ENTRY 23720 20210510 230023720 0 1 SUBENT 23720001 20210510 230023720 1 1 BIB 10 38 23720 1 2 TITLE Resonance parameters of Gd isotopes derived from 23720 1 3 capture measurements at GELINA 23720 1 4 AUTHOR (Y.-U.Kye, S.-G.Shin, M.-H.Cho, W.Namkung, G.Kim, 23720 1 5 P.Schillebeeckx, C.Paradela, S.Kopecky) 23720 1 6 INSTITUTE (3KORPUE,3KORKNU,2ZZZGEL) 23720 1 7 REFERENCE (J,EPJ/A,56,30,2020) 23720 1 8 #doi:10.1140/epja/s10050-020-00047-6 23720 1 9 FACILITY (LINAC,2ZZZGEL) GELINA electron linac 23720 1 10 - Nominal average beam energy = 150 MeV 23720 1 11 - Nominal average peak power = 10 kW 23720 1 12 - Repetition rate (pulses per second) = 800 Hz 23720 1 13 - Pulse width of electron beam = 1 ns 23720 1 14 INC-SOURCE (PHOTO) 23720 1 15 - (g,n) on mercury-cooled depleted uranium 23720 1 16 - Two water filled Be-containers were placed as 23720 1 17 moderators above and below the U target 23720 1 18 (14.6 cm x 21 cm x 3.9 cm) at room temperature. 23720 1 19 - Density of moderator material = 1 g/cm323720 1 20 - Response function: 23720 1 21 Target/moderator assembly: Numerical distribution from23720 1 22 MC simulations 23720 1 23 DETECTOR (SCIN) Two hydrogen-free C6D6 scintillators with a time23720 1 24 resolution less than 1 ns, placed symmetrically at 23720 1 25 125 degrees. 23720 1 26 (IOCH) Two Frisch-gridded ionisation chambers with a 23720 1 27 common cathode loaded with two layers of 10B. 23720 1 28 METHOD (TOF) Flight path direction w.r.t. normal of the 23720 1 29 moderator face viewing the flight path = 0 deg. 23720 1 30 Flight path = 28.90 (1) m 23720 1 31 Overlap filter: 10B 23720 1 32 Black resonance filters: Co, Na, W and S 23720 1 33 (PHWT) 23720 1 34 ANALYSIS The normalization factor determined by additional 23720 1 35 measurement with natural silver metallic disc with 23720 1 36 diameter of 18 mm and a thickness of 0.11 mm . 23720 1 37 The AGS (Analysis of Geel Spectra) package was used to 23720 1 38 derive the experimental yield from the TOF histograms. 23720 1 39 HISTORY (20210510C) VS + On. 23720 1 40 ENDBIB 38 0 23720 1 41 NOCOMMON 0 0 23720 1 42 ENDSUBENT 41 0 23720 199999 SUBENT 23720002 20210510 230023720 2 1 BIB 4 16 23720 2 2 REACTION (64-GD-155(N,G)64-GD-156,,RYL) 23720 2 3 SAMPLE (64-GD-155,ENR=0.9174) 23720 2 4 Other isotopes: 64-GD-152 < 0.04%; 23720 2 5 64-GD-154 (0.64+-0.01)%; 64-GD-156 (5.11+-0.1)%; 23720 2 6 64-GD-157 (1.12+-0.05)%; 64-GD-158 (0.94+-0.05)%; 23720 2 7 64-GD-160 (0.41+-0.01)% 23720 2 8 - Physical type: Metal 23720 2 9 - Sample mass: 204.0 +- 0.1 mg 23720 2 10 - Atomic weight 155.04 +-0.25 23720 2 11 - Geometrical shape: Disc 23720 2 12 - Area: 256.63 +- 0.04 mm2 23720 2 13 - Nominal thickness: 0.110 +- 0.002 mm 23720 2 14 - Atomic density : (3.09 +/- 0.03)E-4 at/b 23720 2 15 ERR-ANALYS The AGS (Analysis of Geel Spectra) package was used to 23720 2 16 perform a full uncertainty propagation. 23720 2 17 STATUS (UNOBT) Plotted on Fig. 3 of Eur.Phys.J.A56(2020)30 23720 2 18 ENDBIB 16 0 23720 2 19 NOCOMMON 0 0 3 23720 2 20 NODATA 0 0 23720 2 21 ENDSUBENT 20 0 23720 299999 SUBENT 23720003 20210511 230023720 3 1 BIB 4 16 23720 3 2 REACTION (64-GD-156(N,G)64-GD-157,,RYL) 23720 3 3 SAMPLE (64-GD-156,ENR=0.9379) 23720 3 4 Other isotopes: 64-GD-152 < 0.01%; 23720 3 5 64-GD-154 (0.11+-0.01)%; 64-GD-155 (1.96+-0.01)%; 23720 3 6 64-GD-157 (2.53+-0.01)%; 64-GD-158 (1.20+-0.01)%; 23720 3 7 64-GD-160 (0.41+-0.01)% 23720 3 8 - Physical type: Metal 23720 3 9 - Sample mass: 198.0 +- 0.1 mg 23720 3 10 - Atomic weight 155.97 +-0.25 23720 3 11 - Geometrical shape: Disc 23720 3 12 - Area: 258.06 +- 0.12 mm2 23720 3 13 - Nominal thickness: 0.110 +- 0.002 mm 23720 3 14 - Atomic density : (2.96 +/- 0.03)E-4 at/b 23720 3 15 ERR-ANALYS The AGS (Analysis of Geel Spectra) package was used to 23720 3 16 perform a full uncertainty propagation. 23720 3 17 STATUS (UNOBT) Plotted on Fig. 3 of Eur.Phys.J.A56(2020)30 23720 3 18 ENDBIB 16 0 23720 3 19 NOCOMMON 0 0 23720 3 20 NODATA 0 0 23720 3 21 ENDSUBENT 20 0 23720 399999 SUBENT 23720004 20210511 230023720 4 1 BIB 4 16 23720 4 2 REACTION (64-GD-157(N,G)64-GD-158,,RYL) 23720 4 3 SAMPLE (64-GD-157,ENR=0.9096) 23720 4 4 Other isotopes: 64-GD-152 < 0.02%; 23720 4 5 64-GD-154 (0.16+-0.01)%; 64-GD-155 (0.81+-0.01)%; 23720 4 6 64-GD-156 (2.21+-0.02)%; 64-GD-158 (5.08+-0.05)%; 23720 4 7 64-GD-160 (0.80+-0.01)% 23720 4 8 - Physical type: Metal 23720 4 9 - Sample mass: 357.0 +- 0.1 mg 23720 4 10 - Atomic weight 156.92 +-0.25 23720 4 11 - Geometrical shape: Disc 23720 4 12 - Area: 232.43 +- 0.05 mm2 23720 4 13 - Nominal thickness: 0.210 +- 0.002 mm 23720 4 14 - Atomic density : (5.82 +/- 0.03)E-4 at/b 23720 4 15 ERR-ANALYS The AGS (Analysis of Geel Spectra) package was used to 23720 4 16 perform a full uncertainty propagation. 23720 4 17 STATUS (UNOBT) Plotted on Fig. 3 of Eur.Phys.J.A56(2020)30 23720 4 18 ENDBIB 16 0 23720 4 19 NOCOMMON 0 0 23720 4 20 NODATA 0 0 23720 4 21 ENDSUBENT 20 0 23720 499999 SUBENT 23720005 20210511 230023720 5 1 BIB 4 16 23720 5 2 REACTION (64-GD-158(N,G)64-GD-159,,RYL) 23720 5 3 SAMPLE (64-GD-158,ENR=0.9200) 23720 5 4 Other isotopes: 64-GD-152 < 0.10%; 23720 5 5 64-GD-154 < 0.10%; 64-GD-155 (0.96+-0.05)%; 23720 5 6 64-GD-156 (1.70+-0.05)%; 64-GD-157 (3.56+-0.05)%; 23720 5 7 64-GD-160 (1.82+-0.05)% 23720 5 8 - Physical type: Metal 23720 5 9 - Sample mass: 353.0 +- 0.1 mg 23720 5 10 - Atomic weight 157.92 +-0.22 23720 5 11 - Geometrical shape: Disc 23720 5 12 - Area: 234.84 +- 0.06 mm2 23720 5 13 - Nominal thickness: 0.210 +- 0.005 mm 23720 5 14 - Atomic density : (5.80 +/- 0.05)E-4 at/b 23720 5 15 ERR-ANALYS The AGS (Analysis of Geel Spectra) package was used to 23720 5 16 perform a full uncertainty propagation. 23720 5 17 STATUS (UNOBT) Plotted on Fig. 3 of Eur.Phys.J.A56(2020)30 23720 5 18 ENDBIB 16 0 23720 5 19 NOCOMMON 0 0 23720 5 20 NODATA 0 0 23720 5 21 ENDSUBENT 20 0 23720 599999 SUBENT 23720006 20210511 230023720 6 1 BIB 4 16 23720 6 2 REACTION (64-GD-160(N,G)64-GD-161,,RYL) 23720 6 3 SAMPLE (64-GD-160,ENR=0.9812) 23720 6 4 Other isotopes: 64-GD-152 < 0.01%; 23720 6 5 64-GD-154 < 0.02%; 64-GD-155 (0.18+-0.01)%; 23720 6 6 64-GD-156 (0.32+-0.01)%; 64-GD-157 (0.43+-0.01)%; 23720 6 7 64-GD-160 (0.93+-0.01)% 23720 6 8 - Physical type: Metal 23720 6 9 - Sample mass: 193.3 +- 0.1 mg 23720 6 10 - Atomic weight 159.93 +-0.22 23720 6 11 - Geometrical shape: Disc 23720 6 12 - Area: 258.76 +- 0.02 mm2 23720 6 13 - Nominal thickness: 0.100 +- 0.002 mm 23720 6 14 - Atomic density : (2.82 +/- 0.03)E-4 at/b 23720 6 15 ERR-ANALYS The AGS (Analysis of Geel Spectra) package was used to 23720 6 16 perform a full uncertainty propagation. 23720 6 17 STATUS (UNOBT) Plotted on Fig. 3 of Eur.Phys.J.A56(2020)30 23720 6 18 ENDBIB 16 0 23720 6 19 NOCOMMON 0 0 23720 6 20 NODATA 0 0 23720 6 21 ENDSUBENT 20 0 23720 699999 SUBENT 23720007 20210511 230023720 7 1 BIB 4 15 23720 7 2 REACTION 1(64-GD-155(N,0),,EN) 23720 7 3 2(64-GD-155(N,G),,WID,,RM) 23720 7 4 3(64-GD-155(N,EL),,WID,,RM) 23720 7 5 4(64-GD-155(N,G),,WID/STR,,RM) 23720 7 6 ANALYSIS Resonance shape analysis performed by REFIT code 23720 7 7 based on the Reich-Moore approximation of the 23720 7 8 R-matrix formalism. The region between 122 and 144 eV 23720 7 9 was excluded from the analysis. 23720 7 10 ERR-ANALYS (DATA-ERR) No information on source of uncertainties. 23720 7 11 STATUS (TABLE) Table 8 of Eur.Phys.J.56(2020)30 23720 7 12 (DEP,23720002) 64-GD-155 capture reaction yield 23720 7 13 (DEP,23720003) 64-GD-156 capture reaction yield 23720 7 14 (DEP,23720004) 64-GD-157 capture reaction yield 23720 7 15 (DEP,23720005) 64-GD-158 capture reaction yield 23720 7 16 (DEP,23720006) 64-GD-160 capture reaction yield 23720 7 17 ENDBIB 15 0 23720 7 18 NOCOMMON 0 0 23720 7 19 DATA 9 87 23720 7 20 DATA 1DATA-ERR 1SPIN J DATA 2DATA-ERR 2DATA 323720 7 21 DATA-ERR 3DATA 4DATA-ERR 4 23720 7 22 EV EV NO-DIM MILLI-EV MILLI-EV MILLI-EV 23720 7 23 MILLI-EV MILLI-EV MILLI-EV 23720 7 24 6.304 0.002 2. 2.0523720 7 25 0.05 1.26 0.03 23720 7 26 7.740 0.003 2. 1.1223720 7 27 0.03 0.7 0.1 23720 7 28 9.99 0.01 2. 0.2023720 7 29 0.01 0.12 0.01 23720 7 30 11.505 0.006 1. 0.6023720 7 31 0.03 0.22 0.01 23720 7 32 11.956 0.003 2. 1.0223720 7 33 0.02 0.63 0.01 23720 7 34 14.476 0.002 1. 3.1823720 7 35 0.06 1.16 0.02 23720 7 36 17.72 0.01 2. 0.3223720 7 37 0.01 0.2 0.1 23720 7 38 19.864 0.001 2. 4.4123720 7 39 0.06 2.65 0.05 23720 7 40 20.974 0.003 2. 130. 11. 10.423720 7 41 0.2 6.0 0.5 23720 7 42 23.579 0.002 2. 2.8123720 7 43 0.04 1.72 0.03 23720 7 44 27.485 0.006 1. 0.9723720 7 45 0.05 0.36 0.01 23720 7 46 29.505 0.002 2. 4.7523720 7 47 0.011 2.84 0.04 23720 7 48 30.058 0.002 2. 10.223720 7 49 0.1 5.79 0.012 23720 7 50 31.635 0.005 2. 1.0623720 7 51 0.03 0.66 0.01 23720 7 52 33.00 0.01 1. 1.7323720 7 53 0.05 0.64 0.02 23720 7 54 33.411 0.006 1. 1.6523720 7 55 0.05 0.61 0.02 23720 7 56 34.728 0.003 1. 6.723720 7 57 0.1 2.42 0.05 23720 7 58 35.389 0.005 2. 1.7823720 7 59 0.05 1.1 0.2 23720 7 60 37.030 0.002 1. 7.523720 7 61 0.1 2.7 0.2 23720 7 62 38.913 0.008 2. 1.1123720 7 63 0.03 0.69 0.02 23720 7 64 43.815 0.005 1. 15.923720 7 65 0.4 5.4 0.1 23720 7 66 45.958 0.004 2. 1.9923720 7 67 0.04 1.22 0.03 23720 7 68 46.774 0.003 2. 5.2423720 7 69 0.06 3.11 0.05 23720 7 70 47.61 0.03 1. 0.3923720 7 71 0.05 0.15 0.02 23720 7 72 51.240 0.002 1. 17.523720 7 73 0.3 5.66 0.012 23720 7 74 51.999 0.005 1. 18.023720 7 75 0.2 5.6 0.5 23720 7 76 52.86 0.01 2. 1.1223720 7 77 0.06 0.69 0.04 23720 7 78 53.591 0.002 2. 7.623720 7 79 0.1 4.38 0.10 23720 7 80 56.086 0.005 2. 2.0223720 7 81 0.04 1.24 0.03 23720 7 82 59.272 0.004 2. 6.523720 7 83 0.1 3.89 0.11 23720 7 84 62.700 0.005 2. 140. 12. 7.423720 7 85 0.1 4.4 0.5 23720 7 86 64.0 0.1 2. 0.11723720 7 87 0.005 0.073 0.002 23720 7 88 65.04 0.02 1. 0.8023720 7 89 0.06 0.30 0.02 23720 7 90 69.400 0.005 2. 5.723720 7 91 1.3 3.39 0.08 23720 7 92 76.77 0.01 2. 1.5323720 7 93 0.05 0.94 0.03 23720 7 94 77.67 0.02 1. 0.8323720 7 95 0.11 0.31 0.03 23720 7 96 78.69 0.04 2. 4.3823720 7 97 0.012 2.63 0.05 23720 7 98 80.67 0.03 1. 2.3123720 7 99 0.012 0.85 0.05 23720 7 100 83.895 0.004 1. 8.923720 7 101 0.1 3.08 0.08 23720 7 102 84.84 0.01 1. 3.623720 7 103 0.1 1.32 0.05 23720 7 104 90.38 0.01 2. 1.1923720 7 105 0.08 0.74 0.05 23720 7 106 92.33 0.03 2. 2.123720 7 107 0.2 1.3 0.1 23720 7 108 92.8 0.1 2. 2.923720 7 109 0.1 1.77 0.14 23720 7 110 93.86 0.05 2. 0.3923720 7 111 0.06 0.25 0.04 23720 7 112 95.6 0.8 2. 3.4723720 7 113 0.13 2.10 0.08 23720 7 114 96.30 0.01 1. 6.523720 7 115 0.1 2.30 0.06 23720 7 116 98.205 0.005 1. 89. 11. 17.323720 7 117 0.3 5.4 0.6 23720 7 118 100.09 0.01 1. 2.423720 7 119 0.1 0.87 0.04 23720 7 120 101.28 0.01 2. 1.9623720 7 121 0.10 1.20 0.04 23720 7 122 101.90 0.01 1. 2.123720 7 123 0.1 0.77 0.04 23720 7 124 104.320 0.006 1. 8.223720 7 125 0.2 2.85 0.06 23720 7 126 105.82 0.01 1. 6.223720 7 127 0.2 2.19 0.06 23720 7 128 107.006 0.006 2. 5.923720 7 129 0.1 3.48 0.11 23720 7 130 109.41 0.01 1. 4.123720 7 131 0.1 1.49 0.08 23720 7 132 112.288 0.006 2. 7.323720 7 133 0.2 4.2 0.1 23720 7 134 113.705 0.008 2. 139. 20. 14.923720 7 135 0.3 8. 1. 23720 7 136 116.42 0.01 1. 16.423720 7 137 0.5 5.4 0.1 23720 7 138 118.55 0.03 2. 1.623720 7 139 0.1 1.01 0.11 23720 7 140 145.49 0.02 2. 6.723720 7 141 0.5 4.0 0.2 23720 7 142 146.83 0.02 2. 7.123720 7 143 0.4 4.2 0.2 23720 7 144 148.06 0.01 2. 9.323720 7 145 0.5 5.4 0.2 23720 7 146 149.37 0.03 1. 103. 5. 43.23720 7 147 5. 11. 1. 23720 7 148 150.02 0.02 2. 80. 3. 29.23720 7 149 5. 13. 1. 23720 7 150 152.09 0.01 1. 9.623720 7 151 5. 3.3 0.1 23720 7 152 153.8 1.8 2. 0.5423720 7 153 0.01 0.34 0.01 23720 7 154 156.10 0.01 2. 7.823720 7 155 0.2 4.6 0.1 23720 7 156 159.9 0.1 2. 8.623720 7 157 0.2 5. 1. 23720 7 158 161.449 0.006 2. 20.623720 7 159 0.4 10.8 0.2 23720 7 160 168.129 0.006 1. 155. 25. 30.423720 7 161 1.0 10. 1. 23720 7 162 170.18 0.01 2. 8.623720 7 163 0.3 5. 1. 23720 7 164 171.12 0.01 2. 9.223720 7 165 0.2 5.3 0.1 23720 7 166 173.383 0.005 2. 131. 18. 32.623720 7 167 1.3 16. 2. 23720 7 168 175.23 0.02 2. 2.323720 7 169 0.1 1.41 0.11 23720 7 170 177.80 0.01 1. 10.123720 7 171 0.3 3.5 0.1 23720 7 172 180.14 0.01 1. 15.923720 7 173 0.4 5.2 0.1 23720 7 174 33.139 0.002 0.5 72. 4. 18.123720 7 175 0.8 14. 1. 23720 7 176 80.003 0.005 0.5 87. 5. 86.23720 7 177 1. 43. 2. 23720 7 178 109.08 0.01 0.5 1.0223720 7 179 0.05 1.01 0.05 23720 7 180 150.36 0.01 0.5 89. 13. 81.23720 7 181 1.0 42. 6. 23720 7 182 198.38 0.01 0.5 89. 3. 272.23720 7 183 16. 67. 4. 23720 7 184 201.74 0.01 0.5 52. 18. 55.23720 7 185 17. 27. 14. 23720 7 186 244.93 0.01 0.5 2.323720 7 187 0.1 2.28 0.14 23720 7 188 340.81 0.01 0.5 77. 1. 613.23720 7 189 24. 68. 3. 23720 7 190 376.58 0.01 0.5 78. 4. 150.23720 7 191 25. 51. 11. 23720 7 192 427.15 0.08 0.5 2.623720 7 193 0.1 2.5 0.1 23720 7 194 451.28 0.01 0.5 55. 4. 127.23720 7 195 35. 38. 14. 23720 7 196 476.84 0.01 0.5 71. 20. 99.23720 7 197 44. 41. 25. 23720 7 198 ENDDATA 178 0 23720 7 199 ENDSUBENT 198 0 23720 799999 SUBENT 23720008 20210511 230023720 8 1 BIB 4 15 23720 8 2 REACTION 1(64-GD-156(N,0),,EN) 23720 8 3 2(64-GD-156(N,G),,WID,,RM) 23720 8 4 3(64-GD-156(N,EL),,WID,,RM) 23720 8 5 4(64-GD-156(N,G),,WID/STR,,RM) 23720 8 6 ANALYSIS Resonance shape analysis performed by REFIT code 23720 8 7 based on the Reich-Moore approximation of the 23720 8 8 R-matrix formalism. The region between 122 and 144 eV 23720 8 9 was excluded from the analysis. 23720 8 10 ERR-ANALYS (DATA-ERR) No information on source of uncertainties. 23720 8 11 STATUS (TABLE) Table 9 of Eur.Phys.J.56(2020)30 23720 8 12 (DEP,23720002) 64-GD-155 capture reaction yield 23720 8 13 (DEP,23720003) 64-GD-156 capture reaction yield 23720 8 14 (DEP,23720004) 64-GD-157 capture reaction yield 23720 8 15 (DEP,23720005) 64-GD-158 capture reaction yield 23720 8 16 (DEP,23720006) 64-GD-160 capture reaction yield 23720 8 17 ENDBIB 15 0 23720 8 18 NOCOMMON 0 0 23720 8 19 DATA 9 12 23720 8 20 DATA 1DATA-ERR 1SPIN J DATA 2DATA-ERR 2DATA 323720 8 21 DATA-ERR 3DATA 4DATA-ERR 4 23720 8 22 EV EV NO-DIM MILLI-EV MILLI-EV MILLI-EV 23720 8 23 MILLI-EV MILLI-EV MILLI-EV 23720 8 24 33.139 0.002 0.5 72. 4. 18.123720 8 25 0.8 14. 1. 23720 8 26 80.003 0.05 0.5 87. 5. 86.23720 8 27 1. 43. 2. 23720 8 28 109.08 0.01 0.5 1.0223720 8 29 0.05 1.01 0.05 23720 8 30 150.36 0.01 0.5 89. 13. 81.23720 8 31 10. 42. 6. 23720 8 32 198.38 0.01 0.5 89. 3. 272.23720 8 33 16. 67. 4. 23720 8 34 201.74 0.01 0.5 52. 18. 55.23720 8 35 17. 27. 14. 23720 8 36 244.93 0.01 0.5 2.323720 8 37 0.1 2.28 0.14 23720 8 38 340.81 0.01 0.5 77. 1. 613.23720 8 39 24. 68. 3. 23720 8 40 376.58 0.01 0.5 78. 4. 150.23720 8 41 25. 51. 11. 23720 8 42 427.15 0.08 0.5 2.623720 8 43 0.1 2.5 0.1 23720 8 44 451.28 0.01 0.5 55. 4. 127.23720 8 45 35. 38. 14. 23720 8 46 476.84 0.01 0.5 71. 20. 99.23720 8 47 44. 41. 25. 23720 8 48 ENDDATA 28 0 23720 8 49 ENDSUBENT 48 0 23720 899999 SUBENT 23720009 20210511 230023720 9 1 BIB 4 15 23720 9 2 REACTION 1(64-GD-157(N,0),,EN) 23720 9 3 2(64-GD-157(N,G),,WID,,RM) 23720 9 4 3(64-GD-157(N,EL),,WID,,RM) 23720 9 5 4(64-GD-157(N,G),,WID/STR,,RM) 23720 9 6 ANALYSIS Resonance shape analysis performed by REFIT code 23720 9 7 based on the Reich-Moore approximation of the 23720 9 8 R-matrix formalism. The region between 122 and 144 eV 23720 9 9 was excluded from the analysis. 23720 9 10 ERR-ANALYS (DATA-ERR) No information on source of uncertainties. 23720 9 11 STATUS (TABLE) Table 10 of Eur.Phys.J.56(2020)30 23720 9 12 (DEP,23720002) 64-GD-155 capture reaction yield 23720 9 13 (DEP,23720003) 64-GD-156 capture reaction yield 23720 9 14 (DEP,23720004) 64-GD-157 capture reaction yield 23720 9 15 (DEP,23720005) 64-GD-158 capture reaction yield 23720 9 16 (DEP,23720006) 64-GD-160 capture reaction yield 23720 9 17 ENDBIB 15 0 23720 9 18 NOCOMMON 0 0 23720 9 19 DATA 9 51 23720 9 20 DATA 1DATA-ERR 1SPIN J DATA 2DATA-ERR 2DATA 323720 9 21 DATA-ERR 3DATA 4DATA-ERR 4 23720 9 22 EV EV NO-DIM MILLI-EV MILLI-EV MILLI-EV 23720 9 23 MILLI-EV MILLI-EV MILLI-EV 23720 9 24 16.199 0.006 1. 0.3523720 9 25 0.01 0.131 0.006 23720 9 26 16.78 0.01 2. 112. 6. 14.123720 9 27 0.8 7.8 0.6 23720 9 28 20.511 0.001 2. 91. 1. 14.23720 9 29 1. 7.6 0.1 23720 9 30 21.572 0.005 2. 0.3623720 9 31 0.01 0.22 0.01 23720 9 32 23.282 0.005 1. 0.7523720 9 33 0.01 0.28 0.01 23720 9 34 25.344 0.001 2. 1.8223720 9 35 0.02 1.12 0.01 23720 9 36 40.048 0.004 1. 1.2823720 9 37 0.03 0.47 0.01 23720 9 38 44.104 0.005 2. 109. 5. 9.523720 9 39 0.1 5.5 0.2 23720 9 40 48.671 0.002 2. 107. 12. 26.23720 9 41 1. 13. 1. 23720 9 42 58.246 0.003 2. 106. 12. 32.23720 9 43 1. 15. 1. 23720 9 44 66.47 0.02 1. 108. 4. 16.923720 9 45 3. 5.5 3. 23720 9 46 81.237 0.005 1. 24.723720 9 47 0.8 7.6 0.1 23720 9 48 82.034 0.006 2. 94. 10. 6.7823720 9 49 0.14 4. 4. 23720 9 50 87.099 0.005 2. 102. 15. 11.323720 9 51 0.1 6.3 1.2 23720 9 52 96.474 0.003 1. 23.23720 9 53 5. 7.1 0.1 23720 9 54 100.062 0.003 1. 120. 19. 38.23720 9 55 1. 11. 1. 23720 9 56 104.817 0.005 1. 78. 5. 74.23720 9 57 5. 14. 1. 23720 9 58 107.267 0.004 2. 5.0723720 9 59 0.14 2.99 0.08 23720 9 60 110.438 0.005 2. 122. 13. 42.23720 9 61 2. 19. 2. 23720 9 62 115.257 0.004 2. 20.223720 9 63 0.4 10.7 0.2 23720 9 64 120.71 0.01 2. 68. 2. 153.23720 9 65 12. 29. 2. 23720 9 66 148.27 0.01 1. 105. 2. 26.323720 9 67 1.3 7.9 0.5 23720 9 68 156.43 0.05 2. 109. 17. 21.623720 9 69 1.0 11. 1. 23720 9 70 164.734 0.004 1. 80. 5. 56.23720 9 71 3. 12. 1. 23720 9 72 167.94 0.01 2. 1.8823720 9 73 0.10 1.15 0.04 23720 9 74 169.22 0.01 2. 2.9223720 9 75 0.13 1.77 0.08 23720 9 76 171.25 0.01 1. 159.1 0.5 94.23720 9 77 20. 22. 5. 23720 9 78 178.546 0.005 2. 103. 6. 18.23720 9 79 4. 9.6 1.2 23720 9 80 183.799 0.004 1. 101. 6. 39.23720 9 81 2. 10.5 1.4 23720 9 82 190.608 0.006 1. 96. 10. 36.23720 9 83 2. 9.9 1.4 23720 9 84 194.418 0.004 2. 117. 5. 46.23720 9 85 2. 21. 1. 23720 9 86 202.85 0.01 1. 11.123720 9 87 0.2 3.67 0.12 23720 9 88 205.46 0.02 2. 1.5623720 9 89 0.10 0.96 0.04 23720 9 90 207.3 0.2 2. 3.7823720 9 91 0.12 2.26 0.05 23720 9 92 207.56 0.02 2. 102. 3. 142.23720 9 93 17. 37. 5. 23720 9 94 217.01 0.1 1. 10.423720 9 95 0.2 3.47 0.11 23720 9 96 220.16 0.02 1. 2.723720 9 97 0.1 0.97 0.08 23720 9 98 228.153 0.006 2. 10.23720 9 99 2. 5.6 0.1 23720 9 100 239.33 0.01 1. 180. 6. 258.23720 9 101 16. 40. 3. 23720 9 102 246.5 0.1 2. 11.723720 9 103 0.2 6.4 0.1 23720 9 104 250.14 0.01 1. 6.823720 9 105 0.2 2.36 0.06 23720 9 106 254.57 0.03 2. 1.3523720 9 107 0.12 0.83 0.05 23720 9 108 260.17 0.01 1. 205. 23. 24.123720 9 109 0.5 8.1 1.3 23720 9 110 265.7 0.1 2. 6.823720 9 111 0.1 3.95 0.14 23720 9 112 268.13 0.01 2. 8.523720 9 113 0.1 4.81 0.14 23720 9 114 281.72 0.01 1. 112. 18. 90.23720 9 115 1. 19. 3. 23720 9 116 287.42 0.01 2. 14.423720 9 117 0.3 7.7 0.1 23720 9 118 290.773 0.006 1. 133. 20. 46.23720 9 119 3. 13. 2. 23720 9 120 293.758 0.006 2. 52.23720 9 121 1. 20.1 0.6 23720 9 122 301.03 0.01 1. 79.23720 9 123 3. 15.3 0.6 23720 9 124 306.63 0.02 2. 3.423720 9 125 0.1 2.04 0.10 23720 9 126 ENDDATA 106 0 23720 9 127 ENDSUBENT 126 0 23720 999999 SUBENT 23720010 20210511 230023720 10 1 BIB 4 15 23720 10 2 REACTION 1(64-GD-158(N,0),,EN) 23720 10 3 2(64-GD-158(N,G),,WID,,RM) 23720 10 4 3(64-GD-158(N,EL),,WID,,RM) 23720 10 5 4(64-GD-158(N,G),,WID/STR,,RM) 23720 10 6 ANALYSIS Resonance shape analysis performed by REFIT code 23720 10 7 based on the Reich-Moore approximation of the 23720 10 8 R-matrix formalism. The region between 122 and 144 eV 23720 10 9 was excluded from the analysis. 23720 10 10 ERR-ANALYS (DATA-ERR) No information on source of uncertainties. 23720 10 11 STATUS (TABLE) Table 11 of Eur.Phys.J.56(2020)30 23720 10 12 (DEP,23720002) 64-GD-155 capture reaction yield 23720 10 13 (DEP,23720003) 64-GD-156 capture reaction yield 23720 10 14 (DEP,23720004) 64-GD-157 capture reaction yield 23720 10 15 (DEP,23720005) 64-GD-158 capture reaction yield 23720 10 16 (DEP,23720006) 64-GD-160 capture reaction yield 23720 10 17 ENDBIB 15 0 23720 10 18 NOCOMMON 0 0 23720 10 19 DATA 9 6 23720 10 20 DATA 1DATA-ERR 1SPIN J DATA 2DATA-ERR 2DATA 323720 10 21 DATA-ERR 3DATA 4DATA-ERR 4 23720 10 22 EV EV NO-DIM MILLI-EV MILLI-EV MILLI-EV 23720 10 23 MILLI-EV MILLI-EV MILLI-EV 23720 10 24 22.291 0.001 0.5 71. 5. 7.823720 10 25 0.3 7. 1.0 23720 10 26 101.09 0.01 0.5 1.1323720 10 27 0.03 1.12 0.03 23720 10 28 242.807 0.005 0.5 110. 15. 39.23720 10 29 2. 29. 5. 23720 10 30 277.335 0.006 0.5 17.823720 10 31 0.5 14.9 0.3 23720 10 32 345.02 0.01 0.5 72. 1. 207.23720 10 33 11. 54. 3. 23720 10 34 409.09 0.01 0.5 76. 1. 311.23720 10 35 17. 61. 3. 23720 10 36 ENDDATA 16 0 23720 10 37 ENDSUBENT 36 0 23720 1099999 SUBENT 23720011 20210511 230023720 11 1 BIB 4 15 23720 11 2 REACTION 1(64-GD-160(N,0),,EN) 23720 11 3 2(64-GD-160(N,G),,WID,,RM) 23720 11 4 3(64-GD-160(N,EL),,WID,,RM) 23720 11 5 4(64-GD-160(N,G),,WID/STR,,RM) 23720 11 6 ANALYSIS Resonance shape analysis performed by REFIT code 23720 11 7 based on the Reich-Moore approximation of the 23720 11 8 R-matrix formalism. The region between 122 and 144 eV 23720 11 9 was excluded from the analysis. 23720 11 10 ERR-ANALYS (DATA-ERR) No information on source of uncertainties. 23720 11 11 STATUS (TABLE) Table 12 of Eur.Phys.J.56(2020)30 23720 11 12 (DEP,23720002) 64-GD-155 capture reaction yield 23720 11 13 (DEP,23720003) 64-GD-156 capture reaction yield 23720 11 14 (DEP,23720004) 64-GD-157 capture reaction yield 23720 11 15 (DEP,23720005) 64-GD-158 capture reaction yield 23720 11 16 (DEP,23720006) 64-GD-160 capture reaction yield 23720 11 17 ENDBIB 15 0 23720 11 18 NOCOMMON 0 0 23720 11 19 DATA 9 3 23720 11 20 DATA 1DATA-ERR 1SPIN J DATA 2DATA-ERR 2DATA 323720 11 21 DATA-ERR 3DATA 4DATA-ERR 4 23720 11 22 EV EV NO-DIM MILLI-EV MILLI-EV MILLI-EV 23720 11 23 MILLI-EV MILLI-EV MILLI-EV 23720 11 24 221.982 0.005 0.5 101. 24. 49.23720 11 25 5. 33. 11. 23720 11 26 448.03 0.03 0.5 6.623720 11 27 0.5 6.2 0.3 23720 11 28 479.29 0.01 0.5 81. 1. 323.23720 11 29 31. 65. 8. 23720 11 30 ENDDATA 10 0 23720 11 31 ENDSUBENT 30 0 23720 1199999 SUBENT 23720012 20210511 230023720 12 1 BIB 4 5 23720 12 2 REACTION (64-GD-155(N,G)64-GD-156,,RI,,,DERIV) 23720 12 3 ANALYSIS Calculated from resonance parameters 23720 12 4 ERR-ANALYS (DATA-ERR) No information on source of uncertainties. 23720 12 5 STATUS (TABLE) Table 4 of Eur.Phys.J.56(2020)30 23720 12 6 (DEP,23720007) Resonance parameters 23720 12 7 ENDBIB 5 0 23720 12 8 NOCOMMON 0 0 23720 12 9 DATA 4 2 23720 12 10 EN-MIN EN-MAX DATA DATA-ERR 23720 12 11 EV MEV B B 23720 12 12 0.5 20.0 1511. 25. 23720 12 13 5. 5.00E-4 549. 6. 23720 12 14 ENDDATA 4 0 23720 12 15 ENDSUBENT 14 0 23720 1299999 SUBENT 23720013 20210511 230023720 13 1 BIB 4 5 23720 13 2 REACTION (64-GD-157(N,G)64-GD-158,,RI,,,DERIV) 23720 13 3 ANALYSIS Calculated from resonance parameters 23720 13 4 ERR-ANALYS (DATA-ERR) No information on source of uncertainties. 23720 13 5 STATUS (TABLE) Table 4 of Eur.Phys.J.56(2020)30 23720 13 6 (DEP,23720009) Resonance parameters 23720 13 7 ENDBIB 5 0 23720 13 8 NOCOMMON 0 0 23720 13 9 DATA 4 2 23720 13 10 EN-MIN EN-MAX DATA DATA-ERR 23720 13 11 EV MEV B B 23720 13 12 0.5 20.0 801. 19. 23720 13 13 5. 5.00E-4 368. 8. 23720 13 14 ENDDATA 4 0 23720 13 15 ENDSUBENT 14 0 23720 1399999 ENDENTRY 13 0 2372099999999