ENTRY 23720 20210510 23002372000000001 SUBENT 23720001 20210510 23002372000100001 BIB 10 38 2372000100002 TITLE Resonance parameters of Gd isotopes derived from 2372000100003 capture measurements at GELINA 2372000100004 AUTHOR (Y.-U.Kye, S.-G.Shin, M.-H.Cho, W.Namkung, G.Kim, 2372000100005 P.Schillebeeckx, C.Paradela, S.Kopecky) 2372000100006 INSTITUTE (3KORPUE,3KORKNU,2ZZZGEL) 2372000100007 REFERENCE (J,EPJ/A,56,30,2020) 2372000100008 #doi:10.1140/epja/s10050-020-00047-6 2372000100009 FACILITY (LINAC,2ZZZGEL) GELINA electron linac 2372000100010 - Nominal average beam energy = 150 MeV 2372000100011 - Nominal average peak power = 10 kW 2372000100012 - Repetition rate (pulses per second) = 800 Hz 2372000100013 - Pulse width of electron beam = 1 ns 2372000100014 INC-SOURCE (PHOTO) 2372000100015 - (g,n) on mercury-cooled depleted uranium 2372000100016 - Two water filled Be-containers were placed as 2372000100017 moderators above and below the U target 2372000100018 (14.6 cm x 21 cm x 3.9 cm) at room temperature. 2372000100019 - Density of moderator material = 1 g/cm32372000100020 - Response function: 2372000100021 Target/moderator assembly: Numerical distribution from2372000100022 MC simulations 2372000100023 DETECTOR (SCIN) Two hydrogen-free C6D6 scintillators with a time2372000100024 resolution less than 1 ns, placed symmetrically at 2372000100025 125 degrees. 2372000100026 (IOCH) Two Frisch-gridded ionisation chambers with a 2372000100027 common cathode loaded with two layers of 10B. 2372000100028 METHOD (TOF) Flight path direction w.r.t. normal of the 2372000100029 moderator face viewing the flight path = 0 deg. 2372000100030 Flight path = 28.90 (1) m 2372000100031 Overlap filter: 10B 2372000100032 Black resonance filters: Co, Na, W and S 2372000100033 (PHWT) 2372000100034 ANALYSIS The normalization factor determined by additional 2372000100035 measurement with natural silver metallic disc with 2372000100036 diameter of 18 mm and a thickness of 0.11 mm . 2372000100037 The AGS (Analysis of Geel Spectra) package was used to 2372000100038 derive the experimental yield from the TOF histograms. 2372000100039 HISTORY (20210510C) VS + On. 2372000100040 ENDBIB 38 0 2372000100041 NOCOMMON 0 0 2372000100042 ENDSUBENT 41 0 2372000199999 SUBENT 23720002 20210510 23002372000200001 BIB 4 16 2372000200002 REACTION (64-GD-155(N,G)64-GD-156,,RYL) 2372000200003 SAMPLE (64-GD-155,ENR=0.9174) 2372000200004 Other isotopes: 64-GD-152 < 0.04%; 2372000200005 64-GD-154 (0.64+-0.01)%; 64-GD-156 (5.11+-0.1)%; 2372000200006 64-GD-157 (1.12+-0.05)%; 64-GD-158 (0.94+-0.05)%; 2372000200007 64-GD-160 (0.41+-0.01)% 2372000200008 - Physical type: Metal 2372000200009 - Sample mass: 204.0 +- 0.1 mg 2372000200010 - Atomic weight 155.04 +-0.25 2372000200011 - Geometrical shape: Disc 2372000200012 - Area: 256.63 +- 0.04 mm2 2372000200013 - Nominal thickness: 0.110 +- 0.002 mm 2372000200014 - Atomic density : (3.09 +/- 0.03)E-4 at/b 2372000200015 ERR-ANALYS The AGS (Analysis of Geel Spectra) package was used to 2372000200016 perform a full uncertainty propagation. 2372000200017 STATUS (UNOBT) Plotted on Fig. 3 of Eur.Phys.J.A56(2020)30 2372000200018 ENDBIB 16 0 2372000200019 NOCOMMON 0 0 3 2372000200020 NODATA 0 0 2372000200021 ENDSUBENT 20 0 2372000299999 SUBENT 23720003 20210511 23002372000300001 BIB 4 16 2372000300002 REACTION (64-GD-156(N,G)64-GD-157,,RYL) 2372000300003 SAMPLE (64-GD-156,ENR=0.9379) 2372000300004 Other isotopes: 64-GD-152 < 0.01%; 2372000300005 64-GD-154 (0.11+-0.01)%; 64-GD-155 (1.96+-0.01)%; 2372000300006 64-GD-157 (2.53+-0.01)%; 64-GD-158 (1.20+-0.01)%; 2372000300007 64-GD-160 (0.41+-0.01)% 2372000300008 - Physical type: Metal 2372000300009 - Sample mass: 198.0 +- 0.1 mg 2372000300010 - Atomic weight 155.97 +-0.25 2372000300011 - Geometrical shape: Disc 2372000300012 - Area: 258.06 +- 0.12 mm2 2372000300013 - Nominal thickness: 0.110 +- 0.002 mm 2372000300014 - Atomic density : (2.96 +/- 0.03)E-4 at/b 2372000300015 ERR-ANALYS The AGS (Analysis of Geel Spectra) package was used to 2372000300016 perform a full uncertainty propagation. 2372000300017 STATUS (UNOBT) Plotted on Fig. 3 of Eur.Phys.J.A56(2020)30 2372000300018 ENDBIB 16 0 2372000300019 NOCOMMON 0 0 2372000300020 NODATA 0 0 2372000300021 ENDSUBENT 20 0 2372000399999 SUBENT 23720004 20210511 23002372000400001 BIB 4 16 2372000400002 REACTION (64-GD-157(N,G)64-GD-158,,RYL) 2372000400003 SAMPLE (64-GD-157,ENR=0.9096) 2372000400004 Other isotopes: 64-GD-152 < 0.02%; 2372000400005 64-GD-154 (0.16+-0.01)%; 64-GD-155 (0.81+-0.01)%; 2372000400006 64-GD-156 (2.21+-0.02)%; 64-GD-158 (5.08+-0.05)%; 2372000400007 64-GD-160 (0.80+-0.01)% 2372000400008 - Physical type: Metal 2372000400009 - Sample mass: 357.0 +- 0.1 mg 2372000400010 - Atomic weight 156.92 +-0.25 2372000400011 - Geometrical shape: Disc 2372000400012 - Area: 232.43 +- 0.05 mm2 2372000400013 - Nominal thickness: 0.210 +- 0.002 mm 2372000400014 - Atomic density : (5.82 +/- 0.03)E-4 at/b 2372000400015 ERR-ANALYS The AGS (Analysis of Geel Spectra) package was used to 2372000400016 perform a full uncertainty propagation. 2372000400017 STATUS (UNOBT) Plotted on Fig. 3 of Eur.Phys.J.A56(2020)30 2372000400018 ENDBIB 16 0 2372000400019 NOCOMMON 0 0 2372000400020 NODATA 0 0 2372000400021 ENDSUBENT 20 0 2372000499999 SUBENT 23720005 20210511 23002372000500001 BIB 4 16 2372000500002 REACTION (64-GD-158(N,G)64-GD-159,,RYL) 2372000500003 SAMPLE (64-GD-158,ENR=0.9200) 2372000500004 Other isotopes: 64-GD-152 < 0.10%; 2372000500005 64-GD-154 < 0.10%; 64-GD-155 (0.96+-0.05)%; 2372000500006 64-GD-156 (1.70+-0.05)%; 64-GD-157 (3.56+-0.05)%; 2372000500007 64-GD-160 (1.82+-0.05)% 2372000500008 - Physical type: Metal 2372000500009 - Sample mass: 353.0 +- 0.1 mg 2372000500010 - Atomic weight 157.92 +-0.22 2372000500011 - Geometrical shape: Disc 2372000500012 - Area: 234.84 +- 0.06 mm2 2372000500013 - Nominal thickness: 0.210 +- 0.005 mm 2372000500014 - Atomic density : (5.80 +/- 0.05)E-4 at/b 2372000500015 ERR-ANALYS The AGS (Analysis of Geel Spectra) package was used to 2372000500016 perform a full uncertainty propagation. 2372000500017 STATUS (UNOBT) Plotted on Fig. 3 of Eur.Phys.J.A56(2020)30 2372000500018 ENDBIB 16 0 2372000500019 NOCOMMON 0 0 2372000500020 NODATA 0 0 2372000500021 ENDSUBENT 20 0 2372000599999 SUBENT 23720006 20210511 23002372000600001 BIB 4 16 2372000600002 REACTION (64-GD-160(N,G)64-GD-161,,RYL) 2372000600003 SAMPLE (64-GD-160,ENR=0.9812) 2372000600004 Other isotopes: 64-GD-152 < 0.01%; 2372000600005 64-GD-154 < 0.02%; 64-GD-155 (0.18+-0.01)%; 2372000600006 64-GD-156 (0.32+-0.01)%; 64-GD-157 (0.43+-0.01)%; 2372000600007 64-GD-160 (0.93+-0.01)% 2372000600008 - Physical type: Metal 2372000600009 - Sample mass: 193.3 +- 0.1 mg 2372000600010 - Atomic weight 159.93 +-0.22 2372000600011 - Geometrical shape: Disc 2372000600012 - Area: 258.76 +- 0.02 mm2 2372000600013 - Nominal thickness: 0.100 +- 0.002 mm 2372000600014 - Atomic density : (2.82 +/- 0.03)E-4 at/b 2372000600015 ERR-ANALYS The AGS (Analysis of Geel Spectra) package was used to 2372000600016 perform a full uncertainty propagation. 2372000600017 STATUS (UNOBT) Plotted on Fig. 3 of Eur.Phys.J.A56(2020)30 2372000600018 ENDBIB 16 0 2372000600019 NOCOMMON 0 0 2372000600020 NODATA 0 0 2372000600021 ENDSUBENT 20 0 2372000699999 SUBENT 23720007 20210511 23002372000700001 BIB 4 15 2372000700002 REACTION 1(64-GD-155(N,0),,EN) 2372000700003 2(64-GD-155(N,G),,WID,,RM) 2372000700004 3(64-GD-155(N,EL),,WID,,RM) 2372000700005 4(64-GD-155(N,G),,WID/STR,,RM) 2372000700006 ANALYSIS Resonance shape analysis performed by REFIT code 2372000700007 based on the Reich-Moore approximation of the 2372000700008 R-matrix formalism. The region between 122 and 144 eV 2372000700009 was excluded from the analysis. 2372000700010 ERR-ANALYS (DATA-ERR) No information on source of uncertainties. 2372000700011 STATUS (TABLE) Table 8 of Eur.Phys.J.56(2020)30 2372000700012 (DEP,23720002) 64-GD-155 capture reaction yield 2372000700013 (DEP,23720003) 64-GD-156 capture reaction yield 2372000700014 (DEP,23720004) 64-GD-157 capture reaction yield 2372000700015 (DEP,23720005) 64-GD-158 capture reaction yield 2372000700016 (DEP,23720006) 64-GD-160 capture reaction yield 2372000700017 ENDBIB 15 0 2372000700018 NOCOMMON 0 0 2372000700019 DATA 9 87 2372000700020 DATA 1DATA-ERR 1SPIN J DATA 2DATA-ERR 2DATA 32372000700021 DATA-ERR 3DATA 4DATA-ERR 4 2372000700022 EV EV NO-DIM MILLI-EV MILLI-EV MILLI-EV 2372000700023 MILLI-EV MILLI-EV MILLI-EV 2372000700024 6.304 0.002 2. 2.052372000700025 0.05 1.26 0.03 2372000700026 7.740 0.003 2. 1.122372000700027 0.03 0.7 0.1 2372000700028 9.99 0.01 2. 0.202372000700029 0.01 0.12 0.01 2372000700030 11.505 0.006 1. 0.602372000700031 0.03 0.22 0.01 2372000700032 11.956 0.003 2. 1.022372000700033 0.02 0.63 0.01 2372000700034 14.476 0.002 1. 3.182372000700035 0.06 1.16 0.02 2372000700036 17.72 0.01 2. 0.322372000700037 0.01 0.2 0.1 2372000700038 19.864 0.001 2. 4.412372000700039 0.06 2.65 0.05 2372000700040 20.974 0.003 2. 130. 11. 10.42372000700041 0.2 6.0 0.5 2372000700042 23.579 0.002 2. 2.812372000700043 0.04 1.72 0.03 2372000700044 27.485 0.006 1. 0.972372000700045 0.05 0.36 0.01 2372000700046 29.505 0.002 2. 4.752372000700047 0.011 2.84 0.04 2372000700048 30.058 0.002 2. 10.22372000700049 0.1 5.79 0.012 2372000700050 31.635 0.005 2. 1.062372000700051 0.03 0.66 0.01 2372000700052 33.00 0.01 1. 1.732372000700053 0.05 0.64 0.02 2372000700054 33.411 0.006 1. 1.652372000700055 0.05 0.61 0.02 2372000700056 34.728 0.003 1. 6.72372000700057 0.1 2.42 0.05 2372000700058 35.389 0.005 2. 1.782372000700059 0.05 1.1 0.2 2372000700060 37.030 0.002 1. 7.52372000700061 0.1 2.7 0.2 2372000700062 38.913 0.008 2. 1.112372000700063 0.03 0.69 0.02 2372000700064 43.815 0.005 1. 15.92372000700065 0.4 5.4 0.1 2372000700066 45.958 0.004 2. 1.992372000700067 0.04 1.22 0.03 2372000700068 46.774 0.003 2. 5.242372000700069 0.06 3.11 0.05 2372000700070 47.61 0.03 1. 0.392372000700071 0.05 0.15 0.02 2372000700072 51.240 0.002 1. 17.52372000700073 0.3 5.66 0.012 2372000700074 51.999 0.005 1. 18.02372000700075 0.2 5.6 0.5 2372000700076 52.86 0.01 2. 1.122372000700077 0.06 0.69 0.04 2372000700078 53.591 0.002 2. 7.62372000700079 0.1 4.38 0.10 2372000700080 56.086 0.005 2. 2.022372000700081 0.04 1.24 0.03 2372000700082 59.272 0.004 2. 6.52372000700083 0.1 3.89 0.11 2372000700084 62.700 0.005 2. 140. 12. 7.42372000700085 0.1 4.4 0.5 2372000700086 64.0 0.1 2. 0.1172372000700087 0.005 0.073 0.002 2372000700088 65.04 0.02 1. 0.802372000700089 0.06 0.30 0.02 2372000700090 69.400 0.005 2. 5.72372000700091 1.3 3.39 0.08 2372000700092 76.77 0.01 2. 1.532372000700093 0.05 0.94 0.03 2372000700094 77.67 0.02 1. 0.832372000700095 0.11 0.31 0.03 2372000700096 78.69 0.04 2. 4.382372000700097 0.012 2.63 0.05 2372000700098 80.67 0.03 1. 2.312372000700099 0.012 0.85 0.05 2372000700100 83.895 0.004 1. 8.92372000700101 0.1 3.08 0.08 2372000700102 84.84 0.01 1. 3.62372000700103 0.1 1.32 0.05 2372000700104 90.38 0.01 2. 1.192372000700105 0.08 0.74 0.05 2372000700106 92.33 0.03 2. 2.12372000700107 0.2 1.3 0.1 2372000700108 92.8 0.1 2. 2.92372000700109 0.1 1.77 0.14 2372000700110 93.86 0.05 2. 0.392372000700111 0.06 0.25 0.04 2372000700112 95.6 0.8 2. 3.472372000700113 0.13 2.10 0.08 2372000700114 96.30 0.01 1. 6.52372000700115 0.1 2.30 0.06 2372000700116 98.205 0.005 1. 89. 11. 17.32372000700117 0.3 5.4 0.6 2372000700118 100.09 0.01 1. 2.42372000700119 0.1 0.87 0.04 2372000700120 101.28 0.01 2. 1.962372000700121 0.10 1.20 0.04 2372000700122 101.90 0.01 1. 2.12372000700123 0.1 0.77 0.04 2372000700124 104.320 0.006 1. 8.22372000700125 0.2 2.85 0.06 2372000700126 105.82 0.01 1. 6.22372000700127 0.2 2.19 0.06 2372000700128 107.006 0.006 2. 5.92372000700129 0.1 3.48 0.11 2372000700130 109.41 0.01 1. 4.12372000700131 0.1 1.49 0.08 2372000700132 112.288 0.006 2. 7.32372000700133 0.2 4.2 0.1 2372000700134 113.705 0.008 2. 139. 20. 14.92372000700135 0.3 8. 1. 2372000700136 116.42 0.01 1. 16.42372000700137 0.5 5.4 0.1 2372000700138 118.55 0.03 2. 1.62372000700139 0.1 1.01 0.11 2372000700140 145.49 0.02 2. 6.72372000700141 0.5 4.0 0.2 2372000700142 146.83 0.02 2. 7.12372000700143 0.4 4.2 0.2 2372000700144 148.06 0.01 2. 9.32372000700145 0.5 5.4 0.2 2372000700146 149.37 0.03 1. 103. 5. 43.2372000700147 5. 11. 1. 2372000700148 150.02 0.02 2. 80. 3. 29.2372000700149 5. 13. 1. 2372000700150 152.09 0.01 1. 9.62372000700151 5. 3.3 0.1 2372000700152 153.8 1.8 2. 0.542372000700153 0.01 0.34 0.01 2372000700154 156.10 0.01 2. 7.82372000700155 0.2 4.6 0.1 2372000700156 159.9 0.1 2. 8.62372000700157 0.2 5. 1. 2372000700158 161.449 0.006 2. 20.62372000700159 0.4 10.8 0.2 2372000700160 168.129 0.006 1. 155. 25. 30.42372000700161 1.0 10. 1. 2372000700162 170.18 0.01 2. 8.62372000700163 0.3 5. 1. 2372000700164 171.12 0.01 2. 9.22372000700165 0.2 5.3 0.1 2372000700166 173.383 0.005 2. 131. 18. 32.62372000700167 1.3 16. 2. 2372000700168 175.23 0.02 2. 2.32372000700169 0.1 1.41 0.11 2372000700170 177.80 0.01 1. 10.12372000700171 0.3 3.5 0.1 2372000700172 180.14 0.01 1. 15.92372000700173 0.4 5.2 0.1 2372000700174 33.139 0.002 0.5 72. 4. 18.12372000700175 0.8 14. 1. 2372000700176 80.003 0.005 0.5 87. 5. 86.2372000700177 1. 43. 2. 2372000700178 109.08 0.01 0.5 1.022372000700179 0.05 1.01 0.05 2372000700180 150.36 0.01 0.5 89. 13. 81.2372000700181 1.0 42. 6. 2372000700182 198.38 0.01 0.5 89. 3. 272.2372000700183 16. 67. 4. 2372000700184 201.74 0.01 0.5 52. 18. 55.2372000700185 17. 27. 14. 2372000700186 244.93 0.01 0.5 2.32372000700187 0.1 2.28 0.14 2372000700188 340.81 0.01 0.5 77. 1. 613.2372000700189 24. 68. 3. 2372000700190 376.58 0.01 0.5 78. 4. 150.2372000700191 25. 51. 11. 2372000700192 427.15 0.08 0.5 2.62372000700193 0.1 2.5 0.1 2372000700194 451.28 0.01 0.5 55. 4. 127.2372000700195 35. 38. 14. 2372000700196 476.84 0.01 0.5 71. 20. 99.2372000700197 44. 41. 25. 2372000700198 ENDDATA 178 0 2372000700199 ENDSUBENT 198 0 2372000799999 SUBENT 23720008 20210511 23002372000800001 BIB 4 15 2372000800002 REACTION 1(64-GD-156(N,0),,EN) 2372000800003 2(64-GD-156(N,G),,WID,,RM) 2372000800004 3(64-GD-156(N,EL),,WID,,RM) 2372000800005 4(64-GD-156(N,G),,WID/STR,,RM) 2372000800006 ANALYSIS Resonance shape analysis performed by REFIT code 2372000800007 based on the Reich-Moore approximation of the 2372000800008 R-matrix formalism. The region between 122 and 144 eV 2372000800009 was excluded from the analysis. 2372000800010 ERR-ANALYS (DATA-ERR) No information on source of uncertainties. 2372000800011 STATUS (TABLE) Table 9 of Eur.Phys.J.56(2020)30 2372000800012 (DEP,23720002) 64-GD-155 capture reaction yield 2372000800013 (DEP,23720003) 64-GD-156 capture reaction yield 2372000800014 (DEP,23720004) 64-GD-157 capture reaction yield 2372000800015 (DEP,23720005) 64-GD-158 capture reaction yield 2372000800016 (DEP,23720006) 64-GD-160 capture reaction yield 2372000800017 ENDBIB 15 0 2372000800018 NOCOMMON 0 0 2372000800019 DATA 9 12 2372000800020 DATA 1DATA-ERR 1SPIN J DATA 2DATA-ERR 2DATA 32372000800021 DATA-ERR 3DATA 4DATA-ERR 4 2372000800022 EV EV NO-DIM MILLI-EV MILLI-EV MILLI-EV 2372000800023 MILLI-EV MILLI-EV MILLI-EV 2372000800024 33.139 0.002 0.5 72. 4. 18.12372000800025 0.8 14. 1. 2372000800026 80.003 0.05 0.5 87. 5. 86.2372000800027 1. 43. 2. 2372000800028 109.08 0.01 0.5 1.022372000800029 0.05 1.01 0.05 2372000800030 150.36 0.01 0.5 89. 13. 81.2372000800031 10. 42. 6. 2372000800032 198.38 0.01 0.5 89. 3. 272.2372000800033 16. 67. 4. 2372000800034 201.74 0.01 0.5 52. 18. 55.2372000800035 17. 27. 14. 2372000800036 244.93 0.01 0.5 2.32372000800037 0.1 2.28 0.14 2372000800038 340.81 0.01 0.5 77. 1. 613.2372000800039 24. 68. 3. 2372000800040 376.58 0.01 0.5 78. 4. 150.2372000800041 25. 51. 11. 2372000800042 427.15 0.08 0.5 2.62372000800043 0.1 2.5 0.1 2372000800044 451.28 0.01 0.5 55. 4. 127.2372000800045 35. 38. 14. 2372000800046 476.84 0.01 0.5 71. 20. 99.2372000800047 44. 41. 25. 2372000800048 ENDDATA 28 0 2372000800049 ENDSUBENT 48 0 2372000899999 SUBENT 23720009 20210511 23002372000900001 BIB 4 15 2372000900002 REACTION 1(64-GD-157(N,0),,EN) 2372000900003 2(64-GD-157(N,G),,WID,,RM) 2372000900004 3(64-GD-157(N,EL),,WID,,RM) 2372000900005 4(64-GD-157(N,G),,WID/STR,,RM) 2372000900006 ANALYSIS Resonance shape analysis performed by REFIT code 2372000900007 based on the Reich-Moore approximation of the 2372000900008 R-matrix formalism. The region between 122 and 144 eV 2372000900009 was excluded from the analysis. 2372000900010 ERR-ANALYS (DATA-ERR) No information on source of uncertainties. 2372000900011 STATUS (TABLE) Table 10 of Eur.Phys.J.56(2020)30 2372000900012 (DEP,23720002) 64-GD-155 capture reaction yield 2372000900013 (DEP,23720003) 64-GD-156 capture reaction yield 2372000900014 (DEP,23720004) 64-GD-157 capture reaction yield 2372000900015 (DEP,23720005) 64-GD-158 capture reaction yield 2372000900016 (DEP,23720006) 64-GD-160 capture reaction yield 2372000900017 ENDBIB 15 0 2372000900018 NOCOMMON 0 0 2372000900019 DATA 9 51 2372000900020 DATA 1DATA-ERR 1SPIN J DATA 2DATA-ERR 2DATA 32372000900021 DATA-ERR 3DATA 4DATA-ERR 4 2372000900022 EV EV NO-DIM MILLI-EV MILLI-EV MILLI-EV 2372000900023 MILLI-EV MILLI-EV MILLI-EV 2372000900024 16.199 0.006 1. 0.352372000900025 0.01 0.131 0.006 2372000900026 16.78 0.01 2. 112. 6. 14.12372000900027 0.8 7.8 0.6 2372000900028 20.511 0.001 2. 91. 1. 14.2372000900029 1. 7.6 0.1 2372000900030 21.572 0.005 2. 0.362372000900031 0.01 0.22 0.01 2372000900032 23.282 0.005 1. 0.752372000900033 0.01 0.28 0.01 2372000900034 25.344 0.001 2. 1.822372000900035 0.02 1.12 0.01 2372000900036 40.048 0.004 1. 1.282372000900037 0.03 0.47 0.01 2372000900038 44.104 0.005 2. 109. 5. 9.52372000900039 0.1 5.5 0.2 2372000900040 48.671 0.002 2. 107. 12. 26.2372000900041 1. 13. 1. 2372000900042 58.246 0.003 2. 106. 12. 32.2372000900043 1. 15. 1. 2372000900044 66.47 0.02 1. 108. 4. 16.92372000900045 3. 5.5 3. 2372000900046 81.237 0.005 1. 24.72372000900047 0.8 7.6 0.1 2372000900048 82.034 0.006 2. 94. 10. 6.782372000900049 0.14 4. 4. 2372000900050 87.099 0.005 2. 102. 15. 11.32372000900051 0.1 6.3 1.2 2372000900052 96.474 0.003 1. 23.2372000900053 5. 7.1 0.1 2372000900054 100.062 0.003 1. 120. 19. 38.2372000900055 1. 11. 1. 2372000900056 104.817 0.005 1. 78. 5. 74.2372000900057 5. 14. 1. 2372000900058 107.267 0.004 2. 5.072372000900059 0.14 2.99 0.08 2372000900060 110.438 0.005 2. 122. 13. 42.2372000900061 2. 19. 2. 2372000900062 115.257 0.004 2. 20.22372000900063 0.4 10.7 0.2 2372000900064 120.71 0.01 2. 68. 2. 153.2372000900065 12. 29. 2. 2372000900066 148.27 0.01 1. 105. 2. 26.32372000900067 1.3 7.9 0.5 2372000900068 156.43 0.05 2. 109. 17. 21.62372000900069 1.0 11. 1. 2372000900070 164.734 0.004 1. 80. 5. 56.2372000900071 3. 12. 1. 2372000900072 167.94 0.01 2. 1.882372000900073 0.10 1.15 0.04 2372000900074 169.22 0.01 2. 2.922372000900075 0.13 1.77 0.08 2372000900076 171.25 0.01 1. 159.1 0.5 94.2372000900077 20. 22. 5. 2372000900078 178.546 0.005 2. 103. 6. 18.2372000900079 4. 9.6 1.2 2372000900080 183.799 0.004 1. 101. 6. 39.2372000900081 2. 10.5 1.4 2372000900082 190.608 0.006 1. 96. 10. 36.2372000900083 2. 9.9 1.4 2372000900084 194.418 0.004 2. 117. 5. 46.2372000900085 2. 21. 1. 2372000900086 202.85 0.01 1. 11.12372000900087 0.2 3.67 0.12 2372000900088 205.46 0.02 2. 1.562372000900089 0.10 0.96 0.04 2372000900090 207.3 0.2 2. 3.782372000900091 0.12 2.26 0.05 2372000900092 207.56 0.02 2. 102. 3. 142.2372000900093 17. 37. 5. 2372000900094 217.01 0.1 1. 10.42372000900095 0.2 3.47 0.11 2372000900096 220.16 0.02 1. 2.72372000900097 0.1 0.97 0.08 2372000900098 228.153 0.006 2. 10.2372000900099 2. 5.6 0.1 2372000900100 239.33 0.01 1. 180. 6. 258.2372000900101 16. 40. 3. 2372000900102 246.5 0.1 2. 11.72372000900103 0.2 6.4 0.1 2372000900104 250.14 0.01 1. 6.82372000900105 0.2 2.36 0.06 2372000900106 254.57 0.03 2. 1.352372000900107 0.12 0.83 0.05 2372000900108 260.17 0.01 1. 205. 23. 24.12372000900109 0.5 8.1 1.3 2372000900110 265.7 0.1 2. 6.82372000900111 0.1 3.95 0.14 2372000900112 268.13 0.01 2. 8.52372000900113 0.1 4.81 0.14 2372000900114 281.72 0.01 1. 112. 18. 90.2372000900115 1. 19. 3. 2372000900116 287.42 0.01 2. 14.42372000900117 0.3 7.7 0.1 2372000900118 290.773 0.006 1. 133. 20. 46.2372000900119 3. 13. 2. 2372000900120 293.758 0.006 2. 52.2372000900121 1. 20.1 0.6 2372000900122 301.03 0.01 1. 79.2372000900123 3. 15.3 0.6 2372000900124 306.63 0.02 2. 3.42372000900125 0.1 2.04 0.10 2372000900126 ENDDATA 106 0 2372000900127 ENDSUBENT 126 0 2372000999999 SUBENT 23720010 20210511 23002372001000001 BIB 4 15 2372001000002 REACTION 1(64-GD-158(N,0),,EN) 2372001000003 2(64-GD-158(N,G),,WID,,RM) 2372001000004 3(64-GD-158(N,EL),,WID,,RM) 2372001000005 4(64-GD-158(N,G),,WID/STR,,RM) 2372001000006 ANALYSIS Resonance shape analysis performed by REFIT code 2372001000007 based on the Reich-Moore approximation of the 2372001000008 R-matrix formalism. The region between 122 and 144 eV 2372001000009 was excluded from the analysis. 2372001000010 ERR-ANALYS (DATA-ERR) No information on source of uncertainties. 2372001000011 STATUS (TABLE) Table 11 of Eur.Phys.J.56(2020)30 2372001000012 (DEP,23720002) 64-GD-155 capture reaction yield 2372001000013 (DEP,23720003) 64-GD-156 capture reaction yield 2372001000014 (DEP,23720004) 64-GD-157 capture reaction yield 2372001000015 (DEP,23720005) 64-GD-158 capture reaction yield 2372001000016 (DEP,23720006) 64-GD-160 capture reaction yield 2372001000017 ENDBIB 15 0 2372001000018 NOCOMMON 0 0 2372001000019 DATA 9 6 2372001000020 DATA 1DATA-ERR 1SPIN J DATA 2DATA-ERR 2DATA 32372001000021 DATA-ERR 3DATA 4DATA-ERR 4 2372001000022 EV EV NO-DIM MILLI-EV MILLI-EV MILLI-EV 2372001000023 MILLI-EV MILLI-EV MILLI-EV 2372001000024 22.291 0.001 0.5 71. 5. 7.82372001000025 0.3 7. 1.0 2372001000026 101.09 0.01 0.5 1.132372001000027 0.03 1.12 0.03 2372001000028 242.807 0.005 0.5 110. 15. 39.2372001000029 2. 29. 5. 2372001000030 277.335 0.006 0.5 17.82372001000031 0.5 14.9 0.3 2372001000032 345.02 0.01 0.5 72. 1. 207.2372001000033 11. 54. 3. 2372001000034 409.09 0.01 0.5 76. 1. 311.2372001000035 17. 61. 3. 2372001000036 ENDDATA 16 0 2372001000037 ENDSUBENT 36 0 2372001099999 SUBENT 23720011 20210511 23002372001100001 BIB 4 15 2372001100002 REACTION 1(64-GD-160(N,0),,EN) 2372001100003 2(64-GD-160(N,G),,WID,,RM) 2372001100004 3(64-GD-160(N,EL),,WID,,RM) 2372001100005 4(64-GD-160(N,G),,WID/STR,,RM) 2372001100006 ANALYSIS Resonance shape analysis performed by REFIT code 2372001100007 based on the Reich-Moore approximation of the 2372001100008 R-matrix formalism. The region between 122 and 144 eV 2372001100009 was excluded from the analysis. 2372001100010 ERR-ANALYS (DATA-ERR) No information on source of uncertainties. 2372001100011 STATUS (TABLE) Table 12 of Eur.Phys.J.56(2020)30 2372001100012 (DEP,23720002) 64-GD-155 capture reaction yield 2372001100013 (DEP,23720003) 64-GD-156 capture reaction yield 2372001100014 (DEP,23720004) 64-GD-157 capture reaction yield 2372001100015 (DEP,23720005) 64-GD-158 capture reaction yield 2372001100016 (DEP,23720006) 64-GD-160 capture reaction yield 2372001100017 ENDBIB 15 0 2372001100018 NOCOMMON 0 0 2372001100019 DATA 9 3 2372001100020 DATA 1DATA-ERR 1SPIN J DATA 2DATA-ERR 2DATA 32372001100021 DATA-ERR 3DATA 4DATA-ERR 4 2372001100022 EV EV NO-DIM MILLI-EV MILLI-EV MILLI-EV 2372001100023 MILLI-EV MILLI-EV MILLI-EV 2372001100024 221.982 0.005 0.5 101. 24. 49.2372001100025 5. 33. 11. 2372001100026 448.03 0.03 0.5 6.62372001100027 0.5 6.2 0.3 2372001100028 479.29 0.01 0.5 81. 1. 323.2372001100029 31. 65. 8. 2372001100030 ENDDATA 10 0 2372001100031 ENDSUBENT 30 0 2372001199999 SUBENT 23720012 20210511 23002372001200001 BIB 4 5 2372001200002 REACTION (64-GD-155(N,G)64-GD-156,,RI,,,DERIV) 2372001200003 ANALYSIS Calculated from resonance parameters 2372001200004 ERR-ANALYS (DATA-ERR) No information on source of uncertainties. 2372001200005 STATUS (TABLE) Table 4 of Eur.Phys.J.56(2020)30 2372001200006 (DEP,23720007) Resonance parameters 2372001200007 ENDBIB 5 0 2372001200008 NOCOMMON 0 0 2372001200009 DATA 4 2 2372001200010 EN-MIN EN-MAX DATA DATA-ERR 2372001200011 EV MEV B B 2372001200012 0.5 20.0 1511. 25. 2372001200013 5. 5.00E-4 549. 6. 2372001200014 ENDDATA 4 0 2372001200015 ENDSUBENT 14 0 2372001299999 SUBENT 23720013 20210511 23002372001300001 BIB 4 5 2372001300002 REACTION (64-GD-157(N,G)64-GD-158,,RI,,,DERIV) 2372001300003 ANALYSIS Calculated from resonance parameters 2372001300004 ERR-ANALYS (DATA-ERR) No information on source of uncertainties. 2372001300005 STATUS (TABLE) Table 4 of Eur.Phys.J.56(2020)30 2372001300006 (DEP,23720009) Resonance parameters 2372001300007 ENDBIB 5 0 2372001300008 NOCOMMON 0 0 2372001300009 DATA 4 2 2372001300010 EN-MIN EN-MAX DATA DATA-ERR 2372001300011 EV MEV B B 2372001300012 0.5 20.0 801. 19. 2372001300013 5. 5.00E-4 368. 8. 2372001300014 ENDDATA 4 0 2372001300015 ENDSUBENT 14 0 2372001399999 ENDENTRY 13 0 2372099999999