ENTRY 22948 20130203 22342294800000001 SUBENT 22948001 20130203 22342294800100001 BIB 16 60 2294800100002 TITLE Neutron capture and total cross sections of I-127 and 2294800100003 I-129 2294800100004 AUTHOR (G.Noguere, O.Bouland, A.Brusegan, P.Schillebeeckx, 2294800100005 P.Siegler, A.Lepretre, N.Herault, G.Rudolf) 2294800100006 INSTITUTE (2FR CAD) G.Noguere, O.Bouland 2294800100007 (2ZZZGEL) A.Brusegan, P.Schillebeeckx, P.Siegler 2294800100008 (2FR SAC) A.Lepretre, N.Herault 2294800100009 (2FR STR) G.Rudolf 2294800100010 REFERENCE (J,PR/C,74,054602,2006) Main reference, data are given 2294800100011 (R,CEA-R-6071,2005) CEA/DEN Cadarache report. Full set 2294800100012 of resonance data. Experimental details 2294800100013 REL-REF (I,22486001,F.Gunsing+,J,PR/C,61,054608,2000) Experim. 2294800100014 details 2294800100015 FACILITY (LINAC,2ZZZGEL) The Geel electron linear accelerator 2294800100016 GELINA. 2294800100017 INC-SOURCE (PHOTO) Neutrons were produced by (gamma,N) and 2294800100018 (gamma,fission) reactions induced via bremsstrahlung 2294800100019 from the electron beam hitting a rotating uranium 2294800100020 target. 2294800100021 (THCOL) Two 36 mm water slabs in a beryllium canning 2294800100022 are placed just above and below the target. 2294800100023 The neutrons emitted from the target moderator 2294800100024 assembly are led to the experimental areas along 2294800100025 neutron flight paths. 2294800100026 METHOD (TOF) Time-of-flight technique 2294800100027 .Capture experiment- capture set-up located at 28.67 m 2294800100028 from the neutron source, angle of the flight path 2294800100029 with respect to the moderator is 0 degree. 2294800100030 (TRN) .Transmission experiment:the neutrons cross a 2294800100031 filter setup and sample dummy at a distance of 23.7 m.2294800100032 Transmission set-up located at 49.34 m from the 2294800100033 neutron source, angle of the flight path with 2294800100034 respect to the moderator is 9 deg. 2294800100035 INC-SPECT .The neutron beam diameter is 45 mm. 2294800100036 DETECTOR (GLASD) A 1/4-in. thick Li6 glass (NE912) detector 2294800100037 (BF3) Four BF(3) tubes located in the armored concrete2294800100038 roof above the uranium target. These detectors are 2294800100039 called central monitors. They give an accurate 2294800100040 normalization of the transmission data with a maximum 2294800100041 dispersion of about 0.5%. 2294800100042 For capture experiments- 2294800100043 (IOCH) the neutron flux is measured with a B-10 2294800100044 ionization chamber. 2294800100045 (SCIN) Two C(6)D(6) liquid scintillators NE230 placed 2294800100046 at 90 degree with respect to the beam axis. 2294800100047 The neutron capture cross section is measured by 2294800100048 detecting the prompt gamma-rays emitted when the 2294800100049 compound nucleus deexcites to its ground state. 2294800100050 A normalization accuracy of about 3%. 2294800100051 MONITOR (5-B-10(N,A)3-LI-7,,SIG) 2294800100052 ADD-RES (THEO) Theoretical calculation with Hauser-Feshbach 2294800100053 method 2294800100054 COMMENT *By authors*.The cross sections determined in this work2294800100055 result from the analysis of 18 TOF measurements. 2294800100056 CORRECTION .Corrections for background are 2.4% and 3.5% at 2294800100057 100 Hz and 800 Hz. 2294800100058 STATUS (COREL,22686001) Data from authors 2294800100059 HISTORY (20061218C) 2294800100060 (20070106A) Last corrections have been done. 2294800100061 (20130203U) SD: Small corrections. 2294800100062 ENDBIB 60 0 2294800100063 COMMON 1 3 2294800100064 ERR-2 2294800100065 PER-CENT 2294800100066 3.0 2294800100067 ENDCOMMON 3 0 2294800100068 ENDSUBENT 67 0 2294800199999 SUBENT 22948002 20070106 21822294800200001 BIB 7 60 2294800200002 REACTION 1(53-I-127(N,0),,EN) Resonance energy 2294800200003 2(53-I-127(N,0),,J) Spin of the resonance 2294800200004 3(53-I-127(N,0),,PTY) Parity of the resonance 2294800200005 4(53-I-127(N,G),,WID) Gamma-width 2294800200006 5(53-I-127(N,EL),,WID,,G) Neutron elastic width times'g'2294800200007 6(53-I-127(N,EL),,WID) Neutron elastic width 2294800200008 ANALYSIS (SHAPE)Reich-moore approximation of the R-matrix theory2294800200009 resonance shape analysis with the REFIT and SUMMY for 2294800200010 the resolved resonance range up to 10 keV. 2294800200011 Below 5 keV, the resonance parameters were extracted 2294800200012 with a simultaneous analysis of the transmission and 2294800200013 capture measurements. 2294800200014 Within the 5-10 keV energy range, the neutron width 2294800200015 values and resonance energies were determined with the2294800200016 transmission data alone. 2294800200017 ASSUMED (ASSUM1,53-I-127(N,TOT),,SIG) For thermal energy 2294800200018 (ASSUM2,53-I-127(N,G)53-I-128,,SIG) For thermal energy 2294800200019 SAMPLE .Four samples containing commercial Pb-127I(2) powder 2294800200020 were used. Thin samples were designed to study the 2294800200021 broad resonances at 20.4, 31.2, 37.6 and 45.3 eV. 2294800200022 To increase a physical thickness of samples, 2294800200023 Pb-127I(2) powder was mixed with a large amount of 2294800200024 sulfur-about 1 g/cm2. Parallel measurements were 2294800200025 performed with a liquid sample of Li-127I, specially 2294800200026 designed to study the low neutron energy of the I-127 2294800200027 total cross section. Sample content is - 2294800200028 *127-I transmission 2294800200029 Thin Pb-I2 - 55 mm diam., 2294800200030 127-I (7.09+-0.10)E-4 at/b thick 2294800200031 Li-I - 100 mm diam., 2294800200032 127-I (0.45+-0.11)E-4 at/b thick 2294800200033 Thick Pb-I2 - 55 mm diam., 2294800200034 127-I (2.38+-0.04)E-2 at/b thick 2294800200035 *127-I capture 2294800200036 Thin Pb-I2 - 80 mm diam., 2294800200037 127-I (9.48+-0.22)E-4 at/b thick 2294800200038 Thin Pb-I2 - 80 mm diam., 2294800200039 127-I (4.76+-0.09)E-3 at/b thick 2294800200040 ERR-ANALYS (DATA-ERR).The error given for the resonance energies 2294800200041 takes into account the accuracy of the flight path 2294800200042 length, the experimental channel widths used to map 2294800200043 the entire TOF spectra, the incomplete description of 2294800200044 the moderation distance and the time delay uncertain- 2294800200045 ties. 2294800200046 (ERR-S).The quated errors for the raiation widths are 2294800200047 only the statistical uncertainties provided by the 2294800200048 REFIT-code. 2294800200049 (ERR-T).For the neutron widths, the sources of the 2294800200050 systematic errors are mainly the sample thickness, 2294800200051 incomplete description of the resolution function and 2294800200052 the time-dependent background. 2294800200053 (ERR-SYS).The average systematic error affecting the 2294800200054 I-127 neutron width values remains below 3.3%. 2294800200055 FLAG (1.) Negative energy parameters obtained by matching 2294800200056 of the extrapolated resonance values to the thermal 2294800200057 cross sections given ander ASSUMED values 2294800200058 STATUS .Table IV of main reference 2294800200059 (DEP,22869001) N,Gamma cross section measurements 2294800200060 (DEP,22876001) N,Total cross section measurements 2294800200061 (COREL,22686004) 2294800200062 ENDBIB 60 0 2294800200063 COMMON 4 3 2294800200064 ASSUM1 ASSUM2 ASSUM2-ERR ERR-SYS 2294800200065 B B B PER-CENT 2294800200066 10.3 5.80 0.05 3.3 2294800200067 ENDCOMMON 3 0 2294800200068 DATA 11 135 2294800200069 DATA 1DATA-ERR 1DATA 2DATA 3DATA 4ERR-S 42294800200070 DATA 5ERR-T 5DATA 6ERR-T 6FLAG 2294800200071 EV EV NO-DIM NO-DIM MILLI-EV MILLI-EV 2294800200072 MILLI-EV MILLI-EV MILLI-EV MILLI-EV NO-DIM 2294800200073 -54.19 0.11 2. +1. 99.8 1.02294800200074 48.462 0.458 116.3 1.1 1. 2294800200075 -43.31 0.10 3. +1. 98.3 0.92294800200076 65.213 0.583 111.8 1.0 1. 2294800200077 7.55 0.01 1. -1. 100.0 2294800200078 0.00012 2294800200079 10.35 0.01 1. -1. 90.0 5.92294800200080 0.003 0.001 2294800200081 13.95 0.01 2. -1. 99.2 21.22294800200082 0.002 0.001 2294800200083 20.38 0.01 2. +1. 95.7 0.62294800200084 0.719 0.024 2294800200085 24.63 1. -1. 100.0 2294800200086 0.00064 2294800200087 31.21 0.01 3. +1. 94.7 0.32294800200088 9.998 0.29 2294800200089 37.65 0.02 3. +1. 95.5 0.42294800200090 23.250 0.698 2294800200091 39.74 0.02 3. -1. 96.3 9.62294800200092 0.010 0.003 2294800200093 45.31 0.02 2. +1. 99.8 0.32294800200094 9.438 0.302 2294800200095 53.74 0.02 4. -1. 100.0 2294800200096 0.017 0.001 2294800200097 64.05 0.03 1. -1. 100.0 2294800200098 0.005 0.001 2294800200099 65.92 0.03 2. +1. 103.5 10.42294800200100 0.911 0.027 2294800200101 78.42 0.04 3. +1. 102.8 0.52294800200102 14.717 0.574 2294800200103 85.76 0.04 3. -1. 100.0 2294800200104 0.019 0.001 2294800200105 90.40 0.08 3. +1. 103.8 0.42294800200106 10.663 0.373 2294800200107 101.10 0.10 4. -1. 100.0 2294800200108 0.014 0.001 2294800200109 118.27 0.11 2. -1. 100.0 2294800200110 0.007 0.001 2294800200111 134.10 0.13 3. -1. 100.0 2294800200112 0.024 0.002 2294800200113 136.83 0.13 1. -1. 100.0 2294800200114 0.044 0.002 2294800200115 139.59 0.13 3. +1. 95.3 0.82294800200116 22.819 0.685 2294800200117 145.68 0.14 4. -1. 100.0 2294800200118 0.036 0.002 2294800200119 153.76 0.14 2. -1. 100.0 2294800200120 0.101 0.004 2294800200121 159.40 0.15 3. -1. 100.0 2294800200122 0.007 0.001 2294800200123 167.77 0.16 3. +1. 100.0 2294800200124 0.585 0.021 2294800200125 168.56 0.16 2. +1. 105.5 0.52294800200126 44.920 1.437 2294800200127 174.09 0.16 2. +1. 156.9 3.92294800200128 1.686 0.059 2294800200129 178.30 0.17 3. +1. 102.6 4.72294800200130 0.450 0.015 2294800200131 195.46 0.18 3. +1. 102.3 0.52294800200132 64.513 1.935 2294800200133 201.10 0.15 4. -1. 100.0 2294800200134 0.039 0.002 2294800200135 206.34 0.15 2. +1. 91.4 0.82294800200136 19.906 0.916 2294800200137 223.62 0.17 2. -1. 100.0 2294800200138 0.011 0.001 2294800200139 227.12 0.17 3. -1. 100.0 2294800200140 0.012 0.001 2294800200141 237.31 0.18 2. +1. 111.9 1.52294800200142 24.419 0.903 2294800200143 244.84 0.18 3. +1. 124.9 2.42294800200144 5.764 0.248 2294800200145 256.68 0.19 4. -1. 100.0 2294800200146 0.063 0.003 2294800200147 265.23 0.20 3. +1. 120.4 1.92294800200148 20.660 0.930 2294800200149 271.30 0.20 3. +1. 111.5 3.22294800200150 4.252 0.179 2294800200151 274.48 0.20 3. -1. 100.0 2294800200152 0.023 0.009 2294800200153 282.60 0.21 2. -1. 100.0 2294800200154 0.011 0.005 2294800200155 292.41 0.22 1. -1. 100.0 2294800200156 0.143 0.006 2294800200157 299.57 0.22 2. +1. 111.0 2.22294800200158 8.005 0.280 2294800200159 306.44 0.26 4. -1. 100.0 2294800200160 0.035 0.003 2294800200161 310.85 0.26 2. +1. 118.6 2.32294800200162 10.247 0.400 2294800200163 314.55 0.27 3. -1. 100.0 2294800200164 0.047 0.004 2294800200165 324.16 0.28 2. +1. 100.0 2294800200166 0.233 0.010 2294800200167 325.39 0.28 2. +1. 100.0 2294800200168 0.460 0.017 2294800200169 329.00 0.28 3. +1. 125.0 7.12294800200170 1.673 0.054 2294800200171 346.35 0.29 4. -1. 100.0 2294800200172 0.122 0.006 2294800200173 351.96 0.30 2. -1. 100.0 2294800200174 0.093 0.006 2294800200175 353.40 0.30 1. -1. 100.0 2294800200176 0.094 0.005 2294800200177 362.53 0.31 2. +1. 143.8 4.72294800200178 3.868 0.128 2294800200179 374.74 0.32 2. +1. 98.9 1.2294800200180 67.339 2.020 2294800200181 382.13 0.32 3. -1. 100.0 2294800200182 0.198 0.011 2294800200183 386.17 0.33 2. +1. 89.6 0.82294800200184 108.425 3.578 2294800200185 392.09 0.33 4. -1. 100.0 2294800200186 0.148 0.012 2294800200187 393.18 0.33 2. -1. 100.0 2294800200188 0.321 0.016 2294800200189 413.01 0.39 1. -1. 100.0 2294800200190 0.084 0.009 2294800200191 420.28 0.40 3. +1. 100.0 2294800200192 13.976 0.629 2294800200193 421.85 0.40 3. -1. 100.0 2294800200194 0.186 0.016 2294800200195 426.93 0.40 2. +1. 99.4 0.72294800200196 60.547 1.816 2294800200197 431.40 0.41 4. -1. 100.0 2294800200198 0.148 0.010 2294800200199 434.95 0.41 3. +1. 100.9 2.02294800200200 27.234 1.334 2294800200201 440.06 0.41 2. -1. 100.0 2294800200202 0.187 0.010 2294800200203 448.27 0.42 2. +1. 107.9 1.52294800200204 26.581 1.143 2294800200205 454.78 0.43 3. +1. 100.0 2294800200206 0.677 0.023 2294800200207 458.30 0.43 1. -1. 100.0 2294800200208 0.104 0.017 2294800200209 468.42 0.44 3. -1. 100.0 2294800200210 0.128 0.013 2294800200211 475.81 0.45 2. +1. 107.5 5.52294800200212 5.350 0.203 2294800200213 480.09 0.45 2. +1. 115.1 4.42294800200214 8.176 0.270 2294800200215 499.39 0.47 2. +1. 128.6 2.42294800200216 23.244 0.790 2294800200217 515.35 0.53 2. +1. 121.1 3.32294800200218 23.131 0.810 2294800200219 518.16 0.53 3. +1. 110.5 4.02294800200220 19.628 0.746 2294800200221 533.34 0.55 3. +1. 100.6 1.42294800200222 59.322 2.136 2294800200223 545.97 0.56 4. -1. 100.0 2294800200224 0.128 0.013 2294800200225 550.50 0.57 2. +1. 100.0 2294800200226 0.632 0.023 2294800200227 563.07 0.58 3. -1. 100.0 2294800200228 0.478 0.028 2294800200229 565.92 0.58 3. +1. 99.2 1.82294800200230 87.437 2.711 2294800200231 569.14 0.59 2. +1. 94.7 6.02294800200232 10.626 0.383 2294800200233 578.71 0.60 2. -1. 100.0 2294800200234 0.321 0.016 2294800200235 584.28 0.60 2. +1. 100.0 2294800200236 2.012 0.066 2294800200237 588.72 0.61 4. -1. 100.0 2294800200238 0.233 0.012 2294800200239 596.58 0.61 1. -1. 100.0 2294800200240 0.128 0.013 2294800200241 619.22 0.69 3. +1. 95.5 2.12294800200242 36.707 1.321 2294800200243 624.30 0.69 3. -1. 100.0 2294800200244 0.707 0.028 2294800200245 632.55 0.70 3. +1. 97.3 3.42294800200246 21.401 0.792 2294800200247 635.75 0.71 4. -1. 100.0 2294800200248 0.386 0.024 2294800200249 643.63 0.71 2. -1. 100.0 2294800200250 0.514 0.115 2294800200251 644.73 0.72 2. +1. 84.9 11.62294800200252 5.534 0.216 2294800200253 646.99 0.72 1. -1. 100.0 2294800200254 0.150 0.016 2294800200255 658.85 0.73 3. +1. 126.0 9.42294800200256 3.971 0.131 2294800200257 662.36 0.74 3. -1. 100.0 2294800200258 0.405 0.019 2294800200259 669.30 0.74 2. +1. 98.6 2.32294800200260 30.011 1.110 2294800200261 690.11 0.77 3. +1. 100.0 2294800200262 0.892 0.033 2294800200263 702.09 0.84 3. +1. 101.3 2.02294800200264 64.046 2.049 2294800200265 708.41 0.84 2. +1. 87.2 5.12294800200266 104.954 8.501 2294800200267 708.71 0.84 3. +1. 98.5 4.22294800200268 123.342 7.401 2294800200269 714.03 0.85 4. -1. 100.0 2294800200270 0.145 0.034 2294800200271 726.75 0.86 2. -1. 100.0 2294800200272 0.358 0.024 2294800200273 730.92 0.87 2. +1. 97.4 1.92294800200274 61.130 2.017 2294800200275 734.47 0.87 3. -1. 100.0 2294800200276 0.482 0.027 2294800200277 744.49 0.89 3. +1. 97.7 1.52294800200278 109.544 3.505 2294800200279 757.92 0.90 4. -1. 100.0 2294800200280 0.690 0.034 2294800200281 762.49 0.91 2. +1. 99.0 1.62294800200282 111.759 3.688 2294800200283 767.08 0.91 1. -1. 100.0 2294800200284 0.379 0.026 2294800200285 772.14 0.92 2. -1. 100.0 2294800200286 0.082 0.015 2294800200287 777.30 0.92 3. -1. 100.0 2294800200288 0.168 0.021 2294800200289 779.76 0.93 3. +1. 100.0 2294800200290 4.199 0.147 2294800200291 790.64 0.94 3. +1. 106.8 6.52294800200292 10.925 0.371 2294800200293 796.74 0.95 4. -1. 100.0 2294800200294 0.075 0.008 2294800200295 805.45 0.43 1. -1. 100.0 2294800200296 0.420 0.021 2294800200297 813.40 0.44 2. +1. 103.1 2.32294800200298 38.87 1.360 2294800200299 818.13 0.44 2. -1. 100.0 2294800200300 0.255 0.018 2294800200301 828.16 0.45 3. +1. 136.1 6.42294800200302 6.504 0.247 2294800200303 834.06 0.45 3. +1. 92.7 1.72294800200304 88.428 2.918 2294800200305 840.01 0.45 4. -1. 100.0 2294800200306 0.395 0.026 2294800200307 862.47 0.47 3. +1. 124.7 11.82294800200308 6.737 0.236 2294800200309 867.44 0.47 3. -1. 100.0 2294800200310 0.665 0.029 2294800200311 890.56 0.48 2. +1. 112.5 7.12294800200312 10.651 0.341 2294800200313 898.05 0.48 4. -1. 100.0 2294800200314 0.176 0.025 2294800200315 901.69 0.50 2. +1. 131.5 8.92294800200316 11.23 0.371 2294800200317 915.18 0.50 3. +1. 101.8 7.92294800200318 13.002 0.416 2294800200319 918.21 0.51 3. -1. 100.0 2294800200320 0.517 0.037 2294800200321 920.02 0.51 2. -1. 100.0 2294800200322 0.310 0.033 2294800200323 925.27 0.51 1. -1. 100.0 2294800200324 0.454 0.027 2294800200325 927.99 0.51 4. -1. 100.0 2294800200326 0.951 0.041 2294800200327 943.26 0.52 3. +1. 161.2 5.52294800200328 29.597 0.977 2294800200329 955.23 0.53 3. +1. 96.6 2.22294800200330 79.095 2.610 2294800200331 961.30 0.53 3. +1. 101.7 9.12294800200332 12.191 0.402 2294800200333 966.48 0.53 4. -1. 100.0 2294800200334 0.725 0.037 2294800200335 969.68 0.53 3. -1. 100.0 2294800200336 0.140 0.026 2294800200337 972.14 0.53 2. -1. 100.0 2294800200338 0.497 0.031 2294800200339 987.44 0.54 1. -1. 100.0 2294800200340 0.972 0.039 2294800200341 1003.80 0.56 4. -1. 100.0 2294800200342 0.967 0.083 2294800200343 ENDDATA 274 0 2294800200344 ENDSUBENT 343 0 2294800299999 SUBENT 22948003 20070106 21822294800300001 BIB 7 61 2294800300002 REACTION 1(53-I-129(N,0),,EN) Resonance energy 2294800300003 2(53-I-129(N,0),,J) Spin of the resonance 2294800300004 3(53-I-129(N,0),,PTY) Parity of the resonance 2294800300005 4(53-I-129(N,G),,WID) Gamma-width 2294800300006 5(53-I-129(N,EL),,WID,,G) Neutron elastic width times'g'2294800300007 6(53-I-129(N,EL),,WID) Neutron elastic width 2294800300008 ANALYSIS (SHAPE) Reich-moore approximation of the R-matrix 2294800300009 theory, resonance shape analysis with REFIT2294800300010 and SAMMY codes for the resolved resonance range up 2294800300011 to 10-KeV. Below 5-keV, the resonance parameters were 2294800300012 extracted with a simultaneous analysis of the trans- 2294800300013 mission and capture measurements. Within the 5-10 keV 2294800300014 energy range, the neutron width values and resonance 2294800300015 energies were determined from the transmission data 2294800300016 alone. 2294800300017 SAMPLE **I-129 samples - 2294800300018 .Four Pb-129I(2) radioactive samples were obtained 2294800300019 from 210 litres of waste solution by the chemical 2294800300020 procession. Sample content is as follows - 2294800300021 *129I transmission 2294800300022 .Thin PbI2: 55 mm diam, 129I thickns=(7.09+-0.17)E-4 2294800300023 at/b, 127I thickns=(1.47+-0.04)E-4 at/b; 2294800300024 .Thick PbI2:55 mm diam, 129I thickns=(7.08+-0.18)E-3 2294800300025 at/b , 127I thickns=(1.46+-0.04)E-3 at/b 2294800300026 *129I capture 2294800300027 .Thin PbI2: 80 mm diam, 129I thickns=(7.56+-0.18)E-4 2294800300028 at/b , 127I thickns=(1.56+-0.05)E-4 at/b 2294800300029 .Thick PbI2:80 mm diam, 129I thickns=(3.81+-0.09)E-3 2294800300030 at/b , 127I thickns=(7.90+-0.23)E-4 at/b 2294800300031 ..Natural and radioactive iodine (3.36+-0.08% 2294800300032 and 16.49+-0.40%), non-negligible amount of natural 2294800300033 lead (53.5+-3.0%), sulfur (6.2+-0.4%), sodium 2294800300034 (0.75+-0.04%), hydrogen (0.09%), oxygen (14.5+-1.5%),2294800300035 and nitrogen (1.2+-0.4%). 2294800300036 ASSUMED (ASSUM1,53-I-129(N,TOT),,SIG) For thermal energy 2294800300037 (ASSUM2,53-I-129(N,G)53-I-130,,SIG) For thermal energy 2294800300038 ERR-ANALYS (DATA-ERR) The error given for the resonance 2294800300039 energies takes into account the accuracy 2294800300040 of the flight path length, the experimental channel 2294800300041 widths used to map the entire TOF spectra, the 2294800300042 incomplete description of the moderation distance and 2294800300043 the time delay uncertainties. 2294800300044 (ERR-S) The quoted errors for the raiation widths are 2294800300045 only the statistical uncertainties provided by the 2294800300046 REFIT-code. 2294800300047 (ERR-T) For the neutron widths, the sources of the 2294800300048 systematic errors are mainly the sample thickness, 2294800300049 incomplete description of the resolution function and 2294800300050 the time-dependent background. 2294800300051 (ERR-SYS) The average systematic error affecting the 2294800300052 I-129 neutron width values remains below 3.6%. 2294800300053 (ERR-1) The global accuracy of the 127I and 129I mass 2294800300054 fractions is close to 2.5%. 2294800300055 FLAG (1.) Negative energy parameters obtained by matching 2294800300056 of the extrapolated resonance values to the thermal 2294800300057 cross sections given ander ASSUMED values 2294800300058 STATUS .Table V of main reference 2294800300059 (DEP,22868001) N,Gamma cross section measurements 2294800300060 (DEP,22873001) N,Total cross section measurements 2294800300061 (COREL,22686002) 2294800300062 (COREL,22686003) 2294800300063 ENDBIB 61 0 2294800300064 COMMON 6 3 2294800300065 ASSUM1 ASSUM1-ERR ASSUM2 ASSUM2-ERR ERR-SYS ERR-1 2294800300066 B B B B PER-CENT PER-CENT 2294800300067 35. 4. 30.0 0.8 3.6 2.52294800300068 ENDCOMMON 3 0 2294800300069 DATA 11 61 2294800300070 DATA 1DATA-ERR 1DATA 2DATA 3DATA 4ERR-S 42294800300071 DATA 5ERR-T 5DATA 6ERR-T 6FLAG 2294800300072 EV EV NO-DIM NO-DIM MILLI-EV MILLI-EV 2294800300073 MILLI-EV MILLI-EV MILLI-EV MILLI-EV NO-DIM 2294800300074 -21.60 0.10 4. +1. 105.9 3.72294800300075 36.169 0.225 64.3 0.4 1. 2294800300076 -10.70 0.10 3. +1. 105.9 2.42294800300077 19.556 0.087 44.7 0.2 1. 2294800300078 41.37 0.02 4. +1. 94.9 6.62294800300079 0.069 0.003 2294800300080 72.13 0.03 3. +1. 90.8 0.62294800300081 7.324 0.249 2294800300082 76.15 0.03 4. +1. 106.0 2294800300083 0.058 0.003 2294800300084 96.36 0.09 4. +1. 104.9 2.92294800300085 0.756 0.026 2294800300086 115.19 0.11 2. -1. 106.0 2294800300087 0.028 0.002 2294800300088 128.32 0.12 3. +1. 97.9 1.32294800300089 3.832 0.130 2294800300090 140.63 0.13 3. -1. 106.0 2294800300091 0.055 0.029 2294800300092 146.40 0.14 3. +1. 108.5 0.92294800300093 23.109 0.786 2294800300094 152.57 0.14 3. +1. 105.4 0.82294800300095 12.123 0.424 2294800300096 164.96 0.16 4. -1. 106.0 2294800300097 0.049 0.004 2294800300098 198.75 0.19 4. +1. 140.0 4.32294800300099 2.037 0.073 2294800300100 202.67 0.15 3. -1. 106.0 2294800300101 0.026 0.004 2294800300102 259.16 0.19 4. +1. 106.0 2294800300103 0.884 0.032 2294800300104 265.38 0.20 3. -1. 106.0 2294800300105 0.234 0.032 2294800300106 284.17 0.21 3. +1. 107.4 2.42294800300107 7.389 0.251 2294800300108 290.65 0.22 3. +1. 109.8 2.22294800300109 8.951 0.304 2294800300110 295.60 0.22 3. +1. 106.0 2294800300111 1.568 0.055 2294800300112 314.05 0.27 4. -1. 106.0 2294800300113 0.205 0.020 2294800300114 315.97 0.27 3. -1. 106.0 2294800300115 0.266 0.020 2294800300116 348.88 0.30 2. -1. 106.0 2294800300117 0.142 0.011 2294800300118 353.85 0.30 4. +1. 106.0 2294800300119 0.547 0.051 2294800300120 356.23 0.30 3. +1. 106.0 2294800300121 0.824 0.037 2294800300122 360.70 0.31 4. -1. 106.0 2294800300123 0.153 0.024 2294800300124 364.89 0.31 4. +1. 106.0 2294800300125 1.649 0.221 2294800300126 410.04 0.39 3. +1. 114.4 1.42294800300127 33.565 1.141 2294800300128 423.23 0.40 3. +1. 123.6 1.22294800300129 57.925 1.969 2294800300130 454.28 0.43 3. +1. 109.6 1.52294800300131 28.232 0.960 2294800300132 469.24 0.44 3. +1. 107.4 1.12294800300133 67.331 2.289 2294800300134 489.31 0.46 3. +1. 127.0 1.82294800300135 32.528 1.106 2294800300136 492.73 0.46 3. -1. 106.0 2294800300137 0.383 0.027 2294800300138 511.64 0.53 3. -1. 106.0 2294800300139 0.249 0.026 2294800300140 524.45 0.54 2. -1. 106.0 2294800300141 0.399 0.144 2294800300142 547.98 0.56 3. +1. 101.1 9.12294800300143 31.706 1.078 2294800300144 554.71 0.57 3. +1. 106.0 2294800300145 0.830 0.091 2294800300146 562.09 0.58 3. -1. 106.0 2294800300147 0.158 0.027 2294800300148 576.79 0.59 4. -1. 106.0 2294800300149 0.279 0.045 2294800300150 578.53 0.60 3. -1. 106.0 2294800300151 0.384 0.036 2294800300152 595.58 0.61 4. +1. 106.0 2294800300153 6.249 0.219 2294800300154 654.54 0.73 4. +1. 106.0 2294800300155 1.977 0.087 2294800300156 689.63 0.77 4. -1. 106.0 2294800300157 0.557 0.056 2294800300158 693.26 0.77 4. +1. 110.2 1.22294800300159 111.600 3.794 2294800300160 719.66 0.86 4. +1. 106.0 2294800300161 21.673 0.759 2294800300162 725.35 0.86 3. -1. 106.0 2294800300163 0.220 0.028 2294800300164 730.17 0.87 2. -1. 106.0 2294800300165 0.175 0.068 2294800300166 761.56 0.91 4. +1. 106.0 2294800300167 5.560 0.211 2294800300168 797.09 0.95 3. +1. 104.1 1.22294800300169 90.256 3.069 2294800300170 803.65 0.43 3. +1. 122.6 2.12294800300171 55.737 1.895 2294800300172 842.43 0.45 3. -1. 106.0 2294800300173 0.322 0.032 2294800300174 845.69 0.46 3. -1. 106.0 2294800300175 0.146 0.029 2294800300176 855.25 0.46 3. +1. 106.3 1.72294800300177 58.319 1.983 2294800300178 866.93 0.47 4. -1. 106.0 2294800300179 0.566 0.057 2294800300180 879.28 0.47 2. -1. 106.0 2294800300181 0.482 0.036 2294800300182 888.46 0.48 3. +1. 106.0 2294800300183 6.055 0.224 2294800300184 897.42 0.48 3. -1. 106.0 2294800300185 0.178 0.029 2294800300186 915.31 0.50 3. +1. 96.7 1.32294800300187 116.550 3.953 2294800300188 926.06 0.51 3. +1. 106.0 2294800300189 3.658 0.172 2294800300190 969.36 0.53 4. -1. 106.0 2294800300191 0.789 0.06 2294800300192 991.31 0.55 3. -1. 106.0 2294800300193 0.542 0.052 2294800300194 1002.75 0.56 3. +1. 132.9 1.62294800300195 169.619 5.767 2294800300196 ENDDATA 126 0 2294800300197 ENDSUBENT 196 0 2294800399999 SUBENT 22948004 20070106 21822294800400001 BIB 4 7 2294800400002 REACTION (53-I-127(N,EL),,STF) Resolved resonance energy area 2294800400003 elastic strength function 2294800400004 STATUS (DEP,22948002) From Table VIof main reference. 2294800400005 (COREL,22686005) 2294800400006 ANALYSIS (RFN) I-127 average parameters deduced from statistical2294800400007 analysis of individual resonance parameters.2294800400008 ERR-ANALYS (DATA-ERR).The error is reported by authors in Table VI2294800400009 ENDBIB 7 0 2294800400010 NOCOMMON 0 0 2294800400011 DATA 5 1 2294800400012 EN-RES-MIN EN-RES-MAX DATA DATA-ERR MOMENTUM L 2294800400013 EV EV NO-DIM NO-DIM NO-DIM 2294800400014 7.55 1003.8 7.2E-05 6.E-06 0. 2294800400015 ENDDATA 3 0 2294800400016 ENDSUBENT 15 0 2294800499999 SUBENT 22948005 20070106 21822294800500001 BIB 5 12 2294800500002 REACTION 1(53-I-127(N,0),,D) Average level spacing for resolved 2294800500003 resonance energy area 2294800500004 2(53-I-127(N,G),,WID,,AV) Average gamma width for 2294800500005 resolved resonance energy area 2294800500006 STATUS (DEP,22948002) .From Table VI of main reference. 2294800500007 (COREL,22686006) 2294800500008 ANALYSIS (RFN) I-127 average parameters were deduced from 2294800500009 statistical analysis of individual resonance 2294800500010 parameters. 2294800500011 ERR-ANALYS (DATA-ERR).The error is reported by authors in Table VI2294800500012 MISC-COL (MISC) S-wave distant level parameter 2294800500013 0.19+-0.01. 2294800500014 ENDBIB 12 0 2294800500015 COMMON 2 3 2294800500016 EN-RES-MIN EN-RES-MAX 2294800500017 EV EV 2294800500018 7.55 1003.8 2294800500019 ENDCOMMON 3 0 2294800500020 DATA 7 2 2294800500021 MOMENTUM L DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC 2294800500022 MISC-ERR 2294800500023 NO-DIM EV EV MEV MEV 1/MEV 2294800500024 1/MEV 2294800500025 0. 12.5 0.3 100. 22.6 0.19 2294800500026 0.01 2294800500027 1. 6.5 0.1 2294800500028 2294800500029 ENDDATA 8 0 2294800500030 ENDSUBENT 29 0 2294800599999 SUBENT 22948006 20070106 21822294800600001 BIB 5 7 2294800600002 REACTION (53-I-127(0,0),,LDP) Level density parameter for 2294800600003 resolved resonance energy area 2294800600004 STATUS (DEP,22948002) From Table VI of main reference. 2294800600005 ANALYSIS .I-129 Fermi gas level density parameter was deduced 2294800600006 from the S-wave Gilbert-Cameron level density formula.2294800600007 ERR-ANALYS (DATA-ERR).The error is reported by authors in Table VI2294800600008 MISC-COL (MISC) S-wave distant level parameters 2294800600009 ENDBIB 7 0 2294800600010 NOCOMMON 0 0 2294800600011 DATA 4 1 2294800600012 DATA DATA-ERR MISC MISC-ERR 2294800600013 1/MEV 1/MEV NO-DIM NO-DIM 2294800600014 17.42 0.04 0.19 0.01 2294800600015 ENDDATA 3 0 2294800600016 ENDSUBENT 15 0 2294800699999 SUBENT 22948007 20070106 21822294800700001 BIB 4 7 2294800700002 REACTION (53-I-129(N,EL),,STF) Resolved resonance energy area 2294800700003 elastic strength function 2294800700004 STATUS (DEP,22948003) From Table VI of main reference. 2294800700005 (COREL,22686007) 2294800700006 ANALYSIS .I-129 average parameters deduced from statistical 2294800700007 analysis of individual resonance parameters. 2294800700008 ERR-ANALYS (DATA-ERR).The error is reported by authors in table 6.2294800700009 ENDBIB 7 0 2294800700010 NOCOMMON 0 0 2294800700011 DATA 5 1 2294800700012 EN-RES-MIN EN-RES-MAX DATA DATA-ERR MOMENTUM L 2294800700013 EV EV NO-DIM NO-DIM NO-DIM 2294800700014 41.37 1002.75 5.4E-05 7.E-06 0. 2294800700015 ENDDATA 3 0 2294800700016 ENDSUBENT 15 0 2294800799999 SUBENT 22948008 20070106 21822294800800001 BIB 5 10 2294800800002 REACTION 1(53-I-129(N,0),,D) Average level spacing for resolved 2294800800003 resonance energy area 2294800800004 2(53-I-129(N,G),,WID,,AV) Average gamma width for 2294800800005 resolved resonance energy area 2294800800006 STATUS (DEP,22948003) From Table VI of main reference. 2294800800007 (COREL,22686008) 2294800800008 ANALYSIS .I-129 average parameters deduced from statistical 2294800800009 analysis of individual resonance parameters. 2294800800010 MISC-COL (MISC) Approximate S-wave distant level parameter 2294800800011 ERR-ANALYS (DATA-ERR).The error is reported by authors in Table VI2294800800012 ENDBIB 10 0 2294800800013 COMMON 2 3 2294800800014 EN-RES-MIN EN-RES-MAX 2294800800015 EV EV 2294800800016 41.37 1002.75 2294800800017 ENDCOMMON 3 0 2294800800018 DATA 6 2 2294800800019 MOMENTUM L DATA 1DATA-ERR 1DATA 2DATA-ERR 2MISC 2294800800020 NO-DIM EV EV MEV MEV NO-DIM 2294800800021 0. 27.3 0.9 106. 15.2 0.16 2294800800022 1. 14.1 0.5 2294800800023 ENDDATA 4 0 2294800800024 ENDSUBENT 23 0 2294800899999 SUBENT 22948009 20070106 21822294800900001 BIB 4 6 2294800900002 REACTION (53-I-129(0,0),,LDP) Level density parameter for 2294800900003 resolved resonance energy area 2294800900004 STATUS (DEP,22948003) From Table VI of main reference. 2294800900005 ANALYSIS .I-129 Fermi gas LEVEL density parameter waS deduced 2294800900006 from the S-wave Gilbert-Cameron level density formula.2294800900007 ERR-ANALYS (DATA-ERR).The error is reported by authors in Table VI2294800900008 ENDBIB 6 0 2294800900009 NOCOMMON 0 0 2294800900010 DATA 2 1 2294800900011 DATA DATA-ERR 2294800900012 1/MEV 1/MEV 2294800900013 16.56 0.06 2294800900014 ENDDATA 3 0 2294800900015 ENDSUBENT 14 0 2294800999999 SUBENT 22948010 20070106 21822294801000001 BIB 4 7 2294801000002 REACTION (53-I-127(N,EL),,STF) Elastic strength function for 2294801000003 unresolved resonance region 2294801000004 STATUS (DEP,22948002) From Table VII of main reference. 2294801000005 ANALYSIS .I-127 average parameters determined in the URR with 2294801000006 The FITACS option of SUMMY code. 2294801000007 ERR-ANALYS (ERR-S).Quoted uncertainties are statistical errors 2294801000008 given by SUMMY and reported in Table VII 2294801000009 ENDBIB 7 0 2294801000010 COMMON 2 3 2294801000011 EN-RES-MIN EN-RES-MAX 2294801000012 KEV KEV 2294801000013 3.5 1000. 2294801000014 ENDCOMMON 3 0 2294801000015 DATA 3 2 2294801000016 DATA ERR-S MOMENTUM L 2294801000017 NO-DIM NO-DIM NO-DIM 2294801000018 7.8E-05 1.E-06 0. 2294801000019 1.53E-04 1.E-06 1. 2294801000020 ENDDATA 4 0 2294801000021 ENDSUBENT 20 0 2294801099999 SUBENT 22948011 20070106 21822294801100001 BIB 5 8 2294801100002 REACTION (53-I-127(N,G),,WID,,AV) Average gamma width for 2294801100003 unresolved resonance region 2294801100004 STATUS (DEP,22948002) From Table VII of main reference. 2294801100005 ANALYSIS .I-127 average parameters determined in the URR with 2294801100006 the FITACS option of SUMMY code. 2294801100007 ERR-ANALYS (ERR-S).Quoted uncertainties are statistical errors 2294801100008 given by SUMMY and reported in Table VII 2294801100009 MISC-COL (MISC) Distant level parameter 2294801100010 ENDBIB 8 0 2294801100011 COMMON 2 3 2294801100012 EN-MIN EN-MAX 2294801100013 KEV KEV 2294801100014 3.5 1000. 2294801100015 ENDCOMMON 3 0 2294801100016 DATA 5 2 2294801100017 DATA ERR-S MISC MISC-ERR MOMENTUM L 2294801100018 MEV MEV MEV MEV NO-DIM 2294801100019 112.4 0.1 0.19 0.01 0. 2294801100020 103.2 0.1 -0.13 0.01 1. 2294801100021 ENDDATA 4 0 2294801100022 ENDSUBENT 21 0 2294801199999 SUBENT 22948012 20070106 21822294801200001 BIB 4 7 2294801200002 REACTION (53-I-129(N,EL),,STF) Elastic strength function for 2294801200003 unresolved resonance region 2294801200004 STATUS (DEP,22948003) From Table VII of main reference. 2294801200005 ANALYSIS .I-129 average parameters determined in the URR with 2294801200006 the FITACS option of SUMMY code. 2294801200007 ERR-ANALYS (ERR-S).Quoted uncertainties are statistical errors 2294801200008 given by SUMMY and reported in Table VII 2294801200009 ENDBIB 7 0 2294801200010 COMMON 2 3 2294801200011 EN-RES-MIN EN-RES-MAX 2294801200012 KEV KEV 2294801200013 3.5 100. 2294801200014 ENDCOMMON 3 0 2294801200015 DATA 3 2 2294801200016 DATA ERR-S MOMENTUM L 2294801200017 NO-DIM NO-DIM NO-DIM 2294801200018 5.8E-05 1.E-06 0. 2294801200019 1.41E-04 1.3E-05 1. 2294801200020 ENDDATA 4 0 2294801200021 ENDSUBENT 20 0 2294801299999 SUBENT 22948013 20070106 21822294801300001 BIB 5 8 2294801300002 REACTION (53-I-129(N,G),,WID,,AV) Average gamma width for 2294801300003 unresolved resonance region 2294801300004 STATUS (DEP,22948003) From Table VII of main reference. 2294801300005 ANALYSIS .I-129 average parameters determined in the URR with 2294801300006 the FITACS option of SUMMY code 2294801300007 MISC-COL (MISC) Distant level parameter 2294801300008 ERR-ANALYS (ERR-S).Quated uncertainties are statistical errors 2294801300009 given by SUMMY and reported in Table VII 2294801300010 ENDBIB 8 0 2294801300011 COMMON 2 3 2294801300012 EN-MIN EN-MAX 2294801300013 KEV KEV 2294801300014 3.5 100. 2294801300015 ENDCOMMON 3 0 2294801300016 DATA 5 2 2294801300017 DATA ERR-S MISC MISC-ERR MOMENTUM L 2294801300018 MEV MEV MEV MEV NO-DIM 2294801300019 108.3 0.9 0.17 0.01 0. 2294801300020 114.2 1.4 -0.11 0.01 1. 2294801300021 ENDDATA 4 0 2294801300022 ENDSUBENT 21 0 2294801399999 SUBENT 22948014 20070106 21822294801400001 BIB 3 5 2294801400002 REACTION (53-I-127(N,G)53-I-128,,SIG,,AV) 2294801400003 ANALYSIS .I-127 average capture cross section obtained with 2294801400004 the NJOY code at 293.6K. 2294801400005 ERR-ANALYS (DATA-ERR).Quoted uncertainties result from the 2294801400006 statistical and systematic errors added quadratically.2294801400007 ENDBIB 5 0 2294801400008 NOCOMMON 0 0 2294801400009 DATA 4 6 2294801400010 EN-MIN EN-MAX DATA DATA-ERR 2294801400011 KEV KEV B B 2294801400012 5.5 9.1 1.36 0.05 2294801400013 9.1 15.07 1.05 0.04 2294801400014 15.0 24.8 0.82 0.03 2294801400015 24.8 40.9 0.65 0.03 2294801400016 40.9 67.4 0.51 0.02 2294801400017 67.4 111.1 0.35 0.01 2294801400018 ENDDATA 8 0 2294801400019 ENDSUBENT 18 0 2294801499999 SUBENT 22948015 20070106 21822294801500001 BIB 3 5 2294801500002 REACTION (53-I-129(N,G)53-I-130,,SIG,,AV) 2294801500003 ANALYSIS .I-129 average capture cross section obtained with 2294801500004 the NJOY code at 293.6K. 2294801500005 ERR-ANALYS (DATA-ERR).Quoted uncertainties result from the 2294801500006 statistical and systematic errors added quadratically.2294801500007 ENDBIB 5 0 2294801500008 NOCOMMON 0 0 2294801500009 DATA 4 6 2294801500010 EN-MIN EN-MAX DATA DATA-ERR 2294801500011 KEV KEV B B 2294801500012 5.5 9.1 0.85 0.04 2294801500013 9.1 15.07 0.65 0.03 2294801500014 15.0 24.8 0.50 0.03 2294801500015 24.8 40.9 0.37 0.02 2294801500016 40.9 67.4 0.26 0.01 2294801500017 67.4 111.1 0.18 0.01 2294801500018 ENDDATA 8 0 2294801500019 ENDSUBENT 18 0 2294801599999 SUBENT 22948016 20070106 21822294801600001 BIB 3 4 2294801600002 REACTION (53-I-127(N,EL)53-I-127,POT,RAD) 2294801600003 ANALYSIS (RFN) S-Wave radius was determined by SAMMY code 2294801600004 STATUS .Text of main reference 2294801600005 (DEP,22948002) 2294801600006 ENDBIB 4 0 2294801600007 NOCOMMON 0 0 2294801600008 DATA 4 1 2294801600009 EN-MIN DATA DATA-ERR MOMENTUM L 2294801600010 EV FERMI FERMI NO-DIM 2294801600011 0.025 5.5 0.1 0. 2294801600012 ENDDATA 3 0 2294801600013 ENDSUBENT 12 0 2294801699999 SUBENT 22948017 20070106 21822294801700001 BIB 3 4 2294801700002 REACTION (53-I-129(N,EL)53-I-129,POT,RAD) 2294801700003 ANALYSIS (RFN) S-Wave radius was determined by SAMMY code 2294801700004 STATUS .Text of main reference 2294801700005 (DEP,22948003) 2294801700006 ENDBIB 4 0 2294801700007 NOCOMMON 0 0 2294801700008 DATA 4 1 2294801700009 EN-MIN DATA DATA-ERR MOMENTUM L 2294801700010 EV FERMI FERMI NO-DIM 2294801700011 0.025 5.7 1.6 0. 2294801700012 ENDDATA 3 0 2294801700013 ENDSUBENT 12 0 2294801799999 ENDENTRY 17 0 2294899999999