006500042 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326006500043 Table 6 of J,JRN,302,631,2014. 2326006500044 (COREL,23260068) Average Q0. 2326006500045 ENDBIB 43 0 2326006500046 COMMON 2 3 2326006500047 EN-MIN-NM EN-MEAN-DN 2326006500048 EV EV 2326006500049 0.5 0.0253 2326006500050 ENDCOMMON 3 0 2326006500051 DATA 6 1 2326006500052 DATA 1DATA-ERR 1DATA 2DATA-ERR 2DATA 3DATA-ERR 32326006500053 NO-DIM PER-CENT NO-DIM PER-CENT NO-DIM PER-CENT 2326006500054 11.8 4. 11.8 3. 11.8 2. 2326006500055 ENDDATA 3 0 2326006500056 ENDSUBENT 55 0 2326006599999 SUBENT 23260066 20141210 22412326006600001 BIB 4 9 2326006600002 REACTION (19-K-41(N,G)19-K-42,,SIG) 2326006600003 SIG-0 - the neutron capture cross-section 2326006600004 for neutrons at an average energy of E0=25.3 meV 2326006600005 or velocity v0=2200 m/s. 2326006600006 ANALYSIS Derived from directly measured data. 2326006600007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326006600008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326006600009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326006600010 (DEP,23260067) Directly measured data. 2326006600011 ENDBIB 9 0 2326006600012 COMMON 1 3 2326006600013 EN 2326006600014 EV 2326006600015 0.0253 2326006600016 ENDCOMMON 3 0 2326006600017 DATA 2 1 2326006600018 DATA DATA-ERR 2326006600019 B B 2326006600020 1.451 0.003 2326006600021 ENDDATA 3 0 2326006600022 ENDSUBENT 21 0 2326006699999 SUBENT 23260067 20141210 22412326006700001 BIB 7 20 2326006700002 REACTION (19-K-41(N,G)19-K-42,,SIG) 2326006700003 Effective thermal neutron cross-section. 2326006700004 SAMPLE Provider - Alfa Aesar, 2326006700005 Matrix - Liquid on paper, 2326006700006 Elemental content, % weight - 0.1 2326006700007 Average sample thickness h,mm - 1.25 2326006700008 (19-K-41,NAT=0.067302) 6.7302(44) %. 2326006700009 DECAY-DATA ((1.)19-K-42,12.36HR,DG,312.7,0.00336) 2326006700010 ((2.)19-K-42,12.36HR,DG,1524.7,0.1808) 2326006700011 METHOD Y4 channel. 4 samples x 2 irradiation. 2326006700012 ANALYSIS An effective thermal neutron cross-section SIG was 2326006700013 extrapolated with aid of the k0-definition, atomic 2326006700014 weight, isotopic composition, the gamma intensities 2326006700015 values. 2326006700016 Defined according to their ADS(activation decay scheme,2326006700017 including decay branching factors). 2326006700018 ERR-ANALYS Not given. 2326006700019 Uncertainty on exp. SIG value comes from to the obs. SD2326006700020 between all available gamma-lines. 2326006700021 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326006700022 ENDBIB 20 0 2326006700023 COMMON 1 3 2326006700024 EN-MEAN 2326006700025 EV 2326006700026 0.0253 2326006700027 ENDCOMMON 3 0 2326006700028 DATA 2 2 2326006700029 DATA DECAY-FLAG 2326006700030 B NO-DIM 2326006700031 1.449 1. 2326006700032 1.453 2. 2326006700033 ENDDATA 4 0 2326006700034 ENDSUBENT 33 0 2326006799999 SUBENT 23260068 20141210 22412326006800001 BIB 4 9 2326006800002 REACTION (24-CR-50(N,G)24-CR-51,,SIG) 2326006800003 SIG-0 - the neutron capture cross-section 2326006800004 for neutrons at an average energy of E0=25.3 meV 2326006800005 or velocity v0=2200 m/s. 2326006800006 ANALYSIS Derived from directly measured data. 2326006800007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326006800008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326006800009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326006800010 (DEP,23260069) Directly measured data. 2326006800011 ENDBIB 9 0 2326006800012 COMMON 1 3 2326006800013 EN 2326006800014 EV 2326006800015 0.0253 2326006800016 ENDCOMMON 3 0 2326006800017 DATA 2 1 2326006800018 DATA DATA-ERR 2326006800019 B B 2326006800020 14.41 0.13 2326006800021 ENDDATA 3 0 2326006800022 ENDSUBENT 21 0 2326006899999 SUBENT 23260069 20141210 22412326006900001 BIB 7 22 2326006900002 REACTION (24-CR-50(N,G)24-CR-51,,SIG) 2326006900003 Effective thermal neutron cross-section. 2326006900004 SAMPLE Provider - Goodfellow IRMM 2326006900005 Matrix - Slab Foil,Al Alloy2326006900006 Elemental content, % weight > 99.99 10. 2326006900007 Average sample thickness h,mm - 0.05 0.8 2326006900008 (24-CR-50,NAT=0.04345) 4.345(13) % . 2326006900009 DECAY-DATA (24-CR-51,27.7D,DG,320.1,0.0991) 2326006900010 METHOD Measurements at channels S84, Y4 - 2326006900011 5 samples from IRMM in 2 irrad.; 2326006900012 10 samples from GF in 3 irrad. 2326006900013 ANALYSIS Derived from directly measured data. 2326006900014 An effective thermal neutron cross-section SIG was 2326006900015 extrapolated with aid of the k0-definition, atomic 2326006900016 weight, isotopic composition, the gamma intensities 2326006900017 values. 2326006900018 Defined according to their ADS(activation decay scheme,2326006900019 including decay branching factors). 2326006900020 ERR-ANALYS Uncertainty is not given. 2326006900021 Uncertainty on exp. SIG value comes from to the obs. SD2326006900022 between all available gamma-lines. 2326006900023 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326006900024 ENDBIB 22 0 2326006900025 COMMON 1 3 2326006900026 EN-MEAN 2326006900027 EV 2326006900028 0.0253 2326006900029 ENDCOMMON 3 0 2326006900030 DATA 1 1 2326006900031 DATA 2326006900032 B 2326006900033 14.41 2326006900034 ENDDATA 3 0 2326006900035 ENDSUBENT 34 0 2326006999999 SUBENT 23260070 20141210 22412326007000001 BIB 5 10 2326007000002 REACTION (38-SR-84(N,G)38-SR-85-M,,SIG) 2326007000003 SIG-0 - the neutron capture cross-section 2326007000004 for neutrons at an average energy of E0=25.3 meV 2326007000005 or velocity v0=2200 m/s. 2326007000006 DECAY-DATA (38-SR-85-M,67.63MIN) 2326007000007 ANALYSIS Derived from directly measured data. 2326007000008 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326007000009 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326007000010 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326007000011 (DEP,23260071) Directly measured data. 2326007000012 ENDBIB 10 0 2326007000013 COMMON 1 3 2326007000014 EN 2326007000015 EV 2326007000016 0.0253 2326007000017 ENDCOMMON 3 0 2326007000018 DATA 2 1 2326007000019 DATA DATA-ERR 2326007000020 B B 2326007000021 0.659 0.003 2326007000022 ENDDATA 3 0 2326007000023 ENDSUBENT 22 0 2326007099999 SUBENT 23260071 20141210 22412326007100001 BIB 7 22 2326007100002 REACTION (38-SR-84(N,G)38-SR-85-M,,SIG) 2326007100003 Effective thermal neutron cross-section. 2326007100004 SAMPLE - Provider - Sigma-Aldrich 2326007100005 Matrix - SrCO(3) 2326007100006 Elemental content, % weight - 59.351 2326007100007 - Average sample thickness h,mm - 0.2 2326007100008 - Average sample thickness h,mm - 0.6 2326007100009 (38-SR-54,NAT=0.0056) 0.56+-0.01 % 2326007100010 DECAY-DATA ((1.)38-SR-85-M,67.63MIN,DG,151.2,0.123) 2326007100011 ((2.)38-SR-85-M,67.63MIN,DG,231.9,0.841) 2326007100012 METHOD Measurements at channel S84: 2 samples x 5 irradiation,2326007100013 Cavity : 4 samples x 2 irradiation. 2326007100014 ANALYSIS An effective thermal neutron cross-section SIG was 2326007100015 extrapolated with aid of the k0-definition, atomic 2326007100016 weight, isotopic composition, the gamma intensities 2326007100017 values. 2326007100018 Defined according to their ADS(activation decay scheme,2326007100019 including decay branching factors). 2326007100020 ERR-ANALYS Not given. 2326007100021 Uncertainty on exp. SIG value comes from to the obs. SD2326007100022 between all available gamma-lines. 2326007100023 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326007100024 ENDBIB 22 0 2326007100025 COMMON 1 3 2326007100026 EN-MEAN 2326007100027 EV 2326007100028 0.0253 2326007100029 ENDCOMMON 3 0 2326007100030 DATA 2 2 2326007100031 DATA DECAY-FLAG 2326007100032 B NO-DIM 2326007100033 0.657 1. 2326007100034 0.661 2. 2326007100035 ENDDATA 4 0 2326007100036 ENDSUBENT 35 0 2326007199999 SUBENT 23260072 20151013 22452326007200001 BIB 5 12 2326007200002 REACTION (38-SR-84(N,G)38-SR-85-G,M+,SIG) 2326007200003 (F2*SIGm)+SIGg ; F2=0.866+-0.004 ; 2326007200004 SIG-0 - the neutron capture cross-section 2326007200005 for neutrons at an average energy of E0=25.3 meV 2326007200006 or velocity v0=2200 m/s. 2326007200007 ANALYSIS Derived from directly measured data. 2326007200008 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326007200009 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326007200010 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326007200011 (DEP,23260073) Directly measured data. 2326007200012 HISTORY (20151013A) SD: SF4=Sr-85->Sr-85g, SF5=M+ (IT=87%) in 2326007200013 REACTION code following N.Otsuka's remark. 2326007200014 ENDBIB 12 0 2326007200015 COMMON 1 3 2326007200016 EN 2326007200017 EV 2326007200018 0.0253 2326007200019 ENDCOMMON 3 0 2326007200020 DATA 2 1 2326007200021 DATA DATA-ERR 2326007200022 B B 2326007200023 0.700 0.007 2326007200024 ENDDATA 3 0 2326007200025 ENDSUBENT 24 0 2326007299999 SUBENT 23260073 20151013 22452326007300001 BIB 8 23 2326007300002 REACTION (38-SR-84(N,G)38-SR-85-G,M+,SIG) 2326007300003 Effective thermal neutron cross-section. 2326007300004 SAMPLE - Provider - Sigma-Aldrich 2326007300005 Matrix - SrCO(3) 2326007300006 Elemental content, % weight - 59.351 2326007300007 - Average sample thickness h,mm - 0.2 2326007300008 - Average sample thickness h,mm - 0.6 2326007300009 (38-SR-84,NAT=0.0056) 0.56+-0.01 % 2326007300010 DECAY-DATA (38-SR-85-G,64.84D,DG,514.0,0.985) 2326007300011 METHOD Measurements at channel Y4: 4 samples x 2 irradiation. 2326007300012 ANALYSIS An effective thermal neutron cross-section SIG was 2326007300013 extrapolated with aid of the k0-definition, atomic 2326007300014 weight, isotopic composition, the gamma intensities 2326007300015 values. 2326007300016 Defined according to their ADS(activation decay scheme,2326007300017 including decay branching factors). 2326007300018 SIG-0 was derived from directly measured data. 2326007300019 ERR-ANALYS Uncertainty is not given. 2326007300020 Uncertainty on exp. SIG value comes from to the obs. SD2326007300021 between all available gamma-lines. 2326007300022 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326007300023 HISTORY (20151013A) SD: SF4=Sr-85->Sr-85g, SF5=M+ (IT=87%) in 2326007300024 REACTION code following N.Otsuka's remark. 2326007300025 ENDBIB 23 0 2326007300026 COMMON 1 3 2326007300027 EN-MEAN 2326007300028 EV 2326007300029 0.0253 2326007300030 ENDCOMMON 3 0 2326007300031 DATA 1 1 2326007300032 DATA 2326007300033 B 2326007300034 0.700 2326007300035 ENDDATA 3 0 2326007300036 ENDSUBENT 35 0 2326007399999 SUBENT 23260074 20141210 22412326007400001 BIB 5 10 2326007400002 REACTION (38-SR-86(N,G)38-SR-87-M,,SIG) 2326007400003 SIG-0 - the neutron capture cross-section 2326007400004 for neutrons at an average energy of E0=25.3 meV 2326007400005 or velocity v0=2200 m/s. 2326007400006 DECAY-DATA (38-SR-87-M,2.803HR) 2326007400007 ANALYSIS Derived from directly measured data. 2326007400008 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326007400009 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326007400010 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326007400011 (DEP,23260075) Directly measured data. 2326007400012 ENDBIB 10 0 2326007400013 COMMON 1 3 2326007400014 EN 2326007400015 EV 2326007400016 0.0253 2326007400017 ENDCOMMON 3 0 2326007400018 DATA 2 1 2326007400019 DATA DATA-ERR 2326007400020 B B 2326007400021 0.791 0.009 2326007400022 ENDDATA 3 0 2326007400023 ENDSUBENT 22 0 2326007499999 SUBENT 23260075 20141210 22412326007500001 BIB 7 23 2326007500002 REACTION (38-SR-86(N,G)38-SR-87-M,,SIG) 2326007500003 Effective thermal neutron cross-section. 2326007500004 SAMPLE - Provider - Sigma-Aldrich 2326007500005 Matrix - SrCO(3) 2326007500006 Elemental content, % weight - 59.351 2326007500007 - Average sample thickness h,mm - 0.2 2326007500008 - Average sample thickness h,mm - 0.6 2326007500009 (38-SR-86,NAT=0.0986) 9.86+-0.01 % 2326007500010 DECAY-DATA (38-SR-87-M,2.803HR,DG,388.5,0.824) 2326007500011 METHOD Measurements at channels: 2326007500012 S84 * 2 samples x 4 irradiation ; 2326007500013 Y4 and Cavity 4 samples x 2 irradiation. 2326007500014 ANALYSIS An effective thermal neutron cross-section SIG was 2326007500015 extrapolated with aid of the k0-definition, atomic 2326007500016 weight, isotopic composition, the gamma intensities 2326007500017 values. 2326007500018 Defined according to their ADS(activation decay scheme,2326007500019 including decay branching factors). 2326007500020 SIG-0 was derived from directly measured data. 2326007500021 ERR-ANALYS Uncertainty is not given. 2326007500022 Uncertainty on exp. SIG value comes from to the obs. SD2326007500023 between all available gamma-lines. 2326007500024 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326007500025 ENDBIB 23 0 2326007500026 COMMON 1 3 2326007500027 EN 2326007500028 EV 2326007500029 0.0253 2326007500030 ENDCOMMON 3 0 2326007500031 DATA 1 1 2326007500032 DATA 2326007500033 B 2326007500034 0.791 2326007500035 ENDDATA 3 0 2326007500036 ENDSUBENT 35 0 2326007599999 SUBENT 23260076 20141210 22412326007600001 BIB 4 9 2326007600002 REACTION (40-ZR-96(N,G)40-ZR-97,,SIG) 2326007600003 SIG-0 - the neutron capture cross-section 2326007600004 for neutrons at an average energy of E0=25.3 meV 2326007600005 or velocity v0=2200 m/s. 2326007600006 ANALYSIS Derived from directly measured data. 2326007600007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326007600008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326007600009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326007600010 (DEP,23260077) Directly measured data. 2326007600011 ENDBIB 9 0 2326007600012 COMMON 1 3 2326007600013 EN 2326007600014 EV 2326007600015 0.0253 2326007600016 ENDCOMMON 3 0 2326007600017 DATA 2 1 2326007600018 DATA DATA-ERR 2326007600019 B B 2326007600020 0.0211 0.0002 2326007600021 ENDDATA 3 0 2326007600022 ENDSUBENT 21 0 2326007699999 SUBENT 23260077 20141210 22412326007700001 BIB 8 31 2326007700002 REACTION (40-ZR-96(N,G)40-ZR-97,,SIG) 2326007700003 Effective thermal neutron cross-section. 2326007700004 SAMPLE Provider - Alfa Aesar 2326007700005 Matrix - Foil 2326007700006 Elemental content, % weight - 99.8 2326007700007 Average sample thickness h,mm - 0.127 2326007700008 (40-ZR-96,NAT=0.0280) 2.80+-0.09 % 2326007700009 DECAY-DATA (40-ZR-97,16.74HR) 2326007700010 ((1.)41-NB-97-M,52.7SEC,DG,743.4,0.979) at Y4 . 2326007700011 ((2.)41-NB-97-G,72.1MIN,DG,657.9,0.982) at X26 . 2326007700012 METHOD Measurements at channel Y4 : 4 samples x 4 irradiation,2326007700013 X26 : 4 samples x 4 irradiation. 2326007700014 ANALYSIS An effective thermal neutron cross-section SIG was 2326007700015 extrapolated with aid of the k0-definition, atomic 2326007700016 weight, isotopic composition, the gamma intensities 2326007700017 values. 2326007700018 Defined according to their ADS(activation decay scheme,2326007700019 including decay branching factors). 2326007700020 ERR-ANALYS Not given. 2326007700021 Uncertainty on exp. SIG value comes from to the obs. SD2326007700022 between all available gamma-lines. 2326007700023 ADD-RES Measured k0-values with one-sigma uncertainty: 2326007700024 E-gamma,keV k0, no-dim. 2326007700025 753.4 1.28E-5 (+-1.7%) 2326007700026 657.9 1.30E-5 (+-1.7%) 2326007700027 Q0 value from literature - 251.6 (+-1.%) recommended; 2326007700028 adopted because Q0>>f for any channel in this work. 2326007700029 Er value from references - 338. eV (+-2%). 2326007700030 From: Table 5 of J,JRN,302,655,2014; 2326007700031 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326007700032 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326007700033 ENDBIB 31 0 2326007700034 COMMON 1 3 2326007700035 EN-MEAN 2326007700036 EV 2326007700037 0.0253 2326007700038 ENDCOMMON 3 0 2326007700039 DATA 2 2 2326007700040 DATA DECAY-FLAG 2326007700041 B NO-DIM 2326007700042 0.0211 1. 2326007700043 0.0213 2. 2326007700044 ENDDATA 4 0 2326007700045 ENDSUBENT 44 0 2326007799999 SUBENT 23260078 20141210 22412326007800001 BIB 4 9 2326007800002 REACTION (42-MO-100(N,G)42-MO-101,,SIG) 2326007800003 SIG-0 - the neutron capture cross-section 2326007800004 for neutrons at an average energy of E0=25.3 meV 2326007800005 or velocity v0=2200 m/s. 2326007800006 ANALYSIS Derived from directly measured data. 2326007800007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326007800008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326007800009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326007800010 (DEP,23260079) Directly measured data. 2326007800011 ENDBIB 9 0 2326007800012 COMMON 1 3 2326007800013 EN 2326007800014 EV 2326007800015 0.0253 2326007800016 ENDCOMMON 3 0 2326007800017 DATA 2 1 2326007800018 DATA DATA-ERR 2326007800019 B B 2326007800020 0.201 0.001 2326007800021 ENDDATA 3 0 2326007800022 ENDSUBENT 21 0 2326007899999 SUBENT 23260079 20141210 22412326007900001 BIB 7 27 2326007900002 REACTION (42-MO-100(N,G)42-MO-101,,SIG) 2326007900003 Effective thermal neutron cross-section. 2326007900004 SAMPLE Provider - Goodfellow 2326007900005 Matrix - Foil 2326007900006 Elemental content, % weight - 99.9 2326007900007 Average sample thickness h,mm - 0.025 2326007900008 (42-MO-100,NAT=0.0982) 9.82+-0.31 % 2326007900009 DECAY-DATA ((1.)42-MO-101,14.61MIN,DG,191.9,0.1821) 2326007900010 ((2.)42-MO-101,14.61MIN,DG,505.1,0.1162) 2326007900011 ((3.)42-MO-101,14.61MIN,DG,590.1,0.205) reference line 2326007900012 ((4.)42-MO-101,14.61MIN,DG,695.6,0.665) 2326007900013 ((5.)42-MO-101,14.61MIN,DG,1011.1,0.146) 2326007900014 ((6.)43-TC-101,14.2MIN,DG,127.2,0.0263) 2326007900015 ((7.)43-TC-101,14.2MIN,DG,184.1,0.0160) 2326007900016 ((8.)43-TC-101,14.2MIN,DG,306.8,0.890)reference line 2326007900017 ((9.)43-TC-101,14.2MIN,DG,545.1,0.0596) 2326007900018 METHOD Measurements at channel S84 : 1 samples x 8 irradiation2326007900019 ANALYSIS An effective thermal neutron cross-section SIG was 2326007900020 extrapolated with aid of the k0-definition, atomic 2326007900021 weight, isotopic composition, the gamma intensities 2326007900022 values. 2326007900023 Defined according to their ADS(activation decay scheme,2326007900024 including decay branching factors). 2326007900025 ERR-ANALYS Not given. 2326007900026 Uncertainty on exp. SIG value comes from to the obs. SD2326007900027 between all available gamma-lines. 2326007900028 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326007900029 ENDBIB 27 0 2326007900030 COMMON 1 3 2326007900031 EN-MEAN 2326007900032 EV 2326007900033 0.0253 2326007900034 ENDCOMMON 3 0 2326007900035 DATA 2 9 2326007900036 DATA DECAY-FLAG 2326007900037 B NO-DIM 2326007900038 0.201 1. 2326007900039 0.200 2. 2326007900040 0.200 3. 2326007900041 0.200 4. 2326007900042 0.201 5. 2326007900043 0.219 6. 2326007900044 0.201 7. 2326007900045 0.201 8. 2326007900046 0.201 9. 2326007900047 ENDDATA 11 0 2326007900048 ENDSUBENT 47 0 2326007999999 SUBENT 23260080 20141210 22412326008000001 BIB 4 9 2326008000002 REACTION (44-RU-96(N,G)44-RU-97,,SIG) 2326008000003 SIG-0 - the neutron capture cross-section 2326008000004 for neutrons at an average energy of E0=25.3 meV 2326008000005 or velocity v0=2200 m/s. 2326008000006 ANALYSIS Derived from directly measured data. 2326008000007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326008000008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326008000009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326008000010 (DEP,23260081) Directly measured data. 2326008000011 ENDBIB 9 0 2326008000012 COMMON 1 3 2326008000013 EN 2326008000014 EV 2326008000015 0.0253 2326008000016 ENDCOMMON 3 0 2326008000017 DATA 2 1 2326008000018 DATA DATA-ERR 2326008000019 B B 2326008000020 0.248 0.002 2326008000021 ENDDATA 3 0 2326008000022 ENDSUBENT 21 0 2326008099999 SUBENT 23260081 20141210 22412326008100001 BIB 7 27 2326008100002 REACTION (44-RU-96(N,G)44-RU-97,,SIG) 2326008100003 Effective thermal neutron cross-section. 2326008100004 SAMPLE - Provider - Alfa Aesar 2326008100005 Matrix - Foil,Pt Alloy 2326008100006 Elemental content, % weight - 4.6 2326008100007 Average sample thickness h,mm - 0.05 2326008100008 - Provider - Alfa Aesar 2326008100009 Matrix - Liquid on paper 2326008100010 Elemental content, % weight - 0.1 2326008100011 Average sample thickness h,mm - 1.25 2326008100012 (44-RU-96,NAT=0.0554) 5.54+-0.14 % 2326008100013 DECAY-DATA ((1.)44-RU-97,2.9D,DG,215.7,0.856) reference line 2326008100014 ((2.)44-RU-97,2.9D,DG,324.5,0.1079) 2326008100015 METHOD Measurements at channels - 2326008100016 Y4 : 4 samples x matrix, 2326008100017 S84 : 4 samples x matrix, 2326008100018 2 irradiation x channel. 2326008100019 ANALYSIS An effective thermal neutron cross-section SIG was 2326008100020 extrapolated with aid of the k0-definition, atomic 2326008100021 weight, isotopic composition, the gamma intensities 2326008100022 values. 2326008100023 Defined according to their ADS(activation decay scheme,2326008100024 including decay branching factors). 2326008100025 ERR-ANALYS Not given. 2326008100026 Uncertainty on exp. SIG value comes from to the obs. SD2326008100027 between all available gamma-lines. 2326008100028 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326008100029 ENDBIB 27 0 2326008100030 COMMON 1 3 2326008100031 EN-MEAN 2326008100032 EV 2326008100033 0.0253 2326008100034 ENDCOMMON 3 0 2326008100035 DATA 2 2 2326008100036 DATA DECAY-FLAG 2326008100037 B NO-DIM 2326008100038 0.2478 1. 2326008100039 0.2478 2. 2326008100040 ENDDATA 4 0 2326008100041 ENDSUBENT 40 0 2326008199999 SUBENT 23260082 20141210 22412326008200001 BIB 4 9 2326008200002 REACTION (44-RU-102(N,G)44-RU-103,,SIG) 2326008200003 SIG-0 - the neutron capture cross-section 2326008200004 for neutrons at an average energy of E0=25.3 meV 2326008200005 or velocity v0=2200 m/s. 2326008200006 ANALYSIS Derived from directly measured data. 2326008200007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326008200008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326008200009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326008200010 (DEP,23260083) Directly measured data. 2326008200011 ENDBIB 9 0 2326008200012 COMMON 1 3 2326008200013 EN 2326008200014 EV 2326008200015 0.0253 2326008200016 ENDCOMMON 3 0 2326008200017 DATA 2 1 2326008200018 DATA DATA-ERR 2326008200019 B B 2326008200020 1.241 0.001 2326008200021 ENDDATA 3 0 2326008200022 ENDSUBENT 21 0 2326008299999 SUBENT 23260083 20141210 22412326008300001 BIB 7 27 2326008300002 REACTION (44-RU-102(N,G)44-RU-103,,SIG) 2326008300003 Effective thermal neutron cross-section. 2326008300004 SAMPLE - Provider - Alfa Aesar 2326008300005 Matrix - Foil,Pt Alloy 2326008300006 Elemental content, % weight - 4.6 2326008300007 Average sample thickness h,mm - 0.05 2326008300008 - Provider - Alfa Aesar 2326008300009 Matrix - Liquid on paper 2326008300010 Elemental content, % weight - 0.1 2326008300011 Average sample thickness h,mm - 1.25 2326008300012 (44-RU-102,NAT=0.3155) 31.55+-0.14 % 2326008300013 DECAY-DATA ((1.)44-RU-103,39.35D,DG,497.1,0.910) reference line 2326008300014 ((2.)44-RU-103,39.35D,DG,610.3,0.0576) 2326008300015 METHOD Measurements at channels - 2326008300016 Y4 : 4 samples x matrix, 2326008300017 S84 : 4 samples x matrix. 2326008300018 2 irradiation x channel. 2326008300019 ANALYSIS An effective thermal neutron cross-section SIG was 2326008300020 extrapolated with aid of the k0-definition, atomic 2326008300021 weight, isotopic composition, the gamma intensities 2326008300022 values. 2326008300023 Defined according to their ADS(activation decay scheme,2326008300024 including decay branching factors). 2326008300025 ERR-ANALYS Not given. 2326008300026 Uncertainty on exp. SIG value comes from to the obs. SD2326008300027 between all available gamma-lines. 2326008300028 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326008300029 ENDBIB 27 0 2326008300030 COMMON 1 3 2326008300031 EN-MEAN 2326008300032 EV 2326008300033 0.0253 2326008300034 ENDCOMMON 3 0 2326008300035 DATA 2 2 2326008300036 DATA DECAY-FLAG 2326008300037 B NO-DIM 2326008300038 1.241 1. 2326008300039 1.242 2. 2326008300040 ENDDATA 4 0 2326008300041 ENDSUBENT 40 0 2326008399999 SUBENT 23260084 20141210 22412326008400001 BIB 4 9 2326008400002 REACTION (44-RU-104(N,G)44-RU-105,,SIG) 2326008400003 SIG-0 - the neutron capture cross-section 2326008400004 for neutrons at an average energy of E0=25.3 meV 2326008400005 or velocity v0=2200 m/s. 2326008400006 ANALYSIS Derived from directly measured data. 2326008400007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326008400008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326008400009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326008400010 (DEP,23260085) Directly measured data. 2326008400011 ENDBIB 9 0 2326008400012 COMMON 1 3 2326008400013 EN 2326008400014 EV 2326008400015 0.0253 2326008400016 ENDCOMMON 3 0 2326008400017 DATA 2 1 2326008400018 DATA DATA-ERR 2326008400019 B B 2326008400020 0.505 0.005 2326008400021 ENDDATA 3 0 2326008400022 ENDSUBENT 21 0 2326008499999 SUBENT 23260085 20181012 22732326008500001 BIB 8 35 2326008500002 REACTION (44-RU-104(N,G)44-RU-105,,SIG) 2326008500003 Effective thermal neutron cross-section. 2326008500004 SAMPLE - Provider - Alfa Aesar 2326008500005 Matrix - Foil,Pt Alloy 2326008500006 Elemental content, % weight - 4.6 2326008500007 Average sample thickness h,mm - 0.05 2326008500008 - Provider - Alfa Aesar 2326008500009 Matrix - Liquid on paper 2326008500010 Elemental content, % weight - 0.1 2326008500011 Average sample thickness h,mm - 1.25 2326008500012 (44-RU-104,NAT=0.1862) 18.62+-0.27 % 2326008500013 DECAY-DATA ((1.)44-RU-105,4.44HR,DG,262.8,0.0657) 2326008500014 ((2.)44-RU-105,4.44HR,DG,316.4,0.111) 2326008500015 ((3.)44-RU-105,4.44HR,DG,469.4,0.175) 2326008500016 ((4.)44-RU-105,4.44HR,DG,676.4,0.157) 2326008500017 ((5.)44-RU-105,4.44HR,DG,724.3,0.473) reference line 2326008500018 ((6.)45-RH-105-M,42.3SEC,DG,129.6,0.200) reference line2326008500019 ((7.)45-RH-105-G,35.36HR,DG,306.1,0.051) 2326008500020 ((8.)45-RH-105-G,35.36HR,DG,318.9,0.191) reference line2326008500021 METHOD Measurements at channels - 2326008500022 Y4 : 4 samples x matrix, 2326008500023 S84 : 4 samples x matrix. 2326008500024 2 irradiation x channel. 2326008500025 ANALYSIS An effective thermal neutron cross-section SIG was 2326008500026 extrapolated with aid of the k0-definition, atomic 2326008500027 weight, isotopic composition, the gamma intensities 2326008500028 values. 2326008500029 Defined according to their ADS(activation decay scheme,2326008500030 including decay branching factors). 2326008500031 ERR-ANALYS Not given. 2326008500032 Uncertainty on exp. SIG value comes from to the obs. SD2326008500033 between all available gamma-lines. 2326008500034 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326008500035 HISTORY (20181012A) SD: 134 mb -> 508 mb (typo in the article, 2326008500036 remark from Dr F.Farina Arbocco). 2326008500037 ENDBIB 35 0 2326008500038 COMMON 1 3 2326008500039 EN-MEAN 2326008500040 EV 2326008500041 0.0253 2326008500042 ENDCOMMON 3 0 2326008500043 DATA 2 8 2326008500044 DATA DECAY-FLAG 2326008500045 B NO-DIM 2326008500046 0.507 1. 2326008500047 0.508 2. 2326008500048 0.506 3. 2326008500049 0.505 4. 2326008500050 0.508 5. 2326008500051 0.508 6. 2326008500052 0.508 7. 2326008500053 0.499 8. 2326008500054 ENDDATA 10 0 2326008500055 ENDSUBENT 54 0 2326008599999 SUBENT 23260086 20141210 22412326008600001 BIB 4 9 2326008600002 REACTION (46-PD-108(N,G)46-PD-109,,SIG) 2326008600003 SIG-0 - the neutron capture cross-section 2326008600004 for neutrons at an average energy of E0=25.3 meV 2326008600005 or velocity v0=2200 m/s. 2326008600006 ANALYSIS Derived from directly measured data. 2326008600007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326008600008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326008600009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326008600010 (DEP,23260087) Directly measured data. 2326008600011 ENDBIB 9 0 2326008600012 COMMON 1 3 2326008600013 EN 2326008600014 EV 2326008600015 0.0253 2326008600016 ENDCOMMON 3 0 2326008600017 DATA 2 1 2326008600018 DATA DATA-ERR 2326008600019 B B 2326008600020 8.57 0.09 2326008600021 ENDDATA 3 0 2326008600022 ENDSUBENT 21 0 2326008699999 SUBENT 23260087 20141210 22412326008700001 BIB 7 27 2326008700002 REACTION (46-PD-108(N,G)46-PD-109,,SIG) 2326008700003 Effective thermal neutron cross-section. 2326008700004 SAMPLE Provider - Goodfellow 2326008700005 Matrix - Wire 2326008700006 Elemental content, % weight > 99.99 2326008700007 Average sample thickness h,mm - 0.5 2326008700008 (46-PD-108,0.2646) 26.46+-0.09 2326008700009 DECAY-DATA ((1.)46-PD-109-G,13.46HR,DG,311.4,0.00032) 2326008700010 ((2.)46-PD-109-G,13.46HR,DG,602.5,0.00008) 2326008700011 ((3.)46-PD-109-G,13.46HR,DG,636.3,0.00010) 2326008700012 ((4.)46-PD-109-G,13.46HR,DG,647.3,0.000244) 2326008700013 reference line. 2326008700014 ((5.)46-PD-109-G,13.46HR,DG,781.4,0.000112) 2326008700015 ((6.)47-AG-109-M,39.6SEC,DG,88.0,0.037) reference line 2326008700016 METHOD Measurements at channels - 2326008700017 Y4 : 4 samples x 2 irradiations, 2326008700018 Cavity : 2 samples x 4 irradiations. 2326008700019 ANALYSIS An effective thermal neutron cross-section SIG was 2326008700020 extrapolated with aid of the k0-definition, atomic 2326008700021 weight, isotopic composition, the gamma intensities 2326008700022 values. 2326008700023 Defined according to their ADS(activation decay scheme,2326008700024 including decay branching factors). 2326008700025 ERR-ANALYS Not given. 2326008700026 Uncertainty on exp. SIG value comes from to the obs. SD2326008700027 between all available gamma-lines. 2326008700028 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326008700029 ENDBIB 27 0 2326008700030 COMMON 1 3 2326008700031 EN-MEAN 2326008700032 EV 2326008700033 0.0253 2326008700034 ENDCOMMON 3 0 2326008700035 DATA 2 6 2326008700036 DATA DECAY-FLAG 2326008700037 B NO-DIM 2326008700038 8.49 1. 2326008700039 8.62 2. 2326008700040 8.70 3. 2326008700041 8.51 4. 2326008700042 8.53 5. 2326008700043 7.96 6. 2326008700044 ENDDATA 8 0 2326008700045 ENDSUBENT 44 0 2326008799999 SUBENT 23260088 20141210 22412326008800001 BIB 5 10 2326008800002 REACTION (46-PD-110(N,G)46-PD-111-M,,SIG) 2326008800003 SIG-0 - the neutron capture cross-section 2326008800004 for neutrons at an average energy of E0=25.3 meV 2326008800005 or velocity v0=2200 m/s. 2326008800006 DECAY-DATA (46-PD-111-M,5.5HR) 2326008800007 ANALYSIS Derived from directly measured data. 2326008800008 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326008800009 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326008800010 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326008800011 (DEP,23260089) Directly measured data. 2326008800012 ENDBIB 10 0 2326008800013 COMMON 1 3 2326008800014 EN 2326008800015 EV 2326008800016 0.0253 2326008800017 ENDCOMMON 3 0 2326008800018 DATA 2 1 2326008800019 DATA DATA-ERR 2326008800020 B B 2326008800021 0.0130 0.0002 2326008800022 ENDDATA 3 0 2326008800023 ENDSUBENT 22 0 2326008899999 SUBENT 23260089 20141210 22412326008900001 BIB 7 22 2326008900002 REACTION (46-PD-110(N,G)46-PD-111-M,,SIG) 2326008900003 Effective thermal neutron cross-section. 2326008900004 SAMPLE Provider - Goodfellow 2326008900005 Matrix - Wire 2326008900006 Elemental content, % weight > 99.99 2326008900007 Average sample thickness h,mm - 0.5 2326008900008 (46-PD-110,NAT=0.1172) 11.72+-0.09 % 2326008900009 DECAY-DATA (46-PD-111-M,5.5HR,DG,172.2,0.340) reference line 2326008900010 METHOD Measurements at channels - 2326008900011 Y4 : 4 samples x 2 irradiations, 2326008900012 Cavity : 2 samples x 4 irradiations. 2326008900013 ANALYSIS An effective thermal neutron cross-section SIG was 2326008900014 extrapolated with aid of the k0-definition, atomic 2326008900015 weight, isotopic composition, the gamma intensities 2326008900016 values. 2326008900017 Defined according to their ADS(activation decay scheme,2326008900018 including decay branching factors). 2326008900019 ERR-ANALYS Not given. 2326008900020 Uncertainty on exp. SIG value comes from to the obs. SD2326008900021 between all available gamma-lines. 2326008900022 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326008900023 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326008900024 ENDBIB 22 0 2326008900025 COMMON 1 3 2326008900026 EN-MEAN 2326008900027 EV 2326008900028 0.0253 2326008900029 ENDCOMMON 3 0 2326008900030 DATA 1 1 2326008900031 DATA 2326008900032 B 2326008900033 0.0130 2326008900034 ENDDATA 3 0 2326008900035 ENDSUBENT 34 0 2326008999999 SUBENT 23260090 20141210 22412326009000001 BIB 4 9 2326009000002 REACTION (46-PD-110(N,G)46-PD-111,,SIG) 2326009000003 SIG-0 - the neutron capture cross-section 2326009000004 for neutrons at an average energy of E0=25.3 meV 2326009000005 or velocity v0=2200 m/s. 2326009000006 ANALYSIS Derived from directly measured data. 2326009000007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326009000008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326009000009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326009000010 (DEP,23260091) Directly measured data. 2326009000011 ENDBIB 9 0 2326009000012 COMMON 1 3 2326009000013 EN 2326009000014 EV 2326009000015 0.0253 2326009000016 ENDCOMMON 3 0 2326009000017 DATA 2 1 2326009000018 DATA DATA-ERR 2326009000019 B B 2326009000020 0.291 0.004 2326009000021 ENDDATA 3 0 2326009000022 ENDSUBENT 21 0 2326009099999 SUBENT 23260091 20141210 22412326009100001 BIB 7 21 2326009100002 REACTION (46-PD-110(N,G)46-PD-111,,SIG) 2326009100003 Effective thermal neutron cross-section. 2326009100004 SAMPLE Provider - Goodfellow 2326009100005 Matrix - Wire 2326009100006 Elemental content, % weight > 99.99 2326009100007 Average sample thickness h,mm - 0.5 2326009100008 (46-PD-110,NAT=0.1172) 11.72+-0.9 % 2326009100009 DECAY-DATA (46-PD-111-G,23.4MIN) 2326009100010 ((1.)47-AG-111-G,7.45D,DG,245.4,0.0124) 2326009100011 ((2.)47-AG-111-G,7.45D,DG,342.0,0.0670) reference line 2326009100012 METHOD Measurement at channel Y4 2326009100013 ANALYSIS An effective thermal neutron cross-section SIG was 2326009100014 extrapolated with aid of the k0-definition, atomic 2326009100015 weight, isotopic composition, the gamma intensities 2326009100016 values. 2326009100017 Defined according to their ADS(activation decay scheme,2326009100018 including decay branching factors). 2326009100019 ERR-ANALYS Not given. 2326009100020 Uncertainty on exp. SIG value comes from to the obs. SD2326009100021 between all available gamma-lines. 2326009100022 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326009100023 ENDBIB 21 0 2326009100024 COMMON 1 3 2326009100025 EN-MEAN 2326009100026 EV 2326009100027 0.0253 2326009100028 ENDCOMMON 3 0 2326009100029 DATA 2 2 2326009100030 DATA DECAY-FLAG 2326009100031 B NO-DIM 2326009100032 0.2753 1. 2326009100033 0.3075 2. 2326009100034 ENDDATA 4 0 2326009100035 ENDSUBENT 34 0 2326009199999 SUBENT 23260092 20141210 22412326009200001 BIB 4 8 2326009200002 REACTION (46-PD-110(N,G)46-PD-111-M/G,,SIG/RAT) 2326009200003 DECAY-DATA (46-PD-111-G,23.4MIN) 2326009200004 (46-PD-111-M,5.5HR) 2326009200005 ANALYSIS No explanation. 2326009200006 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326009200007 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326009200008 (DEP,23260088) Metastable state c-s 2326009200009 (DEP,23260090) G+M c-s 2326009200010 ENDBIB 8 0 2326009200011 COMMON 1 3 2326009200012 EN 2326009200013 EV 2326009200014 0.0253 2326009200015 ENDCOMMON 3 0 2326009200016 DATA 1 1 2326009200017 DATA 2326009200018 NO-DIM 2326009200019 0.0466 2326009200020 ENDDATA 3 0 2326009200021 ENDSUBENT 20 0 2326009299999 SUBENT 23260093 20141210 22412326009300001 BIB 5 10 2326009300002 REACTION (47-AG-109(N,G)47-AG-110-M,,SIG) 2326009300003 SIG-0 - the neutron capture cross-section 2326009300004 for neutrons at an average energy of E0=25.3 meV 2326009300005 or velocity v0=2200 m/s. 2326009300006 DECAY-DATA (47-AG-110-M,249.8D) 2326009300007 ANALYSIS Derived from directly measured data. 2326009300008 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326009300009 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326009300010 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326009300011 (DEP,23260094) Directly measured data. 2326009300012 ENDBIB 10 0 2326009300013 COMMON 1 3 2326009300014 EN 2326009300015 EV 2326009300016 0.0253 2326009300017 ENDCOMMON 3 0 2326009300018 DATA 2 1 2326009300019 DATA DATA-ERR 2326009300020 B B 2326009300021 3.96 0.02 2326009300022 ENDDATA 3 0 2326009300023 ENDSUBENT 22 0 2326009399999 SUBENT 23260094 20141210 22412326009400001 BIB 7 35 2326009400002 REACTION (47-AG-109(N,G)47-AG-110-M,,SIG) 2326009400003 Effective thermal neutron cross-section. 2326009400004 SAMPLE Provider - IRMM 2326009400005 Matrix - Foil,Al alloy 2326009400006 Elemental content, % weight - 1. 2326009400007 Average sample thickness h,mm - 0.1 2326009400008 (47-AG-109,NAT=0.48161) 48.161+-0.008 % 2326009400009 DECAY-DATA ((1.)47-AG-110-M,249.8D,DG,446.8,0.037) 2326009400010 ((2.)47-AG-110-M,249.8D,DG,620.4,0.0273) 2326009400011 ((3.)47-AG-110-M,249.8D,DG,657.8,0.9561) reference line2326009400012 ((4.)47-AG-110-M,249.8D,DG,677.6,0.107) 2326009400013 ((5.)47-AG-110-M,249.8D,DG,687.0,0.0653) 2326009400014 ((6.)47-AG-110-M,249.8D,DG,706.7,0.1669) 2326009400015 ((7.)47-AG-110-M,249.8D,DG,744.3,0.0477) 2326009400016 ((8.)47-AG-110-M,249.8D,DG,763.9,0.226) 2326009400017 ((9.)47-AG-110-M,249.8D,DG,818.0,0.0743) 2326009400018 ((10.)47-AG-110-M,249.8D,DG,884.7,0.750) 2326009400019 ((11.)47-AG-110-M,249.8D,DG,937.5,0.350) 2326009400020 ((12.)47-AG-110-M,249.8D,DG,1384.3,0.251) 2326009400021 ((13.)47-AG-110-M,249.8D,DG,1475.8,0.0408) 2326009400022 ((14.)47-AG-110-M,249.8D,DG,1505.0,0.1333) 2326009400023 ((15.)47-AG-110-M,249.8D,DG,1562.3,0.0122) 2326009400024 METHOD Measurement at channels: 2326009400025 Y4 - 2 samples x 4 irradiations, 2326009400026 X26 - 4 samples x 2 irradiations. 2326009400027 ANALYSIS An effective thermal neutron cross-section SIG was 2326009400028 extrapolated with aid of the k0-definition, atomic 2326009400029 weight, isotopic composition, the gamma intensities 2326009400030 values. 2326009400031 Defined according to their ADS(activation decay scheme,2326009400032 including decay branching factors). 2326009400033 ERR-ANALYS Not given. 2326009400034 Uncertainty on exp. SIG value comes from to the obs. SD2326009400035 between all available gamma-lines. 2326009400036 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326009400037 ENDBIB 35 0 2326009400038 COMMON 1 3 2326009400039 EN-MEAN 2326009400040 EV 2326009400041 0.0253 2326009400042 ENDCOMMON 3 0 2326009400043 DATA 2 15 2326009400044 DATA DECAY-FLAG 2326009400045 B NO-DIM 2326009400046 3.98 1. 2326009400047 3.98 2. 2326009400048 3.96 3. 2326009400049 3.93 4. 2326009400050 3.99 5. 2326009400051 3.98 6. 2326009400052 3.98 7. 2326009400053 3.96 8. 2326009400054 3.93 9. 2326009400055 3.93 10. 2326009400056 3.95 11. 2326009400057 3.94 12. 2326009400058 3.97 13. 2326009400059 3.97 14. 2326009400060 3.99 15. 2326009400061 ENDDATA 17 0 2326009400062 ENDSUBENT 61 0 2326009499999 SUBENT 23260095 20141210 22412326009500001 BIB 5 10 2326009500002 REACTION (48-CD-114(N,G)48-CD-115-G,,SIG) 2326009500003 SIG-0 - the neutron capture cross-section 2326009500004 for neutrons at an average energy of E0=25.3 meV 2326009500005 or velocity v0=2200 m/s. 2326009500006 DECAY-DATA (48-CD-115-G,53.5HR) 2326009500007 ANALYSIS Derived from directly measured data. 2326009500008 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326009500009 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326009500010 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326009500011 (DEP,23260096) Directly measured data. 2326009500012 ENDBIB 10 0 2326009500013 COMMON 1 3 2326009500014 EN 2326009500015 EV 2326009500016 0.0253 2326009500017 ENDCOMMON 3 0 2326009500018 DATA 2 1 2326009500019 DATA DATA-ERR 2326009500020 B B 2326009500021 0.334 0.006 2326009500022 ENDDATA 3 0 2326009500023 ENDSUBENT 22 0 2326009599999 SUBENT 23260096 20141210 22412326009600001 BIB 7 21 2326009600002 REACTION (48-CD-114(N,G)48-CD-115-G,,SIG) 2326009600003 Effective thermal neutron cross-section. 2326009600004 SAMPLE Provider - NIST 2326009600005 Matrix - Liquid on paper 2326009600006 Elemental content, % weight - 1. 2326009600007 Average sample thickness h,mm - 1.25 2326009600008 (48-CD-114,NAT=0.2873) 28.73+-0.42 % 2326009600009 DECAY-DATA ((1.)48-CD-115-G,53.5HR,DG,527.9,0.275) reference line 2326009600010 ((2.)49-IN-115-M,4.486HR,DG,336.2,0.458) reference line2326009600011 METHOD Measurement at each channel: 2326009600012 - 2 samples x 2 irradiations. 2326009600013 ANALYSIS An effective thermal neutron cross-section SIG was 2326009600014 extrapolated with aid of the k0-definition, atomic 2326009600015 weight, isotopic composition, the gamma intensities 2326009600016 values. 2326009600017 Defined according to their ADS(activation decay scheme,2326009600018 including decay branching factors). 2326009600019 ERR-ANALYS Not given. 2326009600020 Uncertainty on exp. SIG value comes from to the obs. SD2326009600021 between all available gamma-lines. 2326009600022 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326009600023 ENDBIB 21 0 2326009600024 COMMON 1 3 2326009600025 EN-MEAN 2326009600026 EV 2326009600027 0.0253 2326009600028 ENDCOMMON 3 0 2326009600029 DATA 2 2 2326009600030 DATA DECAY-FLAG 2326009600031 B NO-DIM 2326009600032 0.339 1. 2326009600033 0.330 2. 2326009600034 ENDDATA 4 0 2326009600035 ENDSUBENT 34 0 2326009699999 SUBENT 23260097 20141210 22412326009700001 BIB 5 10 2326009700002 REACTION (49-IN-113(N,G)49-IN-114-M,,SIG) M+L(43.1msec) 2326009700003 SIG-0 - the neutron capture cross-section 2326009700004 for neutrons at an average energy of E0=25.3 meV 2326009700005 or velocity v0=2200 m/s. 2326009700006 DECAY-DATA (49-IN-114-M,49.51D) 2326009700007 ANALYSIS Derived from directly measured data. 2326009700008 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326009700009 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326009700010 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326009700011 (DEP,23260098) Directly measured data. 2326009700012 ENDBIB 10 0 2326009700013 COMMON 1 3 2326009700014 EN 2326009700015 EV 2326009700016 0.0253 2326009700017 ENDCOMMON 3 0 2326009700018 DATA 2 1 2326009700019 DATA DATA-ERR 2326009700020 B B 2326009700021 8.1 0.3 2326009700022 ENDDATA 3 0 2326009700023 ENDSUBENT 22 0 2326009799999 SUBENT 23260098 20141210 22412326009800001 BIB 7 33 2326009800002 REACTION (49-IN-113(N,G)49-IN-114-M,,SIG) M+L(43.1msec) 2326009800003 Effective thermal neutron cross-section. 2326009800004 SAMPLE Provider - IRMM 2326009800005 Average sample thickness h,mm - 0.1 2326009800006 -Matrix - Foil, Sn alloy 2326009800007 Elemental content, % weight - 15.4 2326009800008 -Matrix - Foil, Sn alloy 2326009800009 Elemental content, % weight - 5.15 2326009800010 -Matrix - Foil, Al alloy 2326009800011 Elemental content, % weight - 1. 2326009800012 -Matrix - Foil, Al alloy 2326009800013 Elemental content, % weight - 0.017 2326009800014 (49-IN-113,NAT=0.0429) 4.29+-0.05 % 2326009800015 DECAY-DATA (49-IN-114-L,43.1E-3SEC) 2326009800016 ((1.)49-IN-114-M,49.51D,DG,190.3,0.1556) 2326009800017 reference line2326009800018 ((2.)49-IN-114-M,49.51D,DG,558.4,0.0439) 2326009800019 ((3.)49-IN-114-M,49.51D,DG,725.2,0.0439) reference line2326009800020 METHOD Measurement at channels: 2326009800021 Y4 - 4 samples x material, 4 irradiations ( only 2326009800022 Al-alloy). 2326009800023 X26 - 4 samples x material, 4 irradiations ( only 2326009800024 Sn-alloy). 2326009800025 ANALYSIS An effective thermal neutron cross-section SIG was 2326009800026 extrapolated with aid of the k0-definition, atomic 2326009800027 weight, isotopic composition, the gamma intensities 2326009800028 values. 2326009800029 Defined according to their ADS(activation decay scheme,2326009800030 including decay branching factors). 2326009800031 ERR-ANALYS Not given. 2326009800032 Uncertainty on exp. SIG value comes from to the obs. SD2326009800033 between all available gamma-lines. 2326009800034 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326009800035 ENDBIB 33 0 2326009800036 COMMON 1 3 2326009800037 EN-MEAN 2326009800038 EV 2326009800039 0.0253 2326009800040 ENDCOMMON 3 0 2326009800041 DATA 2 3 2326009800042 DATA DECAY-FLAG 2326009800043 B NO-DIM 2326009800044 8.4 1. 2326009800045 7.9 2. 2326009800046 7.9 3. 2326009800047 ENDDATA 5 0 2326009800048 ENDSUBENT 47 0 2326009899999 SUBENT 23260099 20141210 22412326009900001 BIB 5 11 2326009900002 REACTION (49-IN-115(N,G)49-IN-116-M1+M2,,SIG) M1+M2 2326009900003 SIG-0 - the neutron capture cross-section 2326009900004 for neutrons at an average energy of E0=25.3 meV 2326009900005 or velocity v0=2200 m/s. 2326009900006 DECAY-DATA (49-IN-116-M1,54.41MIN) 2326009900007 (49-IN-116-M2,2.18SEC) 2326009900008 ANALYSIS Derived from directly measured data. 2326009900009 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326009900010 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326009900011 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326009900012 (DEP,23260100) Directly measured data. 2326009900013 ENDBIB 11 0 2326009900014 COMMON 1 3 2326009900015 EN 2326009900016 EV 2326009900017 0.0253 2326009900018 ENDCOMMON 3 0 2326009900019 DATA 2 1 2326009900020 DATA DATA-ERR 2326009900021 B B 2326009900022 158. 2. 2326009900023 ENDDATA 3 0 2326009900024 ENDSUBENT 23 0 2326009999999 SUBENT 23260100 20141210 22412326010000001 BIB 7 35 2326010000002 REACTION (49-IN-115(N,G)49-IN-116-M1+M2,,SIG) M1+M2 2326010000003 Effective thermal neutron cross-section. 2326010000004 SAMPLE Provider - IRMM 2326010000005 Average sample thickness h,mm - 0.1 2326010000006 -Matrix - Foil, Sn alloy 2326010000007 Elemental content, % weight - 15.4 2326010000008 -Matrix - Foil, Sn alloy 2326010000009 Elemental content, % weight - 5.15 2326010000010 -Matrix - Foil, Al alloy 2326010000011 Elemental content, % weight - 1. 2326010000012 -Matrix - Foil, Al alloy 2326010000013 Elemental content, % weight - 0.017 2326010000014 (49-IN-115,NAT=0.9571) 95.71+-0.05 % 2326010000015 DECAY-DATA ((1.)49-IN-116-M1,54.41MIN,DG,138.3,0.037) 2326010000016 ((2.)49-IN-116-M1,54.41MIN,DG,416.9,0.272) 2326010000017 ((3.)49-IN-116-M1,54.41MIN,DG,818.7,0.1213) 2326010000018 ((4.)49-IN-116-M1,54.41MIN,DG,1097.3,0.585) 2326010000019 ((5.)49-IN-116-M1,54.41MIN,DG,1293.5,0.848) 2326010000020 reference line 2326010000021 ((6.)49-IN-116-M1,54.41MIN,DG,1507.4,0.0992) 2326010000022 ((7.)49-IN-116-M1,54.41MIN,DG,2112.1,0.1509) 2326010000023 (49-IN-116-M2,2.18SEC) 2326010000024 METHOD Measurement at channels: 2326010000025 S84 - 4 samples of deluted Al alloy x 4 irradiations 2326010000026 Cavity - 3 samples x material ( only Sn-alloy). 2326010000027 ANALYSIS An effective thermal neutron cross-section SIG was 2326010000028 extrapolated with aid of the k0-definition, atomic 2326010000029 weight, isotopic composition, the gamma intensities 2326010000030 values. 2326010000031 Defined according to their ADS(activation decay scheme,2326010000032 including decay branching factors). 2326010000033 ERR-ANALYS Not given. 2326010000034 Uncertainty on exp. SIG value comes from to the obs. SD2326010000035 between all available gamma-lines. 2326010000036 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326010000037 ENDBIB 35 0 2326010000038 COMMON 1 3 2326010000039 EN-MEAN 2326010000040 EV 2326010000041 0.0253 2326010000042 ENDCOMMON 3 0 2326010000043 DATA 2 7 2326010000044 DATA DECAY-FLAG 2326010000045 B NO-DIM 2326010000046 159. 1. 2326010000047 160. 2. 2326010000048 160. 3. 2326010000049 157. 4. 2326010000050 157. 5. 2326010000051 156. 6. 2326010000052 158. 7. 2326010000053 ENDDATA 9 0 2326010000054 ENDSUBENT 53 0 2326010099999 SUBENT 23260101 20151013 22452326010100001 BIB 5 11 2326010100002 REACTION (50-SN-112(N,G)50-SN-113-G,M+,SIG) 2326010100003 SIG-0 - the neutron capture cross-section 2326010100004 for neutrons at an average energy of E0=25.3 meV 2326010100005 or velocity v0=2200 m/s. 2326010100006 ANALYSIS Derived from directly measured data. 2326010100007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326010100008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326010100009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326010100010 (DEP,23260102) Directly measured data. 2326010100011 HISTORY (20151013A) SD: SF4=Sn-113->Sn-113g, SF5=M+ (IT=91%) in2326010100012 REACTION code following N.Otsuka's remark. 2326010100013 ENDBIB 11 0 2326010100014 COMMON 1 3 2326010100015 EN 2326010100016 EV 2326010100017 0.0253 2326010100018 ENDCOMMON 3 0 2326010100019 DATA 2 1 2326010100020 DATA DATA-ERR 2326010100021 B B 2326010100022 0.541 0.001 2326010100023 ENDDATA 3 0 2326010100024 ENDSUBENT 23 0 2326010199999 SUBENT 23260102 20151013 22452326010200001 BIB 8 27 2326010200002 REACTION (50-SN-112(N,G)50-SN-113-G,M+,SIG) 2326010200003 Effective thermal neutron cross-section. 2326010200004 SAMPLE Provider - IRMM 2326010200005 Average sample thickness h,mm - 0.1 2326010200006 Matrix - Foil, In alloy 2326010200007 - Elemental content, % weight - 84.6 2326010200008 - Elemental content, % weight - 94.85 2326010200009 (50-SN-112,NAT=0.0097) 0.97+-0.01 % 2326010200010 DECAY-DATA (50-SN-113-M,21.4MIN) 2326010200011 ((1.)50-SN-113-G,115.1D,DG,255.1,0.0211) 2326010200012 ((2.)49-IN-113-M,99.48MIN,DG,391.7,0.6497) 2326010200013 reference line 2326010200014 METHOD Measurement at channels: 2326010200015 Y4 - 4 samples x material, 2 irradiations, 2326010200016 X26 - 4 samples x material, 2 irradiations. 2326010200017 ANALYSIS An effective thermal neutron cross-section SIG was 2326010200018 extrapolated with aid of the k0-definition, atomic 2326010200019 weight, isotopic composition, the gamma intensities 2326010200020 values. 2326010200021 Defined according to their ADS(activation decay scheme,2326010200022 including decay branching factors). 2326010200023 ERR-ANALYS Not given. 2326010200024 Uncertainty on exp. SIG value comes from to the obs. SD2326010200025 between all available gamma-lines. 2326010200026 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326010200027 HISTORY (20151013A) SD: SF4=Sn-113->Sn-113g, SF5=M+ (IT=91%) in2326010200028 REACTION code following N.Otsuka's remark. 2326010200029 ENDBIB 27 0 2326010200030 COMMON 1 3 2326010200031 EN-MEAN 2326010200032 EV 2326010200033 0.0253 2326010200034 ENDCOMMON 3 0 2326010200035 DATA 2 2 2326010200036 DATA DECAY-FLAG 2326010200037 B NO-DIM 2326010200038 0.541 1. 2326010200039 0.540 2. 2326010200040 ENDDATA 4 0 2326010200041 ENDSUBENT 40 0 2326010299999 SUBENT 23260103 20141210 22412326010300001 BIB 5 10 2326010300002 REACTION (50-SN-116(N,G)50-SN-117-M,,SIG) 2326010300003 SIG-0 - the neutron capture cross-section 2326010300004 for neutrons at an average energy of E0=25.3 meV 2326010300005 or velocity v0=2200 m/s. 2326010300006 DECAY-DATA (50-SN-117-M,13.6D) 2326010300007 ANALYSIS Derived from directly measured data. 2326010300008 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326010300009 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326010300010 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326010300011 (DEP,23260104) Directly measured data. 2326010300012 ENDBIB 10 0 2326010300013 COMMON 1 3 2326010300014 EN 2326010300015 EV 2326010300016 0.0253 2326010300017 ENDCOMMON 3 0 2326010300018 DATA 2 1 2326010300019 DATA DATA-ERR 2326010300020 B B 2326010300021 0.00616 0.00002 2326010300022 ENDDATA 3 0 2326010300023 ENDSUBENT 22 0 2326010399999 SUBENT 23260104 20141210 22412326010400001 BIB 7 26 2326010400002 REACTION (50-SN-116(N,G)50-SN-117-M,,SIG) 2326010400003 Effective thermal neutron cross-section. 2326010400004 SAMPLE Provider - IRMM 2326010400005 Average sample thickness h,mm - 0.1 2326010400006 Matrix - Foil, In alloy 2326010400007 - Elemental content, % weight - 84.6 2326010400008 - Elemental content, % weight - 94.85 2326010400009 (50-SN-116,NAT=0.1454) 14.54+-0.09 % 2326010400010 DECAY-DATA ((1.)50-SN-117-M,13.6D,DG,156.0,0.02113) 2326010400011 ((2.)50-SN-117-M,13.6D,DG,158.4,0.864)reference line 2326010400012 METHOD Measurement at channels: 2326010400013 Y4 - 4 samples x material, 2 irradiations, 2326010400014 X26 - 4 samples x material, 2 irradiations. 2326010400015 Thermal-to-fast conventional neutron flux ratio: 2326010400016 Y4 - 103. 2326010400017 X26 - 126. 2326010400018 ANALYSIS An effective thermal neutron cross-section SIG was 2326010400019 extrapolated with aid of the k0-definition, atomic 2326010400020 weight, isotopic composition, the gamma intensities 2326010400021 values. 2326010400022 Defined according to their ADS(activation decay scheme,2326010400023 including decay branching factors). 2326010400024 ERR-ANALYS Not given. 2326010400025 Uncertainty on exp. SIG value comes from to the obs. SD2326010400026 between all available gamma-lines. 2326010400027 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326010400028 ENDBIB 26 0 2326010400029 COMMON 1 3 2326010400030 EN-MEAN 2326010400031 EV 2326010400032 0.0253 2326010400033 ENDCOMMON 3 0 2326010400034 DATA 2 2 2326010400035 DATA DECAY-FLAG 2326010400036 B NO-DIM 2326010400037 0.00617 1. 2326010400038 0.00615 2. 2326010400039 ENDDATA 4 0 2326010400040 ENDSUBENT 39 0 2326010499999 SUBENT 23260105 20141210 22412326010500001 BIB 5 10 2326010500002 REACTION (50-SN-124(N,G)50-SN-125-G,,SIG) 2326010500003 SIG-0 - the neutron capture cross-section 2326010500004 for neutrons at an average energy of E0=25.3 meV 2326010500005 or velocity v0=2200 m/s. 2326010500006 DECAY-DATA (50-SN-125-G,9.64D) 2326010500007 ANALYSIS Derived from directly measured data. 2326010500008 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326010500009 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326010500010 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326010500011 (DEP,23260106) Directly measured data. 2326010500012 ENDBIB 10 0 2326010500013 COMMON 1 3 2326010500014 EN 2326010500015 EV 2326010500016 0.0253 2326010500017 ENDCOMMON 3 0 2326010500018 DATA 2 1 2326010500019 DATA DATA-ERR 2326010500020 B B 2326010500021 0.0046 0.0001 2326010500022 ENDDATA 3 0 2326010500023 ENDSUBENT 22 0 2326010599999 SUBENT 23260106 20141210 22412326010600001 BIB 7 33 2326010600002 REACTION (50-SN-124(N,G)50-SN-125-G,,SIG) 2326010600003 Effective thermal neutron cross-section. 2326010600004 SAMPLE Provider - IRMM 2326010600005 Average sample thickness h,mm - 0.1 2326010600006 Matrix - Foil, In alloy 2326010600007 - Elemental content, % weight - 84.6 2326010600008 - Elemental content, % weight - 94.85 2326010600009 (50-SN-124,NAT=0.0579) 5.79+-0.05 % 2326010600010 DECAY-DATA ((1.)50-SN-125-G,9.64D,DG,822.4,0.043) 2326010600011 ((2.)50-SN-125-G,9.64D,DG,915.6,0.041) 2326010600012 ((3.)50-SN-125-G,9.64D,DG,1067.1,0.0100) 2326010600013 (50-SN-125-G,9.64D,DG,1089.2,0.046) c-s=0.0053 b 2326010600014 ((4.)51-SB-125,2.7586YR,DG,176.3,0.0684) 2326010600015 ((5.)51-SB-125,2.7586YR,DG,427.9,0.2960) 2326010600016 ((6.)51-SB-125,2.7586YR,DG,463.4,0.1049) 2326010600017 ((7.)51-SB-125,2.7586YR,DG,600.5,0.1764) 2326010600018 ((8.)51-SB-125,2.7586YR,DG,606.6,0.498) 2326010600019 ((9.)51-SB-125,2.7586YR,DG,635.9,0.1122) 2326010600020 (50-SN-125-M,9.52MIN,DG,331.9,0.973)reference line 2326010600021 c-s=0.1190 b 2326010600022 METHOD Measurement at channels: 2326010600023 Y4 - 4 samples x material, 2 irradiations, 2326010600024 X26 - 4 samples x material, 2 irradiations. 2326010600025 ANALYSIS An effective thermal neutron cross-section SIG was 2326010600026 extrapolated with aid of the k0-definition, atomic 2326010600027 weight, isotopic composition, the gamma intensities 2326010600028 values. 2326010600029 Defined according to their ADS(activation decay scheme,2326010600030 including decay branching factors). 2326010600031 ERR-ANALYS Not given. 2326010600032 Uncertainty on exp. SIG value comes from to the obs. SD2326010600033 between all available gamma-lines. 2326010600034 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326010600035 ENDBIB 33 0 2326010600036 COMMON 1 3 2326010600037 EN-MEAN 2326010600038 EV 2326010600039 0.0253 2326010600040 ENDCOMMON 3 0 2326010600041 DATA 2 9 2326010600042 DATA DECAY-FLAG 2326010600043 B NO-DIM 2326010600044 0.0048 1. 2326010600045 0.0045 2. 2326010600046 0.0045 3. 2326010600047 0.0045 4. 2326010600048 0.0046 5. 2326010600049 0.0046 6. 2326010600050 0.0046 7. 2326010600051 0.0046 8. 2326010600052 0.0046 9. 2326010600053 ENDDATA 11 0 2326010600054 ENDSUBENT 53 0 2326010699999 SUBENT 23260107 20141210 22412326010700001 BIB 4 9 2326010700002 REACTION (51-SB-121(N,G)51-SB-122,,SIG) 2326010700003 SIG-0 - the neutron capture cross-section 2326010700004 for neutrons at an average energy of E0=25.3 meV 2326010700005 or velocity v0=2200 m/s. 2326010700006 ANALYSIS Derived from directly measured data. 2326010700007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326010700008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326010700009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326010700010 (DEP,23260108) Directly measured data. 2326010700011 ENDBIB 9 0 2326010700012 COMMON 1 3 2326010700013 EN 2326010700014 EV 2326010700015 0.0253 2326010700016 ENDCOMMON 3 0 2326010700017 DATA 2 1 2326010700018 DATA DATA-ERR 2326010700019 B B 2326010700020 5.766 0.008 2326010700021 ENDDATA 3 0 2326010700022 ENDSUBENT 21 0 2326010799999 SUBENT 23260108 20141210 22412326010800001 BIB 7 23 2326010800002 REACTION (51-SB-121(N,G)51-SB-122,,SIG) 2326010800003 Effective thermal neutron cross-section. 2326010800004 SAMPLE Provider - IRMM 2326010800005 Matrix - Foil, Al alloy 2326010800006 Elemental content, % weight - 1. 2326010800007 Average sample thickness h,mm - 0.1 2326010800008 (51-SB-121,NAT=0.5721) 57.21+-0.05 2326010800009 DECAY-DATA ((1.)51-SB-122-G,2.724D,DG,564.2,0.7067) reference line2326010800010 ((2.)51-SB-122-G,2.724D,DG,692.7,0.0385) 2326010800011 METHOD Measurement at channels: 2326010800012 Y4 - 2 samples x 4 irradiations, 2326010800013 S84 - 2 samples x 4 irradiations, 2326010800014 X26 - 1 sample x 2 irradiations. 2326010800015 ANALYSIS An effective thermal neutron cross-section SIG was 2326010800016 extrapolated with aid of the k0-definition, atomic 2326010800017 weight, isotopic composition, the gamma intensities 2326010800018 values. 2326010800019 Defined according to their ADS(activation decay scheme,2326010800020 including decay branching factors). 2326010800021 ERR-ANALYS Not given. 2326010800022 Uncertainty on exp. SIG value comes from to the obs. SD2326010800023 between all available gamma-lines. 2326010800024 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326010800025 ENDBIB 23 0 2326010800026 COMMON 1 3 2326010800027 EN-MEAN 2326010800028 EV 2326010800029 0.0253 2326010800030 ENDCOMMON 3 0 2326010800031 DATA 2 2 2326010800032 DATA DECAY-FLAG 2326010800033 B NO-DIM 2326010800034 5.772 1. 2326010800035 5.7615 2. 2326010800036 ENDDATA 4 0 2326010800037 ENDSUBENT 36 0 2326010899999 SUBENT 23260109 20151013 22452326010900001 BIB 5 11 2326010900002 REACTION (51-SB-123(N,G)51-SB-124-G,M+,SIG) 2326010900003 SIG-0 - the neutron capture cross-section 2326010900004 for neutrons at an average energy of E0=25.3 meV 2326010900005 or velocity v0=2200 m/s. 2326010900006 ANALYSIS Derived from directly measured data. 2326010900007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326010900008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326010900009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326010900010 (DEP,23260110) Directly measured data. 2326010900011 HISTORY (20151013A) SD: SF4=Sb-124->Sb-124g, SF5=M+ (IT=75%) in2326010900012 REACTION code following N.Otsuka's remark. 2326010900013 ENDBIB 11 0 2326010900014 COMMON 1 3 2326010900015 EN 2326010900016 EV 2326010900017 0.0253 2326010900018 ENDCOMMON 3 0 2326010900019 DATA 2 1 2326010900020 DATA DATA-ERR 2326010900021 B B 2326010900022 3.89 0.03 2326010900023 ENDDATA 3 0 2326010900024 ENDSUBENT 23 0 2326010999999 SUBENT 23260110 20151013 22452326011000001 BIB 8 35 2326011000002 REACTION (51-SB-123(N,G)51-SB-124-G,M+,SIG) 2326011000003 Effective thermal neutron cross-section. 2326011000004 SAMPLE Provider - IRMM 2326011000005 Matrix - Foil, Al alloy 2326011000006 Elemental content, % weight - 1. 2326011000007 Average sample thickness h,mm - 0.1 2326011000008 (51-SB-123,NAT=0.4279) 42.79+-0.05 2326011000009 DECAY-DATA ((1.)51-SB-124-G,60.2D,DG,602.7,0.978) reference line 2326011000010 ((2.)51-SB-124-G,60.2D,DG,645.9,0.0742) 2326011000011 ((3.)51-SB-124-G,60.2D,DG,709.3,0.01353) 2326011000012 ((4.)51-SB-124-G,60.2D,DG,713.8,0.02276) 2326011000013 ((5.)51-SB-124-G,60.2D,DG,722.8,0.1076) 2326011000014 ((6.)51-SB-124-G,60.2D,DG,968.2,0.01882) 2326011000015 ((7.)51-SB-124-G,60.2D,DG,1045.1,0.01833) 2326011000016 ((8.)51-SB-124-G,60.2D,DG,1325.5,0.0158) 2326011000017 ((9.)51-SB-124-G,60.2D,DG,1368.2,0.02624) 2326011000018 ((10.)51-SB-124-G,60.2D,DG,1436.6,0.1217) 2326011000019 ((11.)51-SB-124-G,60.2D,DG,1691.0,0.4757) 2326011000020 ((12.)51-SB-124-G,60.2D,DG,2090.9,0.0549) 2326011000021 METHOD Measurement at channels: 2326011000022 Y4 - 2 samples x 4 irradiations, 2326011000023 S84 - 2 samples x 4 irradiations, 2326011000024 X26 - 1 sample x 2 irradiations. 2326011000025 ANALYSIS An effective thermal neutron cross-section SIG was 2326011000026 extrapolated with aid of the k0-definition, atomic 2326011000027 weight, isotopic composition, the gamma intensities 2326011000028 values. 2326011000029 Defined according to their ADS(activation decay scheme,2326011000030 including decay branching factors). 2326011000031 ERR-ANALYS Not given. 2326011000032 Uncertainty on exp. SIG value comes from to the obs. SD2326011000033 between all available gamma-lines. 2326011000034 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326011000035 HISTORY (20151013A) SD: SF4=Sb-124->Sb-124g, SF5=M+ (IT=75%) in2326011000036 REACTION code following N.Otsuka's remark. 2326011000037 ENDBIB 35 0 2326011000038 COMMON 1 3 2326011000039 EN-MEAN 2326011000040 EV 2326011000041 0.0253 2326011000042 ENDCOMMON 3 0 2326011000043 DATA 2 12 2326011000044 DATA DECAY-FLAG 2326011000045 B NO-DIM 2326011000046 3.90 1. 2326011000047 3.88 2. 2326011000048 3.90 3. 2326011000049 3.87 4. 2326011000050 3.89 5. 2326011000051 3.93 6. 2326011000052 3.88 7. 2326011000053 3.84 8. 2326011000054 3.89 9. 2326011000055 3.90 10. 2326011000056 3.94 11. 2326011000057 3.91 12. 2326011000058 ENDDATA 14 0 2326011000059 ENDSUBENT 58 0 2326011099999 SUBENT 23260111 20141210 22412326011100001 BIB 5 10 2326011100002 REACTION (56-BA-134(N,G)56-BA-135-M,,SIG) 2326011100003 SIG-0 - the neutron capture cross-section 2326011100004 for neutrons at an average energy of E0=25.3 meV 2326011100005 or velocity v0=2200 m/s. 2326011100006 DECAY-DATA (56-BA-135-M,28.7HR) 2326011100007 ANALYSIS Derived from directly measured data. 2326011100008 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326011100009 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326011100010 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326011100011 (DEP,23260112) Directly measured data. 2326011100012 ENDBIB 10 0 2326011100013 COMMON 1 3 2326011100014 EN 2326011100015 EV 2326011100016 0.0253 2326011100017 ENDCOMMON 3 0 2326011100018 DATA 2 1 2326011100019 DATA DATA-ERR 2326011100020 B B 2326011100021 0.054 0.001 2326011100022 ENDDATA 3 0 2326011100023 ENDSUBENT 22 0 2326011199999 SUBENT 23260112 20141210 22412326011200001 BIB 7 24 2326011200002 REACTION (56-BA-134(N,G)56-BA-135-M,,SIG) 2326011200003 Effective thermal neutron cross-section. 2326011200004 SAMPLE Provider - Sigma-Aldrich 2326011200005 Matrix - BaO 2326011200006 Elemental content, % weight - 89.565 2326011200007 Average sample thickness h,mm - 0.15 2326011200008 (56-BA-134,NAT=0.02417) 2.417+-0.018 2326011200009 DECAY-DATA (56-BA-135-M,28.7HR,DG,268.3,0.160) 2326011200010 METHOD Measurement at channels: 2326011200011 Y4 - 2 samples x 3 irradiations, 2326011200012 S84 - 2 samples x 2 irradiations, 2326011200013 X26 - 2 sample x 2 irradiations. 2326011200014 Thermal-to-fast conventional neutron flux ratio: 2326011200015 Y4 - 103., S84 - 24., X26 - 126. 2326011200016 ANALYSIS An effective thermal neutron cross-section SIG was 2326011200017 extrapolated with aid of the k0-definition, atomic 2326011200018 weight, isotopic composition, the gamma intensities 2326011200019 values. 2326011200020 Defined according to their ADS(activation decay scheme,2326011200021 including decay branching factors). 2326011200022 ERR-ANALYS Not given. 2326011200023 Uncertainty on exp. SIG value comes from to the obs. SD2326011200024 between all available gamma-lines. 2326011200025 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326011200026 ENDBIB 24 0 2326011200027 COMMON 1 3 2326011200028 EN-MEAN 2326011200029 EV 2326011200030 0.0253 2326011200031 ENDCOMMON 3 0 2326011200032 DATA 1 1 2326011200033 DATA 2326011200034 B 2326011200035 0.054 2326011200036 ENDDATA 3 0 2326011200037 ENDSUBENT 36 0 2326011299999 SUBENT 23260113 20141210 22412326011300001 BIB 6 14 2326011300002 REACTION (63-EU-151(N,G)63-EU-152-G+M2,,SIG) 2326011300003 SIG-0 - the neutron capture cross-section 2326011300004 for neutrons at an average energy of E0=25.3 meV 2326011300005 or velocity v0=2200 m/s. 2326011300006 COMMENT Negligible contribution from 152m2Eu (96 min, IT 100%) 2326011300007 to 152gEu was considered by authors : 2326011300008 its cross-section contribution is just 4 b (0.07% of 2326011300009 the ground state value). It was not subtracted. 2326011300010 DECAY-DATA (63-EU-152-G,13.54YR) 2326011300011 ANALYSIS Derived from directly measured data. 2326011300012 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326011300013 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326011300014 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326011300015 (DEP,23260114) Directly measured data. 2326011300016 ENDBIB 14 0 2326011300017 COMMON 1 3 2326011300018 EN 2326011300019 EV 2326011300020 0.0253 2326011300021 ENDCOMMON 3 0 2326011300022 DATA 2 1 2326011300023 DATA DATA-ERR 2326011300024 B B 2326011300025 6612. 36. 2326011300026 ENDDATA 3 0 2326011300027 ENDSUBENT 26 0 2326011399999 SUBENT 23260114 20141210 22412326011400001 BIB 9 64 2326011400002 REACTION (63-EU-151(N,G)63-EU-152-G+M2,,SIG) 2326011400003 Effective thermal neutron cross-section. 2326011400004 SAMPLE Provider - Alfa Aesar 2326011400005 Matrix - Liquid on paper 2326011400006 Elemental content, % weight - 0.1 2326011400007 Average sample thickness h,mm - 1.25 2326011400008 (63-EU-151,NAT=0.4781) 47.81+-0.06 % 2326011400009 DECAY-DATA ((1.)63-EU-152-G,13.54YR,DG,121.8,0.287) 2326011400010 ((2.)63-EU-152-G,13.54YR,DG,244.7,0.0761) 2326011400011 ((3.)63-EU-152-G,13.54YR,DG,344.3,0.266) 2326011400012 ((4.)63-EU-152-G,13.54YR,DG,444.0,0.03158) 2326011400013 ((5.)63-EU-152-G,13.54YR,DG,778.9,0.1296) 2326011400014 ((6.)63-EU-152-G,13.54YR,DG,867.4,0.0426) 2326011400015 ((7.)63-EU-152-G,13.54YR,DG,963.4,0.1479) 2326011400016 ((8.)63-EU-152-G,13.54YR,DG,1084.0,0.1024) 2326011400017 ((9.)63-EU-152-G,13.54YR,DG,1112.1,0.1369) 2326011400018 ((10.)63-EU-152-G,13.54YR,DG,1408.0,0.2107) 2326011400019 reference line 2326011400020 METHOD Measurement at channels: 2326011400021 Y4 - 2 samples x 3 irradiations, 2326011400022 S84 - 2 samples x 3 irradiations, 2326011400023 X26 - 2 sample x 2 irradiations. 2326011400024 ANALYSIS An effective thermal neutron cross-section SIG was 2326011400025 extrapolated with aid of the k0-definition, atomic 2326011400026 weight, isotopic composition, the gamma intensities 2326011400027 values. 2326011400028 Defined according to their ADS(activation decay scheme,2326011400029 including decay branching factors). 2326011400030 COMMENT Negligible contribution from 152m2Eu (96 min, IT 100%) 2326011400031 to 152gEu was considered by authors : 2326011400032 its cross-section contribution is just 4 b (0.07% of 2326011400033 the ground state value). It was not subtracted. 2326011400034 ERR-ANALYS Not given. 2326011400035 Uncertainty on exp. SIG value comes from to the obs. SD2326011400036 between all available gamma-lines. 2326011400037 ADD-RES Measured k0-values with one-sigma uncertainty: 2326011400038 E-gamma,keV k0, no-dim. 2326011400039 121.8 1.23E+1 (+-5.4%) 2326011400040 244.7 3.29E+0 (+-5.1%) 2326011400041 344.3 1.15E+1 (+-5.0%) 2326011400042 444.0 1.39E+0 (+-5.1%) 2326011400043 778.9 5.68E+0 (+-5.2%) 2326011400044 867.4 1.86E+0 (+-5.1%) 2326011400045 963.4 6.42E+0 (+-5.1%) 2326011400046 1084.0 4.46E+0 (+-5.1%) 2326011400047 1112.1 5.92E+0 (+-5.0%) 2326011400048 1408.0 9.13E+0 (+-5.0%) 2326011400049 The s0 factors were determined by approaches: 2326011400050 1- the classical method: from the mean (AVG) and 2326011400051 observed SD of the results from all channels employed, 2326011400052 when inputting the recommended Er value from 2326011400053 references - 5.80 eV (+-4.%). 2326011400054 2- the a-vector method applied on up to 3 irradiation 2326011400055 channels: leading to simultaneous s0 and Er 2326011400056 determination. 2326011400057 s0 factors : 2326011400058 1- channel S84 - 0.05 (+-5%), channel Y4 - 0.04(+-3.%),2326011400059 channel X26 - 0.06 (+-4%); average - 0.05 (+-18%) ; 2326011400060 2- 0.05 (+-5.%). 2326011400061 Effective resonance energy Er defined by 2326011400062 a-vector method - 0.17 (+-20.%). 2326011400063 From: Table 5 of J,JRN,302,655,2014; 2326011400064 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326011400065 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326011400066 ENDBIB 64 0 2326011400067 COMMON 1 3 2326011400068 EN-MEAN 2326011400069 EV 2326011400070 0.0253 2326011400071 ENDCOMMON 3 0 2326011400072 DATA 2 10 2326011400073 DATA DECAY-FLAG 2326011400074 B NO-DIM 2326011400075 6589. 1. 2326011400076 6574. 2. 2326011400077 6604. 3. 2326011400078 6671. 4. 2326011400079 6669. 5. 2326011400080 6637. 6. 2326011400081 6598. 7. 2326011400082 6631. 8. 2326011400083 6583. 9. 2326011400084 6591. 10. 2326011400085 ENDDATA 12 0 2326011400086 ENDSUBENT 85 0 2326011499999 SUBENT 23260115 20141210 22412326011500001 BIB 4 9 2326011500002 REACTION (63-EU-153(N,G)63-EU-154,,SIG) 2326011500003 SIG-0 - the neutron capture cross-section 2326011500004 for neutrons at an average energy of E0=25.3 meV 2326011500005 or velocity v0=2200 m/s. 2326011500006 ANALYSIS Derived from directly measured data. 2326011500007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326011500008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326011500009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326011500010 (DEP,23260116) Directly measured data. 2326011500011 ENDBIB 9 0 2326011500012 COMMON 1 3 2326011500013 EN 2326011500014 EV 2326011500015 0.0253 2326011500016 ENDCOMMON 3 0 2326011500017 DATA 2 1 2326011500018 DATA DATA-ERR 2326011500019 B B 2326011500020 312. 3. 2326011500021 ENDDATA 3 0 2326011500022 ENDSUBENT 21 0 2326011599999 SUBENT 23260116 20141210 22412326011600001 BIB 8 58 2326011600002 REACTION (63-EU-153(N,G)63-EU-154,,SIG) M+G 2326011600003 Effective thermal neutron cross-section. 2326011600004 SAMPLE Provider - Alfa Aesar 2326011600005 Matrix - Liquid on paper 2326011600006 Elemental content, % weight - 0.1 2326011600007 Average sample thickness h,mm - 1.25 2326011600008 (63-EU-153,NAT=0.5219) 52.19+-0.06 % 2326011600009 DECAY-DATA ((1.)63-EU-154-G,8.593YR,DG,123.1,0.404) 2326011600010 ((2.)63-EU-154-G,8.593YR,DG,248.0,0.0689) 2326011600011 ((3.)63-EU-154-G,8.593YR,DG,591.8,0.495) 2326011600012 ((4.)63-EU-154-G,8.593YR,DG,692.4,0.01777) 2326011600013 ((5.)63-EU-154-G,8.593YR,DG,723.3,0.2006) 2326011600014 ((6.)63-EU-154-G,8.593YR,DG,756.9,0.0452) 2326011600015 ((7.)63-EU-154-G,8.593YR,DG,873.2,0.1208) 2326011600016 ((8.)63-EU-154-G,8.593YR,DG,996.4,0.1048) 2326011600017 ((9.)63-EU-154-G,8.593YR,DG,1274.4,0.3480) 2326011600018 ((10.)63-EU-154-G,8.593YR,DG,1596.5,0.01797) 2326011600019 (63-EU-154-M,46.0MIN) 2326011600020 METHOD Measurement at channels: 2326011600021 Y4 - 2 samples x 3 irradiations, 2326011600022 S84 - 2 samples x 3 irradiations, 2326011600023 X26 - 2 sample x 2 irradiations. 2326011600024 ANALYSIS An effective thermal neutron cross-section SIG was 2326011600025 extrapolated with aid of the k0-definition, atomic 2326011600026 weight, isotopic composition, the gamma intensities 2326011600027 values. 2326011600028 Defined according to their ADS(activation decay scheme,2326011600029 including decay branching factors). 2326011600030 ERR-ANALYS Not given. 2326011600031 Uncertainty on exp. SIG value comes from to the obs. SD2326011600032 between all available gamma-lines. 2326011600033 ADD-RES Measured k0-values with one-sigma uncertainty: 2326011600034 E-gamma,keV k0, no-dim. 2326011600035 123.1 9.04E-1 (+-2.1%) 2326011600036 248.0 1.54E-1 (+-2.0%) 2326011600037 591.8 1.09E-1 (+-2.5%) 2326011600038 692.4 4.02E-2 (+-2.2%) 2326011600039 723.3 4.50E-1 (+-2.2%) 2326011600040 756.9 1.06E-1 (+-2.0%) 2326011600041 873.2 2.71E-1 (+-2.3%) 2326011600042 996.4 2.35E-1 (+-2.2%) 2326011600043 1274.4 7.77E-1 (+-2.2%) 2326011600044 1596.5 4.07E-2 (+-2.4%) 2326011600045 The s0 factors were determined by approaches: 2326011600046 1- the classical method: from the mean (AVG) and 2326011600047 observed SD of the results from all channels employed, 2326011600048 when inputting the recommended Er value from 2326011600049 references - 5.80 eV (+-4.%). 2326011600050 2- the a-vector method applied on up to 3 irradiation 2326011600051 channels: leading to simultaneous s0 and Er 2326011600052 determination. 2326011600053 s0 factors : 2326011600054 1- channel S84 - 4.86 (+-5%), channel Y4 - 4.71(+-3.%),2326011600055 channel X26 - 4.77 (+-4%); average - 4.75 (+-3%) ; 2326011600056 2- 4.81 (+-3.%). 2326011600057 Effective resonance energy Er defined by 2326011600058 a-vector method - 7.25 (+-20.%). 2326011600059 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326011600060 ENDBIB 58 0 2326011600061 COMMON 1 3 2326011600062 EN-MEAN 2326011600063 EV 2326011600064 0.0253 2326011600065 ENDCOMMON 3 0 2326011600066 DATA 2 10 2326011600067 DATA DECAY-FLAG 2326011600068 B NO-DIM 2326011600069 312. 1. 2326011600070 311. 2. 2326011600071 306. 3. 2326011600072 315. 4. 2326011600073 313. 5. 2326011600074 327. 6. 2326011600075 312. 7. 2326011600076 313. 8. 2326011600077 311. 9. 2326011600078 315. 10. 2326011600079 ENDDATA 12 0 2326011600080 ENDSUBENT 79 0 2326011699999 SUBENT 23260117 20141210 22412326011700001 BIB 4 9 2326011700002 REACTION (64-GD-152(N,G)64-GD-153,,SIG) 2326011700003 SIG-0 - the neutron capture cross-section 2326011700004 for neutrons at an average energy of E0=25.3 meV 2326011700005 or velocity v0=2200 m/s. 2326011700006 ANALYSIS Derived from directly measured data. 2326011700007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326011700008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326011700009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326011700010 (DEP,23260118) Directly measured data. 2326011700011 ENDBIB 9 0 2326011700012 COMMON 1 3 2326011700013 EN 2326011700014 EV 2326011700015 0.0253 2326011700016 ENDCOMMON 3 0 2326011700017 DATA 2 1 2326011700018 DATA DATA-ERR 2326011700019 B B 2326011700020 772. 2. 2326011700021 ENDDATA 3 0 2326011700022 ENDSUBENT 21 0 2326011799999 SUBENT 23260118 20141210 22412326011800001 BIB 7 20 2326011800002 REACTION (64-GD-152(N,G)64-GD-153,,SIG) 2326011800003 Effective thermal neutron cross-section. 2326011800004 SAMPLE Provider - IRMM 2326011800005 Matrix - Disk, Al alloy 2326011800006 Elemental content, % weight - 0.03 2326011800007 Average sample thickness h,mm - 1.6 2326011800008 (64-GD-152,NAT=0.0020) 0.20+-0.01 % 2326011800009 DECAY-DATA ((1.)64-GD-153,240.4D,DG,97.4,0.2901) 2326011800010 ((2.)64-GD-153,240.4D,DG,103.2,0.211) 2326011800011 METHOD Measurement at Y4 channel - 2 samples x 2 irradiations.2326011800012 ANALYSIS An effective thermal neutron cross-section SIG was 2326011800013 extrapolated with aid of the k0-definition, atomic 2326011800014 weight, isotopic composition, the gamma intensities 2326011800015 values. 2326011800016 Defined according to their ADS(activation decay scheme,2326011800017 including decay branching factors). 2326011800018 ERR-ANALYS Not given. 2326011800019 Uncertainty on exp. SIG value comes from to the obs. SD2326011800020 between all available gamma-lines. 2326011800021 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326011800022 ENDBIB 20 0 2326011800023 COMMON 1 3 2326011800024 EN-MEAN 2326011800025 EV 2326011800026 0.0253 2326011800027 ENDCOMMON 3 0 2326011800028 DATA 2 2 2326011800029 DATA DECAY-FLAG 2326011800030 B NO-DIM 2326011800031 771. 1. 2326011800032 773. 2. 2326011800033 ENDDATA 4 0 2326011800034 ENDSUBENT 33 0 2326011899999 SUBENT 23260119 20141210 22412326011900001 BIB 4 9 2326011900002 REACTION (64-GD-158(N,G)64-GD-159,,SIG) 2326011900003 SIG-0 - the neutron capture cross-section 2326011900004 for neutrons at an average energy of E0=25.3 meV 2326011900005 or velocity v0=2200 m/s. 2326011900006 ANALYSIS Derived from directly measured data. 2326011900007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326011900008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326011900009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326011900010 (DEP,23260120) Directly measured data. 2326011900011 ENDBIB 9 0 2326011900012 COMMON 1 3 2326011900013 EN 2326011900014 EV 2326011900015 0.0253 2326011900016 ENDCOMMON 3 0 2326011900017 DATA 2 1 2326011900018 DATA DATA-ERR 2326011900019 B B 2326011900020 2.22 0.02 2326011900021 ENDDATA 3 0 2326011900022 ENDSUBENT 21 0 2326011999999 SUBENT 23260120 20141210 22412326012000001 BIB 7 19 2326012000002 REACTION (64-GD-158(N,G)64-GD-159,,SIG) 2326012000003 Effective thermal neutron cross-section. 2326012000004 SAMPLE Provider - IRMM 2326012000005 Matrix - Disk, Al alloy 2326012000006 Elemental content, % weight - 0.03 2326012000007 Average sample thickness h,mm - 1.6 2326012000008 (64-GD-158,NAT=0.2484) 24.84+-0.07 % 2326012000009 DECAY-DATA (64-GD-159,18.56HR,DG,363.5,0.1178) reference line 2326012000010 METHOD Measurement at Y4 channel - 2 samples x 2 irradiations.2326012000011 ANALYSIS An effective thermal neutron cross-section SIG was 2326012000012 extrapolated with aid of the k0-definition, atomic 2326012000013 weight, isotopic composition, the gamma intensities 2326012000014 values. 2326012000015 Defined according to their ADS(activation decay scheme,2326012000016 including decay branching factors). 2326012000017 ERR-ANALYS Not given. 2326012000018 Uncertainty on exp. SIG value comes from to the obs. SD2326012000019 between all available gamma-lines. 2326012000020 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326012000021 ENDBIB 19 0 2326012000022 COMMON 1 3 2326012000023 EN-MEAN 2326012000024 EV 2326012000025 0.0253 2326012000026 ENDCOMMON 3 0 2326012000027 DATA 1 1 2326012000028 DATA 2326012000029 B 2326012000030 2.22 2326012000031 ENDDATA 3 0 2326012000032 ENDSUBENT 31 0 2326012099999 SUBENT 23260121 20141210 22412326012100001 BIB 4 9 2326012100002 REACTION (66-DY-164(N,G)66-DY-165,,SIG) 2326012100003 SIG-0 - the neutron capture cross-section 2326012100004 for neutrons at an average energy of E0=25.3 meV 2326012100005 or velocity v0=2200 m/s. 2326012100006 ANALYSIS Derived from directly measured data. 2326012100007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326012100008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326012100009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326012100010 (DEP,23260122) Directly measured data. 2326012100011 ENDBIB 9 0 2326012100012 COMMON 1 3 2326012100013 EN 2326012100014 EV 2326012100015 0.0253 2326012100016 ENDCOMMON 3 0 2326012100017 DATA 2 1 2326012100018 DATA DATA-ERR 2326012100019 B B 2326012100020 2649. 25. 2326012100021 ENDDATA 3 0 2326012100022 ENDSUBENT 21 0 2326012199999 SUBENT 23260122 20141210 22412326012200001 BIB 7 27 2326012200002 REACTION (66-DY-164(N,G)66-DY-165,,SIG) 2326012200003 Effective thermal neutron cross-section. 2326012200004 SAMPLE Provider - IRMM 2326012200005 Matrix - Foil, Al alloy 2326012200006 - Elemental content, % weight - 27. 2326012200007 Average sample thickness h,mm - 0.1 2326012200008 - Elemental content, % weight - 5. 2326012200009 Average sample thickness h,mm - 0.1 2326012200010 - Elemental content, % weight - 0.127 2326012200011 Average sample thickness h,mm - 0.1 2326012200012 (66-DY-164,NAT=0.28260) 28.260+-0.054 % 2326012200013 DECAY-DATA ((1.)66-DY-165-G,2.334HR,DG,94.7,0.0380) reference line2326012200014 ((2.)66-DY-165-G,2.334HR,DG,279.8,0.0053) 2326012200015 ((3.)66-DY-165-G,2.334HR,DG,361.7,0.0090) 2326012200016 ((4.)66-DY-165-G,2.334HR,DG,633.4,0.0061) 2326012200017 ((5.)66-DY-165-G,2.334HR,DG,715.3,0.0058) 2326012200018 METHOD Each channel: 2 samples x material x 3 irradiations. 2326012200019 ANALYSIS An effective thermal neutron cross-section SIG was 2326012200020 extrapolated with aid of the k0-definition, atomic 2326012200021 weight, isotopic composition, the gamma intensities 2326012200022 values. 2326012200023 Defined according to their ADS(activation decay scheme,2326012200024 including decay branching factors). 2326012200025 ERR-ANALYS Not given. 2326012200026 Uncertainty on exp. SIG value comes from to the obs. SD2326012200027 between all available gamma-lines. 2326012200028 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326012200029 ENDBIB 27 0 2326012200030 COMMON 1 3 2326012200031 EN-MEAN 2326012200032 EV 2326012200033 0.0253 2326012200034 ENDCOMMON 3 0 2326012200035 DATA 2 55 2326012200036 DATA DECAY-FLAG 2326012200037 B NO-DIM 2326012200038 2621. 1. 2326012200039 2645. 2. 2326012200040 2635. 3. 2326012200041 2600. 4. 2326012200042 2584. 5. 2326012200043 ENDDATA 7 0 2326012200044 ENDSUBENT 43 0 2326012299999 SUBENT 23260123 20141210 22412326012300001 BIB 4 9 2326012300002 REACTION (69-TM-169(N,G)69-TM-170,,SIG) 2326012300003 SIG-0 - the neutron capture cross-section 2326012300004 for neutrons at an average energy of E0=25.3 meV 2326012300005 or velocity v0=2200 m/s. 2326012300006 ANALYSIS Derived from directly measured data. 2326012300007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326012300008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326012300009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326012300010 (DEP,23260124) Directly measured data. 2326012300011 ENDBIB 9 0 2326012300012 COMMON 1 3 2326012300013 EN 2326012300014 EV 2326012300015 0.0253 2326012300016 ENDCOMMON 3 0 2326012300017 DATA 2 1 2326012300018 DATA DATA-ERR 2326012300019 B B 2326012300020 107. 8. 2326012300021 ENDDATA 3 0 2326012300022 ENDSUBENT 21 0 2326012399999 SUBENT 23260124 20141210 22412326012400001 BIB 7 19 2326012400002 REACTION (69-TM-169(N,G)69-TM-170,,SIG) 2326012400003 Effective thermal neutron cross-section. 2326012400004 SAMPLE Provider - Alfa Aesar 2326012400005 Matrix - Liquid on paper 2326012400006 Elemental content, % weight - 0.1 2326012400007 Average sample thickness h,mm - 1.25 2326012400008 (69-TM-169,NAT=1.00) 100% 2326012400009 DECAY-DATA (69-TM-170,128.6D,DG,84.3,0.0248) 2326012400010 METHOD Measurement at Y4 channel - 2 samples x 2 irradiations.2326012400011 ANALYSIS An effective thermal neutron cross-section SIG was 2326012400012 extrapolated with aid of the k0-definition, atomic 2326012400013 weight, isotopic composition, the gamma intensities 2326012400014 values. 2326012400015 Defined according to their ADS(activation decay scheme,2326012400016 including decay branching factors). 2326012400017 ERR-ANALYS Not given. 2326012400018 Uncertainty on exp. SIG value comes from to the obs. SD2326012400019 between all available gamma-lines. 2326012400020 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326012400021 ENDBIB 19 0 2326012400022 COMMON 1 3 2326012400023 EN-MEAN 2326012400024 EV 2326012400025 0.0253 2326012400026 ENDCOMMON 3 0 2326012400027 DATA 1 15 2326012400028 DATA 2326012400029 B 2326012400030 107. 2326012400031 ENDDATA 3 0 2326012400032 ENDSUBENT 31 0 2326012499999 SUBENT 23260125 20141210 22412326012500001 BIB 4 9 2326012500002 REACTION (70-YB-168(N,G)70-YB-169,,SIG) 2326012500003 SIG-0 - the neutron capture cross-section 2326012500004 for neutrons at an average energy of E0=25.3 meV 2326012500005 or velocity v0=2200 m/s. 2326012500006 ANALYSIS Derived from directly measured data. 2326012500007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326012500008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326012500009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326012500010 (DEP,23260126) Directly measured data. 2326012500011 ENDBIB 9 0 2326012500012 COMMON 1 3 2326012500013 EN 2326012500014 EV 2326012500015 0.0253 2326012500016 ENDCOMMON 3 0 2326012500017 DATA 2 1 2326012500018 DATA DATA-ERR 2326012500019 B B 2326012500020 3144. 34. 2326012500021 ENDDATA 3 0 2326012500022 ENDSUBENT 21 0 2326012599999 SUBENT 23260126 20141210 22412326012600001 BIB 8 50 2326012600002 REACTION (70-YB-168(N,G)70-YB-169,,SIG) M+G 2326012600003 Effective thermal neutron cross-section. 2326012600004 SAMPLE Provider - Alfa Aesar 2326012600005 Matrix - Liquid on paper 2326012600006 Elemental content, % weight - 0.1 2326012600007 Average sample thickness h,mm - 1.25 2326012600008 (70-YB-168,NAT=0.00123) 0.123+-0.003 % 2326012600009 DECAY-DATA ((1.)70-YB-169-G,32.03D,DG,93.6,0.0257) 2326012600010 ((2.)70-YB-169-G,32.03D,DG,109.8,0.1736) 2326012600011 ((3.)70-YB-169-G,32.03D,DG,130.5,0.1138) 2326012600012 ((4.)70-YB-169-G,32.03D,DG,177.2,0.2232) 2326012600013 ((5.)70-YB-169-G,32.03D,DG,198.0,0.3593) 2326012600014 ((6.)70-YB-169-G,32.03D,DG,307.7,0.10046) 2326012600015 (70-YB-169-M,46.SEC) 2326012600016 METHOD Each channel: 4 samples x 2 irradiations. 2326012600017 ANALYSIS An effective thermal neutron cross-section SIG was 2326012600018 extrapolated with aid of the k0-definition, atomic 2326012600019 weight, isotopic composition, the gamma intensities 2326012600020 values. 2326012600021 Defined according to their ADS(activation decay scheme,2326012600022 including decay branching factors). 2326012600023 ERR-ANALYS Not given. 2326012600024 Uncertainty on exp. SIG value comes from to the obs. SD2326012600025 between all available gamma-lines. 2326012600026 ADD-RES Measured k0-values with one-sigma uncertainty: 2326012600027 E-gamma,keV k0, no-dim. 2326012600028 93.6 1.20E-3 (+-5.2%) 2326012600029 109.8 8.26E-3 (+-5.1%) 2326012600030 130.5 5.28E-3 (+-5.0%) 2326012600031 177.2 1.04E-2 (+-5.4%) 2326012600032 198.0 1.68E-2 (+-5.4%) 2326012600033 307.7 4.63E-3 (+-5.4%) 2326012600034 The s0 factors were determined by approaches: 2326012600035 1- the classical method: from the mean (AVG) and 2326012600036 observed SD of the results from all channels employed, 2326012600037 when inputting the recommended Er value from 2326012600038 references - 0.61 eV . 2326012600039 2- the a-vector method applied on up to 3 irradiation 2326012600040 channels: leading to simultaneous Q0 (or s0) and Er 2326012600041 determination. 2326012600042 1- s0 factor: 2326012600043 channel S84 - 3.47 (+-3.%), channel Y4 - 4.11 (+-2.%), 2326012600044 channel X26 - 5.08 (+-5.%); average 4.17 (+-12.%); 2326012600045 2- 3.39 (+-8.%). 2326012600046 Effective resonance energy Er defined by 2326012600047 a-vector method - 0.026 (+-25.%) . 2326012600048 From:Table 5 of J,JRN,302,655,2014; 2326012600049 Suppl.material 10967-2014-3281-MOESM3-ESM.pdf 2326012600050 Table 6 of J,JRN,302,631,2014. 2326012600051 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326012600052 ENDBIB 50 0 2326012600053 COMMON 1 3 2326012600054 EN-MEAN 2326012600055 EV 2326012600056 0.0253 2326012600057 ENDCOMMON 3 0 2326012600058 DATA 2 65 2326012600059 DATA DECAY-FLAG 2326012600060 B NO-DIM 2326012600061 3151. 1. 2326012600062 3203. 2. 2326012600063 3121. 3. 2326012600064 3141. 4. 2326012600065 3148. 5. 2326012600066 3101. 6. 2326012600067 ENDDATA 8 0 2326012600068 ENDSUBENT 67 0 2326012699999 SUBENT 23260127 20141210 22412326012700001 BIB 4 9 2326012700002 REACTION (70-YB-174(N,G)70-YB-175,,SIG) 2326012700003 SIG-0 - the neutron capture cross-section 2326012700004 for neutrons at an average energy of E0=25.3 meV 2326012700005 or velocity v0=2200 m/s. 2326012700006 ANALYSIS Derived from directly measured data. 2326012700007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326012700008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326012700009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326012700010 (DEP,23260128) Directly measured data. 2326012700011 ENDBIB 9 0 2326012700012 COMMON 1 3 2326012700013 EN 2326012700014 EV 2326012700015 0.0253 2326012700016 ENDCOMMON 3 0 2326012700017 DATA 2 1 2326012700018 DATA DATA-ERR 2326012700019 B B 2326012700020 63.0 0.5 2326012700021 ENDDATA 3 0 2326012700022 ENDSUBENT 21 0 2326012799999 SUBENT 23260128 20141210 22412326012800001 BIB 7 23 2326012800002 REACTION (70-YB-174(N,G)70-YB-175,,SIG) 2326012800003 Effective thermal neutron cross-section. 2326012800004 SAMPLE Provider - Alfa Aesar 2326012800005 Matrix - Liquid on paper 2326012800006 Elemental content, % weight - 0.1 2326012800007 Average sample thickness h,mm - 1.25 2326012800008 (70-YB-174,NAT=0.32026) 32.026+-0.080 % 2326012800009 DECAY-DATA ((1.)70-YB-175,4.185D,DG,113.8,0.0387) 2326012800010 ((2.)70-YB-175,4.185D,DG,137.7,0.00235) 2326012800011 ((3.)70-YB-175,4.185D,DG,144.9,0.00672) 2326012800012 ((4.)70-YB-175,4.185D,DG,282.5,0.0613) 2326012800013 ((5.)70-YB-175,4.185D,DG,396.3,0.132) reference line 2326012800014 METHOD Each channel: 4 samples x 2 irradiations. 2326012800015 ANALYSIS An effective thermal neutron cross-section SIG was 2326012800016 extrapolated with aid of the k0-definition, atomic 2326012800017 weight, isotopic composition, the gamma intensities 2326012800018 values. 2326012800019 Defined according to their ADS(activation decay scheme,2326012800020 including decay branching factors). 2326012800021 ERR-ANALYS Not given. 2326012800022 Uncertainty on exp. SIG value comes from to the obs. SD2326012800023 between all available gamma-lines. 2326012800024 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326012800025 ENDBIB 23 0 2326012800026 COMMON 1 3 2326012800027 EN-MEAN 2326012800028 EV 2326012800029 0.0253 2326012800030 ENDCOMMON 3 0 2326012800031 DATA 2 55 2326012800032 DATA DECAY-FLAG 2326012800033 B NO-DIM 2326012800034 63.3 1. 2326012800035 63.2 2. 2326012800036 62.9 3. 2326012800037 63.4 4. 2326012800038 62.2 5. 2326012800039 ENDDATA 7 0 2326012800040 ENDSUBENT 39 0 2326012899999 SUBENT 23260129 20141210 22412326012900001 BIB 4 9 2326012900002 REACTION (70-YB-176(N,G)70-YB-177,,SIG) 2326012900003 SIG-0 - the neutron capture cross-section 2326012900004 for neutrons at an average energy of E0=25.3 meV 2326012900005 or velocity v0=2200 m/s. 2326012900006 ANALYSIS Derived from directly measured data. 2326012900007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326012900008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326012900009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326012900010 (DEP,23260130) Directly measured data. 2326012900011 ENDBIB 9 0 2326012900012 COMMON 1 3 2326012900013 EN 2326012900014 EV 2326012900015 0.0253 2326012900016 ENDCOMMON 3 0 2326012900017 DATA 2 1 2326012900018 DATA DATA-ERR 2326012900019 B B 2326012900020 2.85 0.07 2326012900021 ENDDATA 3 0 2326012900022 ENDSUBENT 21 0 2326012999999 SUBENT 23260130 20141210 22412326013000001 BIB 7 22 2326013000002 REACTION (70-YB-176(N,G)70-YB-177,,SIG) 2326013000003 Effective thermal neutron cross-section. 2326013000004 SAMPLE Provider - Alfa Aesar 2326013000005 Matrix - Liquid on paper 2326013000006 Elemental content, % weight - 0.1 2326013000007 Average sample thickness h,mm - 1.25 2326013000008 (70-YB-174,NAT=0.32026) 32.026+-0.080 % 2326013000009 DECAY-DATA ((1.)70-YB-177-G,1.911HR,DG,150.3,0.205) reference line2326013000010 ((2.)70-YB-177-G,1.911HR,DG,941.8,0.0108) 2326013000011 ((3.)70-YB-177-G,1.911HR,DG,1080.2,0.059) 2326013000012 ((4.)70-YB-177-G,1.911HR,DG,1241.2,0.0350) 2326013000013 METHOD Each channel: 2 samples x 8 irradiations. 2326013000014 ANALYSIS An effective thermal neutron cross-section SIG was 2326013000015 extrapolated with aid of the k0-definition, atomic 2326013000016 weight, isotopic composition, the gamma intensities 2326013000017 values. 2326013000018 Defined according to their ADS(activation decay scheme,2326013000019 including decay branching factors). 2326013000020 ERR-ANALYS Not given. 2326013000021 Uncertainty on exp. SIG value comes from to the obs. SD2326013000022 between all available gamma-lines. 2326013000023 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326013000024 ENDBIB 22 0 2326013000025 COMMON 1 3 2326013000026 EN-MEAN 2326013000027 EV 2326013000028 0.0253 2326013000029 ENDCOMMON 3 0 2326013000030 DATA 2 45 2326013000031 DATA DECAY-FLAG 2326013000032 B NO-DIM 2326013000033 2.80 1. 2326013000034 2.89 2. 2326013000035 2.85 3. 2326013000036 2.90 4. 2326013000037 ENDDATA 6 0 2326013000038 ENDSUBENT 37 0 2326013099999 SUBENT 23260131 20141210 22412326013100001 BIB 4 9 2326013100002 REACTION (72-HF-174(N,G)72-HF-175,,SIG) 2326013100003 SIG-0 - the neutron capture cross-section 2326013100004 for neutrons at an average energy of E0=25.3 meV 2326013100005 or velocity v0=2200 m/s. 2326013100006 ANALYSIS Derived from directly measured data. 2326013100007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326013100008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326013100009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326013100010 (DEP,23260132) Directly measured data. 2326013100011 ENDBIB 9 0 2326013100012 COMMON 1 3 2326013100013 EN 2326013100014 EV 2326013100015 0.0253 2326013100016 ENDCOMMON 3 0 2326013100017 DATA 2 1 2326013100018 DATA DATA-ERR 2326013100019 B B 2326013100020 549. 6. 2326013100021 ENDDATA 3 0 2326013100022 ENDSUBENT 21 0 2326013199999 SUBENT 23260132 20141210 22412326013200001 BIB 7 20 2326013200002 REACTION (72-HF-174(N,G)72-HF-175,,SIG) 2326013200003 Effective thermal neutron cross-section. 2326013200004 SAMPLE Provider - IRMM 2326013200005 Matrix - Wire,Al alloy 2326013200006 Average sample thickness h,mm - 1. 2326013200007 -Elemental content, % weight - 5. 2326013200008 -Elemental content, % weight - 0.1 2326013200009 (72-HF-174,NAT=0.0016) 0.16+-0.01 % 2326013200010 DECAY-DATA (72-HF-175,70.D,DG,343.4,0.870) 2326013200011 METHOD Each channel: 2 samples x material x 2 irradiations. 2326013200012 ANALYSIS An effective thermal neutron cross-section SIG was 2326013200013 extrapolated with aid of the k0-definition, atomic 2326013200014 weight, isotopic composition, the gamma intensities 2326013200015 values. 2326013200016 Defined according to their ADS(activation decay scheme,2326013200017 including decay branching factors). 2326013200018 ERR-ANALYS Not given. 2326013200019 Uncertainty on exp. SIG value comes from to the obs. SD2326013200020 between all available gamma-lines. 2326013200021 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326013200022 ENDBIB 20 0 2326013200023 COMMON 1 3 2326013200024 EN-MEAN 2326013200025 EV 2326013200026 0.0253 2326013200027 ENDCOMMON 3 0 2326013200028 DATA 1 15 2326013200029 DATA 2326013200030 B 2326013200031 549. 2326013200032 ENDDATA 3 0 2326013200033 ENDSUBENT 32 0 2326013299999 SUBENT 23260133 20141210 22412326013300001 BIB 5 10 2326013300002 REACTION (72-HF-179(N,G)72-HF-180-M,,SIG) 2326013300003 SIG-0 - the neutron capture cross-section 2326013300004 for neutrons at an average energy of E0=25.3 meV 2326013300005 or velocity v0=2200 m/s. 2326013300006 DECAY-DATA (72-HF-180-M,5.5HR) 2326013300007 ANALYSIS Derived from directly measured data. 2326013300008 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326013300009 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326013300010 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326013300011 (DEP,23260134) Directly measured data. 2326013300012 ENDBIB 10 0 2326013300013 COMMON 1 3 2326013300014 EN 2326013300015 EV 2326013300016 0.0253 2326013300017 ENDCOMMON 3 0 2326013300018 DATA 2 1 2326013300019 DATA DATA-ERR 2326013300020 B B 2326013300021 0.430 0.005 2326013300022 ENDDATA 3 0 2326013300023 ENDSUBENT 22 0 2326013399999 SUBENT 23260134 20141210 22412326013400001 BIB 7 24 2326013400002 REACTION (72-HF-179(N,G)72-HF-180-M,,SIG) 2326013400003 Effective thermal neutron cross-section. 2326013400004 SAMPLE Provider - IRMM 2326013400005 Matrix - Wire,Al alloy 2326013400006 Average sample thickness h,mm - 1. 2326013400007 -Elemental content, % weight - 5. 2326013400008 -Elemental content, % weight - 0.1 2326013400009 (72-HF-179,NAT=0.1362) 2326013400010 DECAY-DATA ((1.)72-HF-180-M,5.5HR,DG,93.3,0.171) 2326013400011 ((2.)72-HF-180-M,5.5HR,DG,215.4,0.813) 2326013400012 ((3.)72-HF-180-M,5.5HR,DG,332.3,0.941) reference line 2326013400013 ((4.)72-HF-180-M,5.5HR,DG,443.2,0.819) 2326013400014 ((5.)72-HF-180-M,5.5HR,DG,500.7,0.143) 2326013400015 METHOD S84 channel: 2 samples x material x 4 irradiations. 2326013400016 ANALYSIS An effective thermal neutron cross-section SIG was 2326013400017 extrapolated with aid of the k0-definition, atomic 2326013400018 weight, isotopic composition, the gamma intensities 2326013400019 values. 2326013400020 Defined according to their ADS(activation decay scheme,2326013400021 including decay branching factors). 2326013400022 ERR-ANALYS Not given. 2326013400023 Uncertainty on exp. SIG value comes from to the obs. SD2326013400024 between all available gamma-lines. 2326013400025 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326013400026 ENDBIB 24 0 2326013400027 COMMON 1 3 2326013400028 EN-MEAN 2326013400029 EV 2326013400030 0.0253 2326013400031 ENDCOMMON 3 0 2326013400032 DATA 2 55 2326013400033 DATA DECAY-FLAG 2326013400034 B NO-DIM 2326013400035 0.437 1. 2326013400036 0.433 2. 2326013400037 0.428 3. 2326013400038 0.430 4. 2326013400039 0.424 5. 2326013400040 ENDDATA 7 0 2326013400041 ENDSUBENT 40 0 2326013499999 SUBENT 23260135 20230212 20231011 2326013500001 BIB 6 11 2326013500002 REACTION (72-HF-180(N,G)72-HF-181,,SIG) 2326013500003 SIG-0 - the neutron capture cross-section 2326013500004 for neutrons at an average energy of E0=25.3 meV 2326013500005 or velocity v0=2200 m/s. 2326013500006 DECAY-DATA (72-HF-181,42.39D) 2326013500007 ANALYSIS Derived from directly measured data. 2326013500008 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326013500009 STATUS (TABLE) Table 6 of J.Radioanal.Nucl.chem.,302,655,2014;2326013500010 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326013500011 (DEP,23260136) Directly measured data. 2326013500012 HISTORY (20230212A) SD: SF4=Hf-181g -> Hf-181 in REACTION code.2326013500013 ENDBIB 11 0 2326013500014 COMMON 1 3 2326013500015 EN 2326013500016 EV 2326013500017 0.0253 2326013500018 ENDCOMMON 3 0 2326013500019 DATA 2 1 2326013500020 DATA DATA-ERR 2326013500021 B B 2326013500022 13.01 0.07 2326013500023 ENDDATA 3 0 2326013500024 ENDSUBENT 23 0 2326013599999 SUBENT 23260136 20230212 20231011 2326013600001 BIB 8 23 2326013600002 REACTION (72-HF-180(N,G)72-HF-181,,SIG) 2326013600003 Effective thermal neutron cross-section. 2326013600004 SAMPLE Provider - IRMM 2326013600005 Matrix - Wire,Al alloy 2326013600006 Average sample thickness h,mm - 1. 2326013600007 -Elemental content, % weight - 5. 2326013600008 -Elemental content, % weight - 0.1 2326013600009 (72-HF-180,NAT=0.3508) 35.08+-0.26 % 2326013600010 DECAY-DATA ((1.)72-HF-181,42.39D,DG,133.0,0.433) 2326013600011 ((2.)72-HF-181,42.39D,DG,345.9,0.1512) 2326013600012 ((3.)72-HF-181,42.39D,DG,482.2,0.805) 2326013600013 METHOD S84 channel: 2 samples x material x 4 irradiations. 2326013600014 ANALYSIS An effective thermal neutron cross-section SIG was 2326013600015 extrapolated with aid of the k0-definition, atomic 2326013600016 weight, isotopic composition, the gamma intensities 2326013600017 values. 2326013600018 Defined according to their ADS(activation decay scheme,2326013600019 including decay branching factors). 2326013600020 ERR-ANALYS Not given. 2326013600021 Uncertainty on exp. SIG value comes from to the obs. SD2326013600022 between all available gamma-lines. 2326013600023 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326013600024 HISTORY (20230212A) SD: SF4=Hf-181g -> Hf-181 in REACTION code.2326013600025 ENDBIB 23 0 2326013600026 COMMON 1 3 2326013600027 EN-MEAN 2326013600028 EV 2326013600029 0.0253 2326013600030 ENDCOMMON 3 0 2326013600031 DATA 2 35 2326013600032 DATA DECAY-FLAG 2326013600033 B NO-DIM 2326013600034 13.08 1. 2326013600035 12.93 2. 2326013600036 13.03 3. 2326013600037 ENDDATA 5 0 2326013600038 ENDSUBENT 37 0 2326013699999 SUBENT 23260137 20141210 22412326013700001 BIB 4 9 2326013700002 REACTION (73-TA-181(N,G)73-TA-182,,SIG) 2326013700003 SIG-0 - the neutron capture cross-section 2326013700004 for neutrons at an average energy of E0=25.3 meV 2326013700005 or velocity v0=2200 m/s. 2326013700006 ANALYSIS Derived from directly measured data. 2326013700007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326013700008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326013700009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326013700010 (DEP,23260138) Directly measured data. 2326013700011 ENDBIB 9 0 2326013700012 COMMON 1 3 2326013700013 EN 2326013700014 EV 2326013700015 0.0253 2326013700016 ENDCOMMON 3 0 2326013700017 DATA 2 1 2326013700018 DATA DATA-ERR 2326013700019 B B 2326013700020 20.2 0.1 2326013700021 ENDDATA 3 0 2326013700022 ENDSUBENT 21 0 2326013799999 SUBENT 23260138 20141210 22412326013800001 BIB 7 46 2326013800002 REACTION (73-TA-181(N,G)73-TA-182,,SIG) M+G 2326013800003 Effective thermal neutron cross-section. 2326013800004 SAMPLE - Provider - IRMM 2326013800005 Matrix - Foil 2326013800006 Elemental content, % weight > 99.99 2326013800007 Average sample thickness h,mm - 1. 2326013800008 - Provider - IRMM 2326013800009 Matrix - Foil, Y alloy 2326013800010 Elemental content, % weight - 0.7 2326013800011 Average sample thickness h,mm - 0.1 2326013800012 - Provider - NIST 2326013800013 Matrix - Liquid on paper 2326013800014 Elemental content, % weight - 1. 2326013800015 Average sample thickness h,mm - 1.25 2326013800016 (73-TA-181,NAT=0.9998799) 99.98799+-0.00032 % 2326013800017 DECAY-DATA ((1.)73-TA-182-G,114.4D,DG,84.7,0.0265) 2326013800018 ((2.)73-TA-182-G,114.4D,DG,100.1,0.142) 2326013800019 ((3.)73-TA-182-G,114.4D,DG,113.7,0.0187) 2326013800020 ((4.)73-TA-182-G,114.4D,DG,152.4,0.0702) 2326013800021 ((5.)73-TA-182-G,114.4D,DG,156.4,0.0267) 2326013800022 ((6.)73-TA-182-G,114.4D,DG,179.4,0.0312) 2326013800023 ((7.)73-TA-182-G,114.4D,DG,198.4,0.0147) 2326013800024 ((8.)73-TA-182-G,114.4D,DG,222.1,0.0757) 2326013800025 ((9.)73-TA-182-G,114.4D,DG,229.3,0.0364) 2326013800026 ((10.)73-TA-182-G,114.4D,DG,264.1,0.0361) 2326013800027 ((11.)73-TA-182-G,114.4D,DG,1001.7,0.0209) 2326013800028 ((12.)73-TA-182-G,114.4D,DG,1121.3,0.3524) 2326013800029 reference line. 2326013800030 ((13.)73-TA-182-G,114.4D,DG,1189.1,0.1649) 2326013800031 ((14.)73-TA-182-G,114.4D,DG,1221.4,0.2723) 2326013800032 ((15.)73-TA-182-G,114.4D,DG,1231.0,0.1162) 2326013800033 ((16.)73-TA-182-G,114.4D,DG,1257.4,0.0151) 2326013800034 ((17.)73-TA-182-G,114.4D,DG,1289.2,0.0137) 2326013800035 (73-TA-182-G,114.4D,DG,1157.5) 2326013800036 (73-TA-182-M2,15.8MIN) 2326013800037 METHOD Each channel: 4 samples x material x 4 irradiations. 2326013800038 ANALYSIS An effective thermal neutron cross-section SIG was 2326013800039 extrapolated with aid of the k0-definition, atomic 2326013800040 weight, isotopic composition, the gamma intensities 2326013800041 values. 2326013800042 Defined according to their ADS(activation decay scheme,2326013800043 including decay branching factors). 2326013800044 ERR-ANALYS Not given. 2326013800045 Uncertainty on exp. SIG value comes from to the obs. SD2326013800046 between all available gamma-lines. 2326013800047 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326013800048 ENDBIB 46 0 2326013800049 COMMON 1 3 2326013800050 EN-MEAN 2326013800051 EV 2326013800052 0.0253 2326013800053 ENDCOMMON 3 0 2326013800054 DATA 2 175 2326013800055 DATA DECAY-FLAG 2326013800056 B NO-DIM 2326013800057 20.3 1. 2326013800058 19.9 2. 2326013800059 20.3 3. 2326013800060 20.2 4. 2326013800061 20.3 5. 2326013800062 20.2 6. 2326013800063 20.1 7. 2326013800064 20.3 8. 2326013800065 20.4 9. 2326013800066 20.2 10. 2326013800067 20.0 11. 2326013800068 20.3 12. 2326013800069 20.1 13. 2326013800070 20.3 14. 2326013800071 20.2 15. 2326013800072 20.2 16. 2326013800073 20.2 17. 2326013800074 ENDDATA 19 0 2326013800075 ENDSUBENT 74 0 2326013899999 SUBENT 23260139 20141210 22412326013900001 BIB 5 13 2326013900002 REACTION 1(78-PT-196(N,G)78-PT-197-M,,SIG) 2326013900003 2(78-PT-196(N,G)78-PT-197-G,,SIG) 2326013900004 3(78-PT-196(N,G)78-PT-197,,SIG) 2326013900005 SIG-0 - the neutron capture cross-section 2326013900006 for neutrons at an average energy of E0=25.3 meV 2326013900007 or velocity v0=2200 m/s. 2326013900008 DECAY-DATA (78-PT-197-M,95.41MIN) 2326013900009 (78-PT-197-G,19.892HR) 2326013900010 ANALYSIS Derived from directly measured data. 2326013900011 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326013900012 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326013900013 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326013900014 (DEP,23260140) Directly measured data. 2326013900015 ENDBIB 13 0 2326013900016 COMMON 1 3 2326013900017 EN 2326013900018 EV 2326013900019 0.0253 2326013900020 ENDCOMMON 3 0 2326013900021 DATA 6 1 2326013900022 DATA 1DATA-ERR 1DATA 2DATA-ERR 2DATA 3DATA-ERR 32326013900023 B B B B B B 2326013900024 0.0352 0.0004 0.718 0.003 0.753 0.015 2326013900025 ENDDATA 3 0 2326013900026 ENDSUBENT 25 0 2326013999999 SUBENT 23260140 20141210 22412326014000001 BIB 7 31 2326014000002 REACTION (78-PT-196(N,G)78-PT-197,,SIG) 2326014000003 Effective thermal neutron cross-section. 2326014000004 SAMPLE - Provider - Goodfellow 2326014000005 Matrix - Wire 2326014000006 Elemental content, % weight > 99.99 2326014000007 Average sample thickness h,mm - 0.5 2326014000008 - Provider - Alfa Aesar 2326014000009 Matrix - Foil,Ru alloy 2326014000010 Elemental content, % weight - 95.35 2326014000011 Average sample thickness h,mm - 0.05 2326014000012 - Provider - Alfa Aesar 2326014000013 Matrix - Liquid on paper 2326014000014 Elemental content, % weight - 0.1 2326014000015 Average sample thickness h,mm - 1.25 2326014000016 (78-PT-196,NAT=0.2521) 25.21+-0.34 % 2326014000017 DECAY-DATA (78-PT-197-M,95.41MIN,DG,346.5,0.1110) 2326014000018 reference line, c-s=0.0352 b 2326014000019 ((1.)78-PT-197-G,19.892HR,DG,191.4,0.0370) 2326014000020 reference line 2326014000021 ((2.)78-PT-197-G,19.892HR,DG,268.8,0.0023) 2326014000022 METHOD Each channel: 2 samples x material x 2 irradiations. 2326014000023 ANALYSIS An effective thermal neutron cross-section SIG was 2326014000024 extrapolated with aid of the k0-definition, atomic 2326014000025 weight, isotopic composition, the gamma intensities 2326014000026 values. 2326014000027 Defined according to their ADS(activation decay scheme,2326014000028 including decay branching factors). 2326014000029 ERR-ANALYS Not given. 2326014000030 Uncertainty on exp. SIG value comes from to the obs. SD2326014000031 between all available gamma-lines. 2326014000032 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326014000033 ENDBIB 31 0 2326014000034 COMMON 1 3 2326014000035 EN-MEAN 2326014000036 EV 2326014000037 0.0253 2326014000038 ENDCOMMON 3 0 2326014000039 DATA 2 25 2326014000040 DATA DECAY-FLAG 2326014000041 B NO-DIM 2326014000042 0.752 1. 2326014000043 0.751 2. 2326014000044 ENDDATA 4 0 2326014000045 ENDSUBENT 44 0 2326014099999 SUBENT 23260141 20141210 22412326014100001 BIB 4 9 2326014100002 REACTION (78-PT-198(N,G)78-PT-199,,SIG) 2326014100003 SIG-0 - the neutron capture cross-section 2326014100004 for neutrons at an average energy of E0=25.3 meV 2326014100005 or velocity v0=2200 m/s. 2326014100006 ANALYSIS Derived from directly measured data. 2326014100007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326014100008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326014100009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326014100010 (DEP,23260142) Directly measured data. 2326014100011 ENDBIB 9 0 2326014100012 COMMON 1 3 2326014100013 EN 2326014100014 EV 2326014100015 0.0253 2326014100016 ENDCOMMON 3 0 2326014100017 DATA 2 1 2326014100018 DATA DATA-ERR 2326014100019 B B 2326014100020 3.30 0.01 2326014100021 ENDDATA 3 0 2326014100022 ENDSUBENT 21 0 2326014199999 SUBENT 23260142 20181012 22732326014200001 BIB 8 36 2326014200002 REACTION (78-PT-198(N,G)78-PT-199,,SIG) 2326014200003 Effective thermal neutron cross-section. 2326014200004 SAMPLE - Provider - Goodfellow 2326014200005 Matrix - Wire 2326014200006 Elemental content, % weight > 99.99 2326014200007 Average sample thickness h,mm - 0.5 2326014200008 - Provider - Alfa Aesar 2326014200009 Matrix - Foil,Ru alloy 2326014200010 Elemental content, % weight - 95.35 2326014200011 Average sample thickness h,mm - 0.05 2326014200012 - Provider - Alfa Aesar 2326014200013 Matrix - Liquid on paper 2326014200014 Elemental content, % weight - 0.1 2326014200015 Average sample thickness h,mm - 1.25 2326014200016 (78-PT-198,NAT=0.07356) 7.356+-0.130 % 2326014200017 DECAY-DATA (78-PT-199-G,30.8MIN,DG,493.8,0.0447) c-s=3.25 b 2326014200018 (78-PT-199-G,30.8MIN,DG,543.0,0.1174) 2326014200019 reference line, c-s=3.25 b 2326014200020 (78-PT-199-G,30.8MIN,DG,714.6,0.0145) c-s=3.26 b 2326014200021 ((1.)79-AU-199,3.139D,DG,158.4,0.400) 2326014200022 ((2.)79-AU-199,3.139D,DG,208.2,0.0872) 2326014200023 (78-PT-199-M,13.6SEC,DG,391.9,0.8494) 2326014200024 reference line, c-s=0.35 b 2326014200025 METHOD Each channel: 2 samples x material x 2 irradiations. 2326014200026 ANALYSIS An effective thermal neutron cross-section SIG was 2326014200027 extrapolated with aid of the k0-definition, atomic 2326014200028 weight, isotopic composition, the gamma intensities 2326014200029 values. 2326014200030 Defined according to their ADS(activation decay scheme,2326014200031 including decay branching factors). 2326014200032 ERR-ANALYS Not given. 2326014200033 Uncertainty on exp. SIG value comes from to the obs. SD2326014200034 between all available gamma-lines. 2326014200035 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326014200036 HISTORY (20181012A) SD: Data were corrected according to 2326014200037 presentation in the table. 2326014200038 ENDBIB 36 0 2326014200039 COMMON 1 3 2326014200040 EN-MEAN 2326014200041 EV 2326014200042 0.0253 2326014200043 ENDCOMMON 3 0 2326014200044 DATA 2 25 2326014200045 DATA DECAY-FLAG 2326014200046 B NO-DIM 2326014200047 3.30 1. 2326014200048 3.29 2. 2326014200049 ENDDATA 4 0 2326014200050 ENDSUBENT 49 0 2326014299999 SUBENT 23260143 20141210 22412326014300001 BIB 4 9 2326014300002 REACTION (90-TH-232(N,G)90-TH-233,,SIG) 2326014300003 SIG-0 - the neutron capture cross-section 2326014300004 for neutrons at an average energy of E0=25.3 meV 2326014300005 or velocity v0=2200 m/s. 2326014300006 ANALYSIS Derived from directly measured data. 2326014300007 ERR-ANALYS (DATA-ERR) One sigma uncertainty. 2326014300008 STATUS (TABLE) Table 6 of J,JRN,302,655,2014; 2326014300009 Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326014300010 (DEP,23260144) Directly measured data. 2326014300011 ENDBIB 9 0 2326014300012 COMMON 1 3 2326014300013 EN 2326014300014 EV 2326014300015 0.0253 2326014300016 ENDCOMMON 3 0 2326014300017 DATA 2 1 2326014300018 DATA DATA-ERR 2326014300019 B B 2326014300020 7.408 0.021 2326014300021 ENDDATA 3 0 2326014300022 ENDSUBENT 21 0 2326014399999 SUBENT 23260144 20141210 22412326014400001 BIB 7 25 2326014400002 REACTION (90-TH-232(N,G)90-TH-233,,SIG) 2326014400003 Effective thermal neutron cross-section. 2326014400004 SAMPLE - Provider - IRMM 2326014400005 Matrix - Wire, Al alloy 2326014400006 Elemental content, % weight - 0.819 2326014400007 Average sample thickness h,mm - 1. 2326014400008 (90-TH-232,NAT=1.00) 100.% 2326014400009 DECAY-DATA (90-TH-233,22.3MIN) 2326014400010 ((1.)91-PA-233,26.97D,DG,300.1,0.0663) 2326014400011 ((2.)91-PA-233,26.97D,DG,311.9,0.385) reference line 2326014400012 ((3.)91-PA-233,26.97D,DG,340.5,0.0445) 2326014400013 ((4.)91-PA-233,26.97D,DG,375.4,0.00679) 2326014400014 ((5.)91-PA-233,26.97D,DG,398.5,0.01391) 2326014400015 ((6.)91-PA-233,26.97D,DG,415.8,0.0173) 2326014400016 METHOD Each channel: 4 samples x 4 irradiations. 2326014400017 ANALYSIS An effective thermal neutron cross-section SIG was 2326014400018 extrapolated with aid of the k0-definition, atomic 2326014400019 weight, isotopic composition, the gamma intensities 2326014400020 values. 2326014400021 Defined according to their ADS(activation decay scheme,2326014400022 including decay branching factors). 2326014400023 ERR-ANALYS Not given. 2326014400024 Uncertainty on exp. SIG value comes from to the obs. SD2326014400025 between all available gamma-lines. 2326014400026 STATUS (TABLE) Suppl.material 10967-2014-3281-MOESM2-ESM.pdf 2326014400027 ENDBIB 25 0 2326014400028 COMMON 1 3 2326014400029 EN-MEAN 2326014400030 EV 2326014400031 0.0253 2326014400032 ENDCOMMON 3 0 2326014400033 DATA 2 65 2326014400034 DATA DECAY-FLAG 2326014400035 B NO-DIM 2326014400036 7.409 1. 2326014400037 7.400 2. 2326014400038 7.435 3. 2326014400039 7.371 4. 2326014400040 7.420 5. 2326014400041 7.411 6. 2326014400042 ENDDATA 8 0 2326014400043 ENDSUBENT 42 0 2326014499999 ENDENTRY 144 0 2326099999999