ENTRY 11139 20210317 14831113900000001 SUBENT 11139001 20210317 14831113900100001 BIB 8 29 1113900100002 TITLE The Slow Neutron Cross Sections of Indium, Gold, 1113900100003 Silver, Antimony, Lithium, and Mercury as Measured 1113900100004 with a Neutron Beam Spectrometer 1113900100005 AUTHOR (W.W.Havens Jr,J.Rainwater) 1113900100006 REFERENCE (J,PR,70,154,1946) 1113900100007 #doi:10.1103/PhysRev.70.154 1113900100008 INSTITUTE (1USACOL) 1113900100009 FACILITY (CYCLO,1USACOL) 1113900100010 METHOD (TRN,TOF) The variations of the slow neutron 1113900100011 transmissions of In, Au, Ag, Sb, Li, and Hg have been 1113900100012 investigated as a function of the time-of-flight of 1113900100013 the incident neutrons for a 5.4-meter path by use of 1113900100014 a neutron beam spectrometer. 1113900100015 COMMENT Compiler's comment: Plots were digitized vs. neutron 1113900100016 time of flight in microsec/meter and converted to 1113900100017 energy by compiler using the relation 1113900100018 E = (72.3/t)**2 eV which gives the neutron 1113900100019 energy for a timing t, microsec/meter from. Formula 1113900100020 was taken from Phys. Rev. 71, 165 (1947) and verified 1113900100021 using the method of visual inspection. Transmission 1113900100022 data are more reliable, while cross section scale is 1113900100023 less obvious. 1113900100024 HISTORY (19760628T) Translated from SCISRS. 1113900100025 (19800814A) Converted to reaction formalism. 1113900100026 (20210317A) BP: Updated to new date formats, lower 1113900100027 case. Corrections according last EXFOR rules and 1113900100028 Dict. Added thermal cross section data based on cross 1113900100029 section curve approximations, sample, method and doi. 1113900100030 Digitized the data. Subentries 10-33 were added. 1113900100031 ENDBIB 29 0 1113900100032 NOCOMMON 0 0 1113900100033 ENDSUBENT 32 0 1113900199999 SUBENT 11139002 20210317 14831113900200001 BIB 7 31 1113900200002 REACTION (3-LI-0(N,ABS),,SIG) 1113900200003 REL-REF (R,,H.H.Goldsmith+,J,PR,50,328,1936) 1113900200004 (R,,G.A.Fink,J,PR,50,738,1936) Fluorine cross sections.1113900200005 SAMPLE This salt was tightly packed in an aluminum container 1113900200006 such that there were 4.85 g/cm2 of LiF and 0.418 1113900200007 g/cm2 of aluminum in the beam for the thicker sample 1113900200008 and 0.862 g/cm2 of LiF and 0.418 g/cm2 of aluminum in 1113900200009 the beam for the thinner sample. The lithium fluoride 1113900200010 was obtained from the City Chemical Corporation and 1113900200011 was of analytical reagent grade. The salt was dried 1113900200012 at 120 degrees C for 48 hours before being packed in 1113900200013 the container. 1113900200014 ANALYSIS If the cross section of aluminum is assumed to be 1113900200015 1.5x10**(-24) cm2/atom, and that of fluorine 1113900200016 2.5x10**(-24) cm2/atom and these cross sections are 1113900200017 assumed constant over the energy interval studied, 1113900200018 then the absorption due to the aluminum and the 1113900200019 fluorine will be equivalent to a reduction in the 1113900200020 transmission to T=0.938 for the 0.862 g/cm2 sample 1113900200021 and to T=0.826 for the 4.85 g/cm2 sample. The 1113900200022 experimental results then indicate that the slow 1113900200023 neutron cross section of lithium follows a 1/v law 1113900200024 and may be expressed as the sum of a constant term 1113900200025 and a 1/v term: sigma = [(11.5+- 0.2) *E**-1/2 + 1113900200026 (1.7+- 0.2) ]*10**-24 cm2/atom if the cross section 1113900200027 of fluorine is assumed to be constant at 2.5x10**24 1113900200028 cm2/atom. E is the neutron energy in eV. 1113900200029 ERR-ANALYS (DATA-ERR) Cross section curve calculations. 1113900200030 HISTORY (20210317A) BP: Added sample and analysis, corrected 1113900200031 cross section values using formula. 1113900200032 STATUS (TABLE) Page 169. 1113900200033 ENDBIB 31 0 1113900200034 NOCOMMON 0 0 1113900200035 DATA 3 1 1113900200036 EN DATA DATA-ERR 1113900200037 EV B B 1113900200038 2.53E-02 7.40E+01 1.45 1113900200039 ENDDATA 3 0 1113900200040 ENDSUBENT 39 0 1113900299999 SUBENT 11139003 20210317 14831113900300001 BIB 6 17 1113900300002 REACTION (3-LI-0(N,TOT),,SIG) 1113900300003 SAMPLE This salt was tightly packed in an aluminum container 1113900300004 such that there were 4.85 g/cm2 of LiF and 0.418 1113900300005 g/cm2. The lithium fluoride was obtained from the 1113900300006 City Chemical Corporation and was of analytical 1113900300007 reagent grade. The salt was dried at 120 degrees C 1113900300008 for 48 hours before being packed in the container. 1113900300009 METHOD Resolution width was approximately 20 microsec/meter. 1113900300010 ANALYSIS Outside resonances, the cross section from the 1113900300011 experimental transmission T by using the formula 1113900300012 T=exp(-n sigma), where n is the number of atoms per 1113900300013 cm2 in the sample. 1113900300014 STATUS (DEP,11139013) 1113900300015 (CURVE) Fig. 14, page 168; values converted by 1113900300016 compiler as described under the compiler's comment. 1113900300017 HISTORY (20210317A) BP: Replaced SCISRS data with plot 1113900300018 digitization. 1113900300019 ENDBIB 17 0 1113900300020 NOCOMMON 0 0 1113900300021 DATA 2 11 1113900300022 EN DATA 1113900300023 EV B 1113900300024 31.696 1.563 1113900300025 12.474 2.393 1113900300026 6.767 4.220 1113900300027 3.420 5.568 1113900300028 2.715 6.844 1113900300029 1.950 8.465 1113900300030 1.525 9.810 1113900300031 1.145 11.364 1113900300032 0.784 14.089 1113900300033 0.647 15.607 1113900300034 0.553 16.919 1113900300035 ENDDATA 13 0 1113900300036 ENDSUBENT 35 0 1113900399999 SUBENT 11139004 20210317 14831113900400001 BIB 6 22 1113900400002 REACTION (47-AG-0(N,TOT),,SIG) 1113900400003 SAMPLE A 19.8 g/cm2 disk of metallic silver was used. A 1113900400004 preliminary run on the thin sample in the thermal 1113900400005 region gave sufficient data to indicate the thickness 1113900400006 of the sample which would give best results in this 1113900400007 region. Therefore, the thick sample was cut 1113900400008 approximately in half and a sample containing 7.84 1113900400009 g/cm2 was used for the rest of the measurements an 1113900400010 silver. 1113900400011 METHOD Resolution width was approximately 50 microsec/meter. 1113900400012 ANALYSIS Outside resonances, the cross section from the 1113900400013 experimental transmission T by using the formula 1113900400014 T=exp(-n sigma), where n is the number of atoms per 1113900400015 cm2 in the sample. Silver cross sections can be 1113900400016 expressed as sigma = [(4.2+-0.3) + (0.64+-0.02)*E**(-1/1113900400017 2)]x10**(-24) cm2/atom. E is the neutron energy in eV. 1113900400018 STATUS (DEP,11139016) 1113900400019 (CURVE) Fig. 10, page 164; values converted by 1113900400020 compiler as described under the compiler's comment. 1113900400021 HISTORY (19820107U) BIB update. 1113900400022 (20210317A) BP: Replaced BNL-325 data with plot 1113900400023 digitization. 1113900400024 ENDBIB 22 0 1113900400025 NOCOMMON 0 0 1113900400026 DATA 2 49 1113900400027 EN DATA 1113900400028 EV B 1113900400029 432.879 7.676 1113900400030 93.878 9.714 1113900400031 88.902 12.710 1113900400032 48.581 14.749 1113900400033 11.067 12.151 1113900400034 10.907 14.466 1113900400035 8.703 33.797 1113900400036 8.084 9.969 1113900400037 6.838 60.753 1113900400038 5.235 99.417 1113900400039 4.342 70.005 1113900400040 2.766 29.967 1113900400041 2.670 22.614 1113900400042 2.284 18.934 1113900400043 2.064 17.706 1113900400044 1.705 16.612 1113900400045 1.367 17.423 1113900400046 1.005 17.549 1113900400047 0.771 16.995 1113900400048 0.723 19.443 1113900400049 0.531 20.110 1113900400050 0.457 21.464 1113900400051 0.436 20.236 1113900400052 0.334 24.578 1113900400053 0.246 25.239 1113900400054 0.204 26.995 1113900400055 0.165 29.837 1113900400056 0.136 31.453 1113900400057 0.119 34.300 1113900400058 0.098 35.232 1113900400059 0.084 36.576 1113900400060 0.074 40.508 1113900400061 0.065 42.262 1113900400062 0.057 45.782 1113900400063 0.051 47.535 1113900400064 0.045 50.375 1113900400065 0.037 53.337 1113900400066 0.033 56.042 1113900400067 0.032 59.162 1113900400068 0.028 61.454 1113900400069 0.026 64.432 1113900400070 0.024 64.275 1113900400071 0.022 69.159 1113900400072 0.020 70.504 1113900400073 0.019 70.757 1113900400074 0.018 75.779 1113900400075 0.017 73.993 1113900400076 0.016 74.925 1113900400077 0.015 81.720 1113900400078 ENDDATA 51 0 1113900400079 ENDSUBENT 78 0 1113900499999 SUBENT 11139005 20210317 14831113900500001 BIB 6 17 1113900500002 REACTION (80-HG-0(N,TOT),,SIG) 1113900500003 SAMPLE The mercury was U.S.P. XII redistilled - purchased 1113900500004 from the Mallinkrodt Chemical Works. For the 1113900500005 preliminary investigation of the entire transmission 1113900500006 curve of mercury, a sample containing 3.25 g/cm2 of 1113900500007 the liquid was used. 1113900500008 METHOD Resolution width was approximately 100 microsec/meter. 1113900500009 ANALYSIS Outside resonances, the cross section from the 1113900500010 experimental transmission T by using the formula 1113900500011 T=exp(-n sigma), where n is the number of atoms per 1113900500012 cm2 in the sample 1113900500013 STATUS (DEP,11139019) 1113900500014 (CURVE) Fig. 16, page 169; values converted by 1113900500015 compiler as described under the compiler's comment. 1113900500016 HISTORY (19820107U) BIB update. 1113900500017 (20210317A) BP: Replaced BNL-325 data with plot 1113900500018 digitization. 1113900500019 ENDBIB 17 0 1113900500020 NOCOMMON 0 0 1113900500021 DATA 2 33 1113900500022 EN DATA 1113900500023 EV B 1113900500024 7661.548 13.106 1113900500025 72.078 19.348 1113900500026 67.563 15.603 1113900500027 16.428 21.220 1113900500028 7.841 21.220 1113900500029 3.194 21.220 1113900500030 2.106 33.078 1113900500031 1.256 44.936 1113900500032 0.958 54.922 1113900500033 0.755 61.787 1113900500034 0.592 81.759 1113900500035 0.478 77.390 1113900500036 0.412 91.121 1113900500037 0.351 98.610 1113900500038 0.316 117.333 1113900500039 0.254 127.319 1113900500040 0.241 134.809 1113900500041 0.206 139.177 1113900500042 0.181 145.418 1113900500043 0.170 154.780 1113900500044 0.151 168.511 1113900500045 0.118 192.851 1113900500046 0.097 210.326 1113900500047 0.086 225.929 1113900500048 0.077 247.149 1113900500049 0.065 257.759 1113900500050 0.051 288.340 1113900500051 0.046 306.440 1113900500052 0.040 327.035 1113900500053 0.037 340.142 1113900500054 0.031 365.730 1113900500055 0.028 386.326 1113900500056 0.026 404.426 1113900500057 ENDDATA 35 0 1113900500058 ENDSUBENT 57 0 1113900599999 SUBENT 11139006 20210317 14831113900600001 BIB 3 5 1113900600002 REACTION 1(47-AG-0(N,0),,EN) 1113900600003 2(47-AG-0(N,TOT),,WID,,SQ/S0) 1113900600004 ERR-ANALYS (DATA-ERR) No details on sources of uncertainties. 1113900600005 STATUS (DEP,11139004) 1113900600006 (TABLE) page 166. 1113900600007 ENDBIB 5 0 1113900600008 NOCOMMON 0 0 1113900600009 DATA 3 3 1113900600010 DATA 1DATA-ERR 1DATA 2 1113900600011 EV EV B*EV-SQ 1113900600012 5.1 0.2 300. 1113900600013 13.7 1. 14. 1113900600014 43. 5. 380. 1113900600015 ENDDATA 5 0 1113900600016 ENDSUBENT 15 0 1113900699999 SUBENT 11139007 20210317 14831113900700001 BIB 3 7 1113900700002 REACTION 1(49-IN-0(N,0),,EN) 1113900700003 2(49-IN-0(N,TOT),,WID,,SQ/S0) 1113900700004 3(49-IN-0(N,TOT),,WID) 1113900700005 4(49-IN-0(N,TOT),,SIG,,RES) 1113900700006 ERR-ANALYS (DATA-ERR) No details on sources of uncertainties. 1113900700007 STATUS (DEP,11139027) 1113900700008 (TABLE) page 162. 1113900700009 ENDBIB 7 0 1113900700010 NOCOMMON 0 0 1113900700011 DATA 6 1 1113900700012 DATA 1DATA-ERR 1DATA 2DATA-ERR 2DATA-MAX 3DATA-MIN 41113900700013 EV EV B*EV-SQ B*EV-SQ EV B 1113900700014 1.44 0.04 210. 60. 0.2 5200.1113900700015 ENDDATA 3 0 1113900700016 ENDSUBENT 15 0 1113900799999 SUBENT 11139008 20210317 14831113900800001 BIB 3 5 1113900800002 REACTION 1(51-SB-0(N,0),,EN) 1113900800003 2(51-SB-0(N,TOT),,WID,,SQ/S0) 1113900800004 ERR-ANALYS (DATA-ERR) No details on sources of uncertainties. 1113900800005 STATUS (DEP,11139031) 1113900800006 (TABLE) pages 168-169. 1113900800007 ENDBIB 5 0 1113900800008 NOCOMMON 0 0 1113900800009 DATA 3 2 1113900800010 DATA 1DATA-ERR 1DATA 2 1113900800011 EV EV B*EV-SQ 1113900800012 6.3 0.5 20. 1113900800013 19.2 1.0 210. 1113900800014 ENDDATA 4 0 1113900800015 ENDSUBENT 14 0 1113900899999 SUBENT 11139009 20210317 14831113900900001 BIB 3 8 1113900900002 REACTION 1(79-AU-197(N,0),,EN) 1113900900003 2(79-AU-197(N,TOT),,WID,,SQ/S0) 1113900900004 3(79-AU-197(N,TOT),,WID) 1113900900005 4(79-AU-197(N,TOT),,SIG,,RES) 1113900900006 ERR-ANALYS (DATA-ERR) No details on sources of uncertainties. 1113900900007 STATUS (DEP,11139029) 1113900900008 (DEP,11139030) 1113900900009 (TABLE) page 163. 1113900900010 ENDBIB 8 0 1113900900011 NOCOMMON 0 0 1113900900012 DATA 6 1 1113900900013 DATA 1DATA-ERR 1DATA 2DATA-ERR 2DATA-MAX 3DATA-MIN 41113900900014 EV EV B*EV-SQ B*EV-SQ EV B 1113900900015 4.8 0.2 600. 80. 0.5 2400.1113900900016 ENDDATA 3 0 1113900900017 ENDSUBENT 16 0 1113900999999 SUBENT 11139010 20210410 14831113901000001 BIB 6 13 1113901000002 REACTION (47-AG-0(N,ABS),,SIG) 1113901000003 SAMPLE A 19.8 g/cm2 disk of metallic silver was used. 1113901000004 Transmission measurements were made using a thin 1113901000005 sample containing 1.043 g/cm2, in the vicinity of 32 1113901000006 microseconds/meter. 1113901000007 ANALYSIS In the thermal region, the Ag 1113901000008 cross-section curves can be resolved into the sum of 1113901000009 a constant term and a 1/v term: sigma = [(9.05+- 1113901000010 0.10)*E**-1/2 + (6.6+-0.5)]*10**-24 cm2/atom. 1113901000011 E is the neutron energy in eV. 1113901000012 ERR-ANALYS (DATA-ERR) Cross section curve calculations. 1113901000013 STATUS (TABLE) page 165. 1113901000014 HISTORY (20210317C) BP 1113901000015 ENDBIB 13 0 1113901000016 NOCOMMON 0 0 1113901000017 DATA 3 1 1113901000018 EN DATA DATA-ERR 1113901000019 EV B B 1113901000020 2.53E-02 63.5E+01 0.62 1113901000021 ENDDATA 3 0 1113901000022 ENDSUBENT 21 0 1113901099999 SUBENT 11139011 20210410 14831113901100001 BIB 6 11 1113901100002 REACTION (51-SB-0(N,ABS),,SIG) 1113901100003 SAMPLE The sample used contained 22.41 g/cm2 of metallic 1113901100004 antimony. 1113901100005 ANALYSIS In the thermal region, the Sb 1113901100006 cross-section curves can be resolved into the sum of 1113901100007 a constant term and a 1/v term: sigma = [(0.64+- 1113901100008 0.02)*E**-1/2 + (4.2+-0.3)]*10**-24 cm2/atom. 1113901100009 E is the neutron energy in eV. 1113901100010 ERR-ANALYS (DATA-ERR) Cross section curve calculations. 1113901100011 STATUS (TABLE) page 167. 1113901100012 HISTORY (20210317C) BP 1113901100013 ENDBIB 11 0 1113901100014 NOCOMMON 0 0 1113901100015 DATA 3 1 1113901100016 EN DATA DATA-ERR 1113901100017 EV B B 1113901100018 2.53E-02 8.22E+00 0.43 1113901100019 ENDDATA 3 0 1113901100020 ENDSUBENT 19 0 1113901199999 SUBENT 11139012 20210410 14831113901200001 BIB 6 13 1113901200002 REACTION (80-HG-0(N,ABS),,SIG) 1113901200003 SAMPLE The mercury was U.S.P. XII redistilled - purchased 1113901200004 from the Mallinkrodt Chemical Works. For the 1113901200005 preliminary investigation of the entire transmission 1113901200006 curve of mercury, a sample containing 3.25 g/cm2 of 1113901200007 the liquid was used. 1113901200008 ANALYSIS The Hg cross section below 5 eV was well matched 1113901200009 by the relation sigma = [((64+-3)*E**-1/2)*((1+E)/ 1113901200010 2.0)**-2]*10**-24 cm2/atom. 1113901200011 E is the neutron energy in eV. 1113901200012 ERR-ANALYS (DATA-ERR) Cross section curve calculations. 1113901200013 STATUS (TABLE) page 171. 1113901200014 HISTORY (20210317C) BP 1113901200015 ENDBIB 13 0 1113901200016 NOCOMMON 0 0 1113901200017 DATA 3 1 1113901200018 EN DATA DATA-ERR 1113901200019 EV B B 1113901200020 2.53E-02 3.81E-01 0.017 1113901200021 ENDDATA 3 0 1113901200022 ENDSUBENT 21 0 1113901299999 SUBENT 11139013 20210417 14831113901300001 BIB 5 12 1113901300002 REACTION (3-LI-0(N,TOT),,TRN) 1113901300003 SAMPLE This salt was tightly packed in an aluminum container 1113901300004 such that there were 4.85 g/cm2 of LiF and 0.418 1113901300005 g/cm2 of aluminum. The lithium fluoride was obtained 1113901300006 from the City Chemical Corporation and was of 1113901300007 analytical reagent grade. The salt was dried at 120 1113901300008 degrees C for 48 hours before being packed in the 1113901300009 container. 1113901300010 METHOD Resolution width was approximately 20 microsec/meter. 1113901300011 STATUS (CURVE) Fig. 14, page 168; values converted by 1113901300012 compiler as described under the compiler's comment. 1113901300013 HISTORY (20210317C) BP. 1113901300014 ENDBIB 12 0 1113901300015 COMMON 1 3 1113901300016 THICKNESS 1113901300017 G/CM-SQ 1113901300018 4.85 1113901300019 ENDCOMMON 3 0 1113901300020 DATA 2 11 1113901300021 EN DATA 1113901300022 EV NO-DIM 1113901300023 31.696 6.214E-01 1113901300024 12.474 5.656E-01 1113901300025 6.767 4.600E-01 1113901300026 3.420 3.948E-01 1113901300027 2.715 3.417E-01 1113901300028 1.950 2.844E-01 1113901300029 1.525 2.442E-01 1113901300030 1.145 2.049E-01 1113901300031 0.784 1.505E-01 1113901300032 0.647 1.267E-01 1113901300033 0.553 1.092E-01 1113901300034 ENDDATA 13 0 1113901300035 ENDSUBENT 34 0 1113901399999 SUBENT 11139014 20210417 14831113901400001 BIB 6 17 1113901400002 REACTION (3-LI-0(N,TOT),,SIG) 1113901400003 SAMPLE This salt was tightly packed in an aluminum container 1113901400004 such that there were 0.862 g/cm2 of LiF and 0.418 1113901400005 g/cm2 of aluminum. The lithium fluoride was obtained 1113901400006 from the City Chemical Corporation and was of 1113901400007 analytical reagent grade. The salt was dried at 120 1113901400008 degrees C for 48 hours before being packed in the 1113901400009 container. 1113901400010 METHOD Resolution width was approximately 50 microsec/meter. 1113901400011 ANALYSIS Outside resonances, the cross section from the 1113901400012 experimental transmission T by using the formula 1113901400013 T=exp(-n sigma), where n is the number of atoms per 1113901400014 cm2 in the sample. 1113901400015 STATUS (DEP,11139015) 1113901400016 (CURVE) Fig. 15, page 168; values converted by 1113901400017 compiler as described under the compiler's comment. 1113901400018 HISTORY (20210317C) BP 1113901400019 ENDBIB 17 0 1113901400020 NOCOMMON 0 0 1113901400021 DATA 2 29 1113901400022 EN DATA 1113901400023 EV B 1113901400024 985.573 1.175 1113901400025 41.709 4.448 1113901400026 6.648 7.336 1113901400027 2.245 10.611 1113901400028 0.718 16.581 1113901400029 0.485 17.547 1113901400030 0.340 19.667 1113901400031 0.264 22.556 1113901400032 0.210 27.368 1113901400033 0.168 29.872 1113901400034 0.133 33.339 1113901400035 0.117 36.612 1113901400036 0.100 38.731 1113901400037 0.088 41.620 1113901400038 0.076 44.893 1113901400039 0.068 47.782 1113901400040 0.058 50.095 1113901400041 0.052 51.830 1113901400042 0.047 56.834 1113901400043 0.042 61.261 1113901400044 0.038 63.382 1113901400045 0.035 63.963 1113901400046 0.032 66.852 1113901400047 0.029 70.318 1113901400048 0.027 73.015 1113901400049 0.023 78.600 1113901400050 0.021 79.952 1113901400051 0.019 85.918 1113901400052 0.018 86.307 1113901400053 ENDDATA 31 0 1113901400054 ENDSUBENT 53 0 1113901499999 SUBENT 11139015 20210417 14831113901500001 BIB 5 13 1113901500002 REACTION (3-LI-0(N,TOT),,TRN) 1113901500003 SAMPLE This salt was tightly packed in an aluminum container 1113901500004 such that there were 0.862 g/cm2 of LiF and 0.418 1113901500005 g/cm2 of aluminum. The lithium fluoride was obtained 1113901500006 from the City Chemical Corporation and was of 1113901500007 analytical reagent grade. The salt was dried at 120 1113901500008 degrees C for 48 hours before being packed in the 1113901500009 container. 1113901500010 METHOD Resolution width was approximately 50 microsec/meter. 1113901500011 STATUS (DEP,11139015) 1113901500012 (CURVE) Fig. 15, page 168; values converted by 1113901500013 compiler as described under the compiler's comment. 1113901500014 HISTORY (20210317C) BP 1113901500015 ENDBIB 13 0 1113901500016 COMMON 1 3 1113901500017 THICKNESS 1113901500018 G/CM-SQ 1113901500019 0.862 1113901500020 ENDCOMMON 3 0 1113901500021 DATA 2 29 1113901500022 EN DATA 1113901500023 EV NO-DIM 1113901500024 985.573 9.079E-01 1113901500025 41.709 8.502E-01 1113901500026 6.648 8.023E-01 1113901500027 2.245 7.513E-01 1113901500028 0.718 6.665E-01 1113901500029 0.485 6.538E-01 1113901500030 0.340 6.266E-01 1113901500031 0.264 5.913E-01 1113901500032 0.210 5.369E-01 1113901500033 0.168 5.106E-01 1113901500034 0.133 4.763E-01 1113901500035 0.117 4.460E-01 1113901500036 0.100 4.274E-01 1113901500037 0.088 4.034E-01 1113901500038 0.076 3.777E-01 1113901500039 0.068 3.565E-01 1113901500040 0.058 3.403E-01 1113901500041 0.052 3.287E-01 1113901500042 0.047 2.973E-01 1113901500043 0.042 2.720E-01 1113901500044 0.038 2.607E-01 1113901500045 0.035 2.577E-01 1113901500046 0.032 2.432E-01 1113901500047 0.029 2.268E-01 1113901500048 0.027 2.149E-01 1113901500049 0.023 1.921E-01 1113901500050 0.021 1.870E-01 1113901500051 0.019 1.659E-01 1113901500052 0.018 1.646E-01 1113901500053 ENDDATA 31 0 1113901500054 ENDSUBENT 53 0 1113901599999 SUBENT 11139016 20210417 14831113901600001 BIB 5 13 1113901600002 REACTION (47-AG-0(N,TOT),,TRN) 1113901600003 SAMPLE A 19.8 g/cm2 disk of metallic silver was used. A 1113901600004 preliminary run on the thin sample in the thermal 1113901600005 region gave sufficient data to indicate the thickness 1113901600006 of the sample which would give best results in this 1113901600007 region. Therefore, the thick sample was cut 1113901600008 approximately in half and a sample containing 7.84 1113901600009 g/cm2 was used for the rest of the measurements an 1113901600010 silver. 1113901600011 METHOD Resolution width was approximately 50 microsec/meter. 1113901600012 STATUS (CURVE) Fig. 10, page 164; values converted by 1113901600013 compiler as described under the compiler's comment. 1113901600014 HISTORY (20210317C) BP 1113901600015 ENDBIB 13 0 1113901600016 COMMON 1 3 1113901600017 THICKNESS 1113901600018 G/CM-SQ 1113901600019 7.84 1113901600020 ENDCOMMON 3 0 1113901600021 DATA 2 49 1113901600022 EN DATA 1113901600023 EV NO-DIM 1113901600024 432.879 7.302E-01 1113901600025 93.878 6.681E-01 1113901600026 88.902 5.863E-01 1113901600027 48.581 5.365E-01 1113901600028 11.067 6.007E-01 1113901600029 10.907 5.431E-01 1113901600030 8.703 2.338E-01 1113901600031 8.084 6.607E-01 1113901600032 6.838 7.222E-02 1113901600033 5.235 1.339E-02 1113901600034 4.342 4.825E-02 1113901600035 2.766 2.763E-01 1113901600036 2.670 3.807E-01 1113901600037 2.284 4.469E-01 1113901600038 2.064 4.715E-01 1113901600039 1.705 4.945E-01 1113901600040 1.367 4.773E-01 1113901600041 1.005 4.746E-01 1113901600042 0.771 4.862E-01 1113901600043 0.723 4.370E-01 1113901600044 0.531 4.244E-01 1113901600045 0.457 4.001E-01 1113901600046 0.436 4.221E-01 1113901600047 0.334 3.493E-01 1113901600048 0.246 3.393E-01 1113901600049 0.204 3.143E-01 1113901600050 0.165 2.776E-01 1113901600051 0.136 2.587E-01 1113901600052 0.119 2.285E-01 1113901600053 0.098 2.194E-01 1113901600054 0.084 2.069E-01 1113901600055 0.074 1.743E-01 1113901600056 0.065 1.614E-01 1113901600057 0.057 1.385E-01 1113901600058 0.051 1.283E-01 1113901600059 0.045 1.133E-01 1113901600060 0.037 9.957E-02 1113901600061 0.033 8.848E-02 1113901600062 0.032 7.723E-02 1113901600063 0.028 6.987E-02 1113901600064 0.026 6.136E-02 1113901600065 0.024 6.177E-02 1113901600066 0.022 4.992E-02 1113901600067 0.020 4.708E-02 1113901600068 0.019 4.655E-02 1113901600069 0.018 3.740E-02 1113901600070 0.017 4.042E-02 1113901600071 0.016 3.881E-02 1113901600072 0.015 2.886E-02 1113901600073 ENDDATA 51 0 1113901600074 ENDSUBENT 73 0 1113901699999 SUBENT 11139017 20210417 14831113901700001 BIB 5 8 1113901700002 REACTION (47-AG-0(N,TOT),,TRN) 1113901700003 SAMPLE Transmission measurements were made using a thin 1113901700004 sample containing 1.043 g/cm2, in the vicinity of 32 1113901700005 microseconds/meter. 1113901700006 METHOD Resolution width was approximately 15 microsec/meter. 1113901700007 STATUS (CURVE) Fig. 9, page 164; values converted by compiler 1113901700008 as described under the compiler's comment. 1113901700009 HISTORY (20210317C) BP 1113901700010 ENDBIB 8 0 1113901700011 COMMON 1 3 1113901700012 THICKNESS 1113901700013 G/CM-SQ 1113901700014 1.043 1113901700015 ENDCOMMON 3 0 1113901700016 DATA 2 8 1113901700017 EN DATA 1113901700018 EV NO-DIM 1113901700019 7.701 0.899 1113901700020 6.778 0.633 1113901700021 5.965 0.566 1113901700022 5.300 0.097 1113901700023 4.736 0.204 1113901700024 4.183 0.462 1113901700025 3.838 0.625 1113901700026 3.453 0.839 1113901700027 ENDDATA 10 0 1113901700028 ENDSUBENT 27 0 1113901799999 SUBENT 11139018 20210417 14831113901800001 BIB 5 13 1113901800002 REACTION (47-AG-0(N,TOT),,TRN) 1113901800003 SAMPLE A 19.8 g/cm2 disk of metallic silver was used. A 1113901800004 preliminary run on the thin sample in the thermal 1113901800005 region gave sufficient data to indicate the thickness 1113901800006 of the sample which would give best results in this 1113901800007 region. Therefore, the thick sample was cut 1113901800008 approximately in half and a sample containing 7.84 1113901800009 g/cm2 was used for the rest of the measurements an 1113901800010 silver. 1113901800011 METHOD Resolution width was approximately 5 microsec/meter. 1113901800012 STATUS (CURVE) Fig. 11, page 165; values converted by 1113901800013 compiler as described under the compiler's comment. 1113901800014 HISTORY (20210317C) BP 1113901800015 ENDBIB 13 0 1113901800016 COMMON 1 3 1113901800017 THICKNESS 1113901800018 G/CM-SQ 1113901800019 7.84 1113901800020 ENDCOMMON 3 0 1113901800021 DATA 2 26 1113901800022 EN DATA 1113901800023 EV NO-DIM 1113901800024 1836.735 0.794 1113901800025 459.184 0.747 1113901800026 188.716 0.730 1113901800027 100.277 0.730 1113901800028 62.069 0.671 1113901800029 43.748 0.540 1113901800030 31.146 0.651 1113901800031 24.607 0.648 1113901800032 19.766 0.680 1113901800033 15.633 0.535 1113901800034 12.672 0.599 1113901800035 10.803 0.707 1113901800036 9.266 0.660 1113901800037 7.868 0.440 1113901800038 6.931 0.229 1113901800039 6.039 0.065 1113901800040 5.355 0.021 1113901800041 4.724 0.011 1113901800042 4.246 0.040 1113901800043 3.823 0.078 1113901800044 3.472 0.193 1113901800045 3.147 0.260 1113901800046 2.911 0.307 1113901800047 2.644 0.358 1113901800048 2.336 0.389 1113901800049 2.097 0.428 1113901800050 ENDDATA 28 0 1113901800051 ENDSUBENT 50 0 1113901899999 SUBENT 11139019 20210417 14831113901900001 BIB 5 10 1113901900002 REACTION (80-HG-0(N,TOT),,TRN) 1113901900003 SAMPLE The mercury was U.S.P. XII redistilled - purchased 1113901900004 from the Mallinkrodt Chemical Works. For the 1113901900005 preliminary investigation of the entire transmission 1113901900006 curve of mercury, a sample containing 3.25 g/cm2 of 1113901900007 the liquid was used. 1113901900008 METHOD Resolution width was approximately 100 microsec/meter. 1113901900009 STATUS (CURVE) Fig. 16, page 169; values converted by 1113901900010 compiler as described under the compiler's comment. 1113901900011 HISTORY (20210317C) BP 1113901900012 ENDBIB 10 0 1113901900013 COMMON 1 3 1113901900014 THICKNESS 1113901900015 G/CM-SQ 1113901900016 3.25 1113901900017 ENDCOMMON 3 0 1113901900018 DATA 2 33 1113901900019 EN DATA 1113901900020 EV NO-DIM 1113901900021 7661.548 0.884 1113901900022 72.078 0.831 1113901900023 67.563 0.863 1113901900024 16.428 0.816 1113901900025 7.841 0.816 1113901900026 3.194 0.816 1113901900027 2.106 0.726 1113901900028 1.256 0.646 1113901900029 0.958 0.586 1113901900030 0.755 0.547 1113901900031 0.592 0.450 1113901900032 0.478 0.469 1113901900033 0.412 0.410 1113901900034 0.351 0.381 1113901900035 0.316 0.317 1113901900036 0.254 0.287 1113901900037 0.241 0.267 1113901900038 0.206 0.256 1113901900039 0.181 0.240 1113901900040 0.170 0.219 1113901900041 0.151 0.192 1113901900042 0.118 0.151 1113901900043 0.097 0.127 1113901900044 0.086 0.109 1113901900045 0.077 0.088 1113901900046 0.065 0.080 1113901900047 0.051 0.059 1113901900048 0.046 0.049 1113901900049 0.040 0.040 1113901900050 0.037 0.035 1113901900051 0.031 0.028 1113901900052 0.028 0.022 1113901900053 0.026 0.019 1113901900054 ENDDATA 35 0 1113901900055 ENDSUBENT 54 0 1113901999999 SUBENT 11139020 20210417 14831113902000001 BIB 6 15 1113902000002 REACTION (80-HG-0(N,TOT),,SIG) 1113902000003 SAMPLE The mercury was U.S.P. XII redistilled - purchased 1113902000004 from the Mallinkrodt Chemical Works. A sample 1113902000005 containing 12.9 g/cm2 of the liquid was used. 1113902000006 METHOD Resolution width was approximately 10 microsec/meter. 1113902000007 ANALYSIS Outside resonances, the cross section from the 1113902000008 experimental transmission T by using the formula 1113902000009 T=exp(-n sigma), where n is the number of atoms per 1113902000010 cm2 in the sample. Silver cross section can be 1113902000011 expressed as sigma = [15 + 64*E**(-1/2)]x10**(-24) 1113902000012 cm2/atom. E is the neutron energy in eV. 1113902000013 STATUS (DEP,11139021) 1113902000014 (CURVE) Fig. 17, page 170; values converted by 1113902000015 compiler as described under the compiler's comment. 1113902000016 HISTORY (20210317C) BP 1113902000017 ENDBIB 15 0 1113902000018 NOCOMMON 0 0 1113902000019 DATA 2 32 1113902000020 EN DATA 1113902000021 EV B 1113902000022 3455.146 8.131 1113902000023 795.755 8.126 1113902000024 183.933 9.945 1113902000025 53.954 16.012 1113902000026 29.591 15.806 1113902000027 17.914 15.396 1113902000028 12.411 13.975 1113902000029 8.358 14.375 1113902000030 6.950 14.979 1113902000031 6.008 15.584 1113902000032 5.361 16.594 1113902000033 4.814 17.199 1113902000034 4.261 18.007 1113902000035 3.798 19.016 1113902000036 3.290 20.025 1113902000037 2.877 21.236 1113902000038 2.353 25.077 1113902000039 2.043 26.085 1113902000040 1.745 28.509 1113902000041 1.525 32.756 1113902000042 1.406 36.599 1113902000043 1.207 37.201 1113902000044 1.089 41.245 1113902000045 0.960 45.289 1113902000046 0.884 51.763 1113902000047 0.810 48.520 1113902000048 0.738 54.183 1113902000049 0.680 60.454 1113902000050 0.616 62.271 1113902000051 0.559 70.565 1113902000052 0.522 70.561 1113902000053 0.494 70.760 1113902000054 ENDDATA 34 0 1113902000055 ENDSUBENT 54 0 1113902099999 SUBENT 11139021 20210417 14831113902100001 BIB 5 8 1113902100002 REACTION (80-HG-0(N,TOT),,TRN) 1113902100003 SAMPLE The mercury was U.S.P. XII redistilled - purchased 1113902100004 from the Mallinkrodt Chemical Works. A sample 1113902100005 containing 12.9 g/cm2 of the liquid was used. 1113902100006 METHOD Resolution width was approximately 10 microsec/meter. 1113902100007 STATUS (CURVE) Fig. 17, page 170; values converted by 1113902100008 compiler as described under the compiler's comment. 1113902100009 HISTORY (20210317C) BP 1113902100010 ENDBIB 8 0 1113902100011 COMMON 1 3 1113902100012 THICKNESS 1113902100013 G/CM-SQ 1113902100014 12.9 1113902100015 ENDCOMMON 3 0 1113902100016 DATA 2 32 1113902100017 EN DATA 1113902100018 EV NO-DIM 1113902100019 3455.146 7.351E-01 1113902100020 795.755 7.352E-01 1113902100021 183.933 6.848E-01 1113902100022 53.954 5.404E-01 1113902100023 29.591 5.448E-01 1113902100024 17.914 5.536E-01 1113902100025 12.411 5.851E-01 1113902100026 8.358 5.760E-01 1113902100027 6.950 5.626E-01 1113902100028 6.008 5.495E-01 1113902100029 5.361 5.282E-01 1113902100030 4.814 5.159E-01 1113902100031 4.261 4.999E-01 1113902100032 3.798 4.806E-01 1113902100033 3.290 4.620E-01 1113902100034 2.877 4.407E-01 1113902100035 2.353 3.793E-01 1113902100036 2.043 3.647E-01 1113902100037 1.745 3.318E-01 1113902100038 1.525 2.811E-01 1113902100039 1.406 2.419E-01 1113902100040 1.207 2.363E-01 1113902100041 1.089 2.018E-01 1113902100042 0.960 1.724E-01 1113902100043 0.884 1.339E-01 1113902100044 0.810 1.519E-01 1113902100045 0.738 1.218E-01 1113902100046 0.680 9.536E-02 1113902100047 0.616 8.883E-02 1113902100048 0.559 6.427E-02 1113902100049 0.522 6.428E-02 1113902100050 0.494 6.378E-02 1113902100051 ENDDATA 34 0 1113902100052 ENDSUBENT 51 0 1113902199999 SUBENT 11139022 20210417 14831113902200001 BIB 6 13 1113902200002 REACTION (80-HG-0(N,TOT),,SIG) 1113902200003 SAMPLE The mercury was U.S.P. XII redistilled - purchased 1113902200004 from the Mallinkrodt Chemical Works. A sample 1113902200005 containing 34.4 g/cm2 of the liquid was used. 1113902200006 METHOD Resolution width was approximately 10 microsec/meter. 1113902200007 ANALYSIS Outside resonances, the cross section from the 1113902200008 experimental transmission T by using the formula 1113902200009 T=exp(-n sigma), where n is the number of atoms per 1113902200010 cm2 in the sample. 1113902200011 STATUS (DEP,11139023) 1113902200012 (CURVE) Fig. 18, page 170; values converted by 1113902200013 compiler as described under the compiler's comment. 1113902200014 HISTORY (20210317C) BP 1113902200015 ENDBIB 13 0 1113902200016 NOCOMMON 0 0 1113902200017 DATA 2 17 1113902200018 EN DATA 1113902200019 EV B 1113902200020 5431.735 6.014 1113902200021 781.059 7.630 1113902200022 131.203 11.614 1113902200023 51.816 14.300 1113902200024 26.834 15.228 1113902200025 16.995 14.475 1113902200026 11.728 14.791 1113902200027 8.346 15.414 1113902200028 6.316 16.189 1113902200029 3.978 18.580 1113902200030 2.734 21.582 1113902200031 2.354 23.732 1113902200032 2.035 26.035 1113902200033 1.765 29.026 1113902200034 1.555 31.023 1113902200035 1.427 34.240 1113902200036 1.214 37.159 1113902200037 ENDDATA 19 0 1113902200038 ENDSUBENT 37 0 1113902299999 SUBENT 11139023 20210417 14831113902300001 BIB 5 8 1113902300002 REACTION (80-HG-0(N,TOT),,TRN) 1113902300003 SAMPLE The mercury was U.S.P. XII redistilled - purchased 1113902300004 from the Mallinkrodt Chemical Works. A sample 1113902300005 containing 34.4 g/cm2 of the liquid was used. 1113902300006 METHOD Resolution width was approximately 10 microsec/meter. 1113902300007 STATUS (CURVE) Fig. 18, page 170; values converted by 1113902300008 compiler as described under the compiler's comment. 1113902300009 HISTORY (20210317C) BP 1113902300010 ENDBIB 8 0 1113902300011 COMMON 1 3 1113902300012 THICKNESS 1113902300013 G/CM-SQ 1113902300014 34.4 1113902300015 ENDCOMMON 3 0 1113902300016 DATA 2 17 1113902300017 EN DATA 1113902300018 EV NO-DIM 1113902300019 5431.735 5.279E-01 1113902300020 781.059 4.480E-01 1113902300021 131.203 2.986E-01 1113902300022 51.816 2.272E-01 1113902300023 26.834 2.068E-01 1113902300024 16.995 2.234E-01 1113902300025 11.728 2.164E-01 1113902300026 8.346 2.032E-01 1113902300027 6.316 1.879E-01 1113902300028 3.978 1.474E-01 1113902300029 2.734 1.086E-01 1113902300030 2.354 8.730E-02 1113902300031 2.035 6.906E-02 1113902300032 1.765 5.093E-02 1113902300033 1.555 4.157E-02 1113902300034 1.427 2.996E-02 1113902300035 1.214 2.226E-02 1113902300036 ENDDATA 19 0 1113902300037 ENDSUBENT 36 0 1113902399999 SUBENT 11139024 20210417 14831113902400001 BIB 6 13 1113902400002 REACTION (80-HG-0(N,TOT),,SIG) 1113902400003 SAMPLE The mercury was U.S.P. XII redistilled - purchased 1113902400004 from the Mallinkrodt Chemical Works. A sample 1113902400005 containing 34.4 g/cm2 of the liquid was used. 1113902400006 METHOD Resolution width was approximately 7.5 microsec/meter. 1113902400007 ANALYSIS Outside resonances, the cross section from the 1113902400008 experimental transmission T by using the formula 1113902400009 T=exp(-n sigma), where n is the number of atoms per 1113902400010 cm2 in the sample. 1113902400011 STATUS (DEP,11139025) 1113902400012 (CURVE) Fig. 19, page 171; values converted by 1113902400013 compiler as described under the compiler's comment. 1113902400014 HISTORY (20210317C) BP 1113902400015 ENDBIB 13 0 1113902400016 NOCOMMON 0 0 1113902400017 DATA 2 9 1113902400018 EN DATA 1113902400019 EV B 1113902400020 4001.144 6.070E+00 1113902400021 765.593 7.844E+00 1113902400022 133.349 1.183E+01 1113902400023 49.890 1.452E+01 1113902400024 27.333 1.555E+01 1113902400025 17.114 1.468E+01 1113902400026 11.475 1.485E+01 1113902400027 8.480 1.555E+01 1113902400028 6.325 1.633E+01 1113902400029 ENDDATA 11 0 1113902400030 ENDSUBENT 29 0 1113902499999 SUBENT 11139025 20210417 14831113902500001 BIB 5 8 1113902500002 REACTION (80-HG-0(N,TOT),,TRN) 1113902500003 SAMPLE The mercury was U.S.P. XII redistilled - purchased 1113902500004 from the Mallinkrodt Chemical Works. A sample 1113902500005 containing 34.4 g/cm2 of the liquid was used. 1113902500006 METHOD Resolution width was approximately 7.5 microsec/meter. 1113902500007 STATUS (CURVE) Fig. 19, page 171; values converted by 1113902500008 compiler as described under the compiler's comment. 1113902500009 HISTORY (20210317C) BP 1113902500010 ENDBIB 8 0 1113902500011 COMMON 1 3 1113902500012 THICKNESS 1113902500013 G/CM-SQ 1113902500014 34.4 1113902500015 ENDCOMMON 3 0 1113902500016 DATA 2 9 1113902500017 EN DATA 1113902500018 EV NO-DIM 1113902500019 4001.144 5.282E-01 1113902500020 765.593 4.401E-01 1113902500021 133.349 2.922E-01 1113902500022 49.890 2.215E-01 1113902500023 27.333 1.994E-01 1113902500024 17.114 2.181E-01 1113902500025 11.475 2.142E-01 1113902500026 8.480 1.992E-01 1113902500027 6.325 1.839E-01 1113902500028 ENDDATA 11 0 1113902500029 ENDSUBENT 28 0 1113902599999 SUBENT 11139026 20210417 14831113902600001 BIB 5 9 1113902600002 REACTION (49-IN-0(N,TOT),,TRN) 1113902600003 SAMPLE The thin sample contained 0.193 g/cm2 of metallic 1113902600004 indium of the metal. These samples were obtained from 1113902600005 the Indium Company of America and were the purest 1113902600006 indium that could be furnished by this company. 1113902600007 METHOD Resolution width was approximately 52 microsec/meter. 1113902600008 STATUS (CURVE) Fig. 4, page 160; values converted by compiler 1113902600009 as described under the compiler's comment. 1113902600010 HISTORY (20210317C) BP 1113902600011 ENDBIB 9 0 1113902600012 COMMON 1 3 1113902600013 THICKNESS 1113902600014 G/CM-SQ 1113902600015 0.193 1113902600016 ENDCOMMON 3 0 1113902600017 DATA 2 15 1113902600018 EN DATA 1113902600019 EV NO-DIM 1113902600020 2.084 0.845 1113902600021 1.930 0.764 1113902600022 1.807 0.621 1113902600023 1.695 0.456 1113902600024 1.574 0.194 1113902600025 1.490 0.077 1113902600026 1.408 0.045 1113902600027 1.318 0.117 1113902600028 1.236 0.254 1113902600029 1.179 0.445 1113902600030 1.112 0.571 1113902600031 1.046 0.705 1113902600032 0.998 0.691 1113902600033 0.926 0.756 1113902600034 0.866 0.795 1113902600035 ENDDATA 17 0 1113902600036 ENDSUBENT 35 0 1113902699999 SUBENT 11139027 20210417 14831113902700001 BIB 6 14 1113902700002 REACTION (49-IN-0(N,TOT),,SIG) 1113902700003 SAMPLE The thick sample contained 5.02 g/cm2 of the metal. 1113902700004 These samples were obtained from the Indium Company 1113902700005 of America and were the purest indium that could be 1113902700006 furnished by this company. 1113902700007 METHOD Resolution width was less than 50 microsec/meter. 1113902700008 ANALYSIS Outside resonances, the cross section from the 1113902700009 experimental transmission T by using the formula 1113902700010 T=exp(-n sigma), where n is the number of atoms per 1113902700011 cm2 in the sample. 1113902700012 STATUS (DEP,11139028) 1113902700013 (CURVE) Fig. 6, page 160; values converted by compiler 1113902700014 as described under the compiler's comment. 1113902700015 HISTORY (20210317C) BP 1113902700016 ENDBIB 14 0 1113902700017 NOCOMMON 0 0 1113902700018 DATA 2 14 1113902700019 EN DATA 1113902700020 EV B 1113902700021 0.681 117.088 1113902700022 0.464 93.423 1113902700023 0.335 91.848 1113902700024 0.265 87.374 1113902700025 0.206 92.715 1113902700026 0.168 90.471 1113902700027 0.141 95.146 1113902700028 0.118 107.181 1113902700029 0.099 108.729 1113902700030 0.086 117.642 1113902700031 0.076 120.085 1113902700032 0.065 128.325 1113902700033 0.057 136.790 1113902700034 0.051 136.776 1113902700035 ENDDATA 16 0 1113902700036 ENDSUBENT 35 0 1113902799999 SUBENT 11139028 20210417 14831113902800001 BIB 5 9 1113902800002 REACTION (49-IN-0(N,TOT),,TRN) 1113902800003 SAMPLE The thick sample contained 5.02 g/cm2 of the metal. 1113902800004 These samples were obtained from the Indium Company 1113902800005 of America and were the purest indium that could be 1113902800006 furnished by this company. 1113902800007 METHOD Resolution width was less than 50 microsec/meter. 1113902800008 STATUS (CURVE) Fig. 6, page 160; values converted by 1113902800009 compiler as described under the compiler's comment. 1113902800010 HISTORY (20210317C) BP 1113902800011 ENDBIB 9 0 1113902800012 COMMON 1 3 1113902800013 THICKNESS 1113902800014 G/CM-SQ 1113902800015 5.02 1113902800016 ENDCOMMON 3 0 1113902800017 DATA 2 14 1113902800018 EN DATA 1113902800019 EV NO-DIM 1113902800020 0.681 4.616E-02 1113902800021 0.464 8.543E-02 1113902800022 0.335 8.905E-02 1113902800023 0.265 1.001E-01 1113902800024 0.206 8.715E-02 1113902800025 0.168 9.243E-02 1113902800026 0.141 8.189E-02 1113902800027 0.118 5.992E-02 1113902800028 0.099 5.759E-02 1113902800029 0.086 4.570E-02 1113902800030 0.076 4.291E-02 1113902800031 0.065 3.465E-02 1113902800032 0.057 2.782E-02 1113902800033 0.051 2.785E-02 1113902800034 ENDDATA 16 0 1113902800035 ENDSUBENT 34 0 1113902899999 SUBENT 11139029 20210417 14831113902900001 BIB 5 9 1113902900002 REACTION (79-AU-197(N,TOT),,TRN) 1113902900003 SAMPLE The first sample contained 0.2100 g/cm2. Both of 1113902900004 these samples were fine gold obtained from Handy and 1113902900005 Harman of New York City, who state that the purity is 1113902900006 better than 99.999 percent. 1113902900007 METHOD Resolution width was approximately 6 microsec/meter. 1113902900008 STATUS (CURVE) Fig. 7, page 160; values converted by 1113902900009 compiler as described under the compiler's comment. 1113902900010 HISTORY (20210317C) BP 1113902900011 ENDBIB 9 0 1113902900012 COMMON 1 3 1113902900013 THICKNESS 1113902900014 G/CM-SQ 1113902900015 0.2100 1113902900016 ENDCOMMON 3 0 1113902900017 DATA 2 9 1113902900018 EN DATA 1113902900019 EV NO-DIM 1113902900020 7.834 0.969 1113902900021 6.856 0.972 1113902900022 6.037 0.755 1113902900023 5.355 0.526 1113902900024 4.780 0.270 1113902900025 4.215 0.650 1113902900026 3.911 0.884 1113902900027 3.232 0.935 1113902900028 2.664 0.947 1113902900029 ENDDATA 11 0 1113902900030 ENDSUBENT 29 0 1113902999999 SUBENT 11139030 20210417 14831113903000001 BIB 5 9 1113903000002 REACTION (79-AU-197(N,TOT),,TRN) 1113903000003 SAMPLE The second sample contained 0.856 g/cm2. Both of 1113903000004 these samples were fine gold obtained from Handy and 1113903000005 Harman of New York City, who state that the purity is 1113903000006 better than 99.999 percent. 1113903000007 METHOD Resolution width was approximately 6 microsec/meter. 1113903000008 STATUS (CURVE) Fig. 7, page 160; values converted by 1113903000009 compiler as described under the compiler's comment. 1113903000010 HISTORY (20210317C) BP 1113903000011 ENDBIB 9 0 1113903000012 COMMON 1 3 1113903000013 THICKNESS 1113903000014 G/CM-SQ 1113903000015 0.856 1113903000016 ENDCOMMON 3 0 1113903000017 DATA 2 8 1113903000018 EN DATA 1113903000019 EV NO-DIM 1113903000020 7.915 0.929 1113903000021 6.127 0.658 1113903000022 5.344 0.200 1113903000023 3.847 0.504 1113903000024 3.510 0.729 1113903000025 2.922 0.886 1113903000026 2.476 0.864 1113903000027 2.197 0.917 1113903000028 ENDDATA 10 0 1113903000029 ENDSUBENT 28 0 1113903099999 SUBENT 11139031 20210417 14831113903100001 BIB 6 14 1113903100002 REACTION (51-SB-0(N,TOT),,SIG) 1113903100003 SAMPLE The sample used contained 22.41 g/cm2 of metallic 1113903100004 antimony. 1113903100005 METHOD Resolution width was approximately 50 microsec/meter. 1113903100006 ANALYSIS Outside resonances, the cross section from the 1113903100007 experimental transmission T by using the formula 1113903100008 T=exp(-n sigma), where n is the number of atoms per 1113903100009 cm2 in the sample. Cross section can be expressed as 1113903100010 sigma = [(4.2+-0.4) + (0.64+-02)*E**(-1/2)]x10**(-24) 1113903100011 cm2/atom. E is the neutron energy in eV. 1113903100012 STATUS (DEP,11139032) 1113903100013 (CURVE) Fig. 12, page 166; values converted by 1113903100014 compiler as described under the compiler's comment. 1113903100015 HISTORY (20210317C) BP 1113903100016 ENDBIB 14 0 1113903100017 NOCOMMON 0 0 1113903100018 DATA 2 40 1113903100019 EN DATA 1113903100020 EV B 1113903100021 56.814 3.991 1113903100022 31.291 5.219 1113903100023 18.394 12.349 1113903100024 8.053 6.210 1113903100025 6.733 5.265 1113903100026 6.111 15.087 1113903100027 2.862 5.973 1113903100028 2.706 5.264 1113903100029 2.440 4.933 1113903100030 1.695 4.390 1113903100031 0.873 4.436 1113903100032 0.614 4.577 1113903100033 0.486 4.930 1113903100034 0.314 5.165 1113903100035 0.230 5.305 1113903100036 0.188 5.824 1113903100037 0.160 5.610 1113903100038 0.130 5.657 1113903100039 0.108 6.104 1113903100040 0.091 6.292 1113903100041 0.080 6.433 1113903100042 0.072 6.621 1113903100043 0.062 6.596 1113903100044 0.055 6.760 1113903100045 0.049 6.853 1113903100046 0.043 7.206 1113903100047 0.040 7.135 1113903100048 0.036 7.417 1113903100049 0.033 7.251 1113903100050 0.030 7.911 1113903100051 0.027 7.886 1113903100052 0.026 8.334 1113903100053 0.023 8.380 1113903100054 0.022 8.497 1113903100055 0.020 8.685 1113903100056 0.019 8.991 1113903100057 0.017 8.635 1113903100058 0.016 9.272 1113903100059 0.015 9.271 1113903100060 0.014 9.600 1113903100061 ENDDATA 42 0 1113903100062 ENDSUBENT 61 0 1113903199999 SUBENT 11139032 20210417 14831113903200001 BIB 5 7 1113903200002 REACTION (51-SB-0(N,TOT),,TRN) 1113903200003 SAMPLE The sample used contained 22.41 g/cm2 of metallic 1113903200004 antimony. 1113903200005 METHOD Resolution width was approximately 50 microsec/meter. 1113903200006 STATUS (CURVE) Fig. 12, page 166; values converted by 1113903200007 compiler as described under the compiler's comment. 1113903200008 HISTORY (20210317C) BP 1113903200009 ENDBIB 7 0 1113903200010 COMMON 1 3 1113903200011 THICKNESS 1113903200012 G/CM-SQ 1113903200013 22.41 1113903200014 ENDCOMMON 3 0 1113903200015 DATA 2 40 1113903200016 EN DATA 1113903200017 EV NO-DIM 1113903200018 56.814 6.343E-01 1113903200019 31.291 5.532E-01 1113903200020 18.394 2.499E-01 1113903200021 8.053 4.954E-01 1113903200022 6.733 5.504E-01 1113903200023 6.111 1.842E-01 1113903200024 2.862 5.087E-01 1113903200025 2.706 5.505E-01 1113903200026 2.440 5.712E-01 1113903200027 1.695 6.069E-01 1113903200028 0.873 6.038E-01 1113903200029 0.614 5.944E-01 1113903200030 0.486 5.715E-01 1113903200031 0.314 5.568E-01 1113903200032 0.230 5.482E-01 1113903200033 0.188 5.175E-01 1113903200034 0.160 5.299E-01 1113903200035 0.130 5.273E-01 1113903200036 0.108 5.017E-01 1113903200037 0.091 4.913E-01 1113903200038 0.080 4.837E-01 1113903200039 0.072 4.737E-01 1113903200040 0.062 4.750E-01 1113903200041 0.055 4.664E-01 1113903200042 0.049 4.617E-01 1113903200043 0.043 4.439E-01 1113903200044 0.040 4.475E-01 1113903200045 0.036 4.337E-01 1113903200046 0.033 4.418E-01 1113903200047 0.030 4.105E-01 1113903200048 0.027 4.117E-01 1113903200049 0.026 3.916E-01 1113903200050 0.023 3.897E-01 1113903200051 0.022 3.846E-01 1113903200052 0.020 3.767E-01 1113903200053 0.019 3.641E-01 1113903200054 0.017 3.789E-01 1113903200055 0.016 3.529E-01 1113903200056 0.015 3.530E-01 1113903200057 0.014 3.403E-01 1113903200058 ENDDATA 42 0 1113903200059 ENDSUBENT 58 0 1113903299999 SUBENT 11139033 20210417 14831113903300001 BIB 5 7 1113903300002 REACTION (51-SB-0(N,TOT),,TRN) 1113903300003 SAMPLE The sample used contained 22.41 g/cm2 of metallic 1113903300004 antimony. 1113903300005 METHOD Resolution width was approximately 6 microsec/meter. 1113903300006 STATUS (CURVE) Fig. 13, page 167; values converted by 1113903300007 compiler as described under the compiler's comment. 1113903300008 HISTORY (20210317C) BP 1113903300009 ENDBIB 7 0 1113903300010 COMMON 1 3 1113903300011 THICKNESS 1113903300012 G/CM-SQ 1113903300013 22.41 1113903300014 ENDCOMMON 3 0 1113903300015 DATA 2 28 1113903300016 EN DATA 1113903300017 EV NO-DIM 1113903300018 7201.076 0.632 1113903300019 641.305 0.567 1113903300020 252.496 0.548 1113903300021 123.799 0.534 1113903300022 74.348 0.538 1113903300023 50.135 0.550 1113903300024 36.138 0.499 1113903300025 26.815 0.400 1113903300026 21.030 0.275 1113903300027 18.732 0.246 1113903300028 16.759 0.329 1113903300029 13.923 0.437 1113903300030 11.547 0.524 1113903300031 9.742 0.528 1113903300032 8.293 0.480 1113903300033 7.227 0.250 1113903300034 6.261 0.171 1113903300035 5.555 0.293 1113903300036 4.983 0.402 1113903300037 4.396 0.519 1113903300038 3.979 0.508 1113903300039 3.678 0.558 1113903300040 3.315 0.538 1113903300041 3.003 0.544 1113903300042 2.757 0.555 1113903300043 2.525 0.598 1113903300044 2.340 0.590 1113903300045 2.170 0.566 1113903300046 ENDDATA 30 0 1113903300047 ENDSUBENT 46 0 1113903399999 ENDENTRY 33 0 1113999999999