ENTRY 30114 20080208 31263011400000001 SUBENT 30114001 20080208 31263011400100001 BIB 14 28 3011400100002 INSTITUTE (3SAFPEL)experiment performed at 3011400100003 (3SAFSUN)experiment performed at 3011400100004 (3SAFSCT)for l.M.Spitz and F.D.Barnard 3011400100005 REFERENCE (J,NP/A,121,655,196812) Full description, graphs 3011400100006 (W,BROOKS,196909) Minor corrections. 3011400100007 AUTHOR (L.M.Spitz, E.Barnard, F.D.Brooks) 3011400100008 TITLE Neutron capture cross sections of Cr,Mn,Ni,Nb,Ag,In,Sb 3011400100009 and Au in the 8 to 120 keV region 3011400100010 FACILITY (VDG,3SAFPEL) Pulsed Van de Graaff 3MeV at Pelindaba 3011400100011 (VDG,3SAFSUN) 5.5MeV at SUNI. 3011400100012 METHOD (TOF) Time-of-flight used to eliminate background 3011400100013 gammas and in some cases to measure neutron energy. 3011400100014 INC-SOURCE (P-LI7) Neutron energy was calculated from the proton 3011400100015 energy, assuming a value of -1.6433 MeV for the 3011400100016 Li-7(p,n)Be-7 reaction Q-value, or determined from 3011400100017 the time-of-flight measurement. 3011400100018 SAMPLE Metal disks of either 2.5 cm or 5.1 cm diam. 3011400100019 DETECTOR (MOXR) Moxon RAE detectors with plastic scintillator 3011400100020 CORRECTION Corrections have been made for multiple scattering and 3011400100021 self-screening. 3011400100022 COMMENT The two data sets in subents 019 and 020 for the 3011400100023 In-0(n,g) reaction correspond to different geometries. 3011400100024 ERR-ANALYS (DATA-ERR) No details given 3011400100025 STATUS (TABLE) Data correspond to Fig 5 -7 of Nucl. Phys., 3011400100026 vol. A121, p. 655(1968). 3011400100027 HISTORY (19970604A)Keywords added in subent 001,subents 019 and3011400100028 020 added ( previous subents 78013007, -008). 3011400100029 (20080208A) BIB section updated 3011400100030 ENDBIB 28 0 3011400100031 NOCOMMON 0 0 3011400100032 ENDSUBENT 31 0 3011400199999 SUBENT 30114002 20080208 31263011400200001 BIB 8 26 3011400200002 REACTION (28-NI-0(N,G),,SIG) 3011400200003 INC-SOURCE (P-LI7) Lithium target thickness 25 keV. Neutron energy3011400200004 selected with time-of-flight.Proton energy 1.891 MeV 3011400200005 SAMPLE Metal,6.7, 13.4 and 26.8 atoms/mb. Data averaged over 3011400200006 the three runs in geometry III. 3011400200007 MONITOR (49-IN-0(N,G),,SIG) 3011400200008 Basically normalized to value of Gibbons et 3011400200009 al,Phys.Rev.122,182(1961) at 30 keV,which was based on 3011400200010 averaged weighted standard (Ag,Sb,In,Au,I) from the 3011400200011 absolute meas. by Schmitt and Cook,Nucl.Phys.20,202 3011400200012 (1960) at 24 keV. Indium capture assumed to follow 3011400200013 the function 1820 - 39.1*E for E between 7 and 18 keV3011400200014 and 44000/(sqrt(E)*(1+4*E**0.25)) for E between 18 and3011400200015 120 keV (units mb and keV). Monitoring by proton charge3011400200016 deposited on target and by long counter 3011400200017 CORRECTION Corrected for detector efficiency (ratio In/Ni eff. 3011400200018 assumed 0.820). No correction for self-shielding or 3011400200019 multiscattering. 3011400200020 COMMENT Energy resolutions at 8 and 50 keV are 7 and 23% 3011400200021 (FWHM)respectively. 3011400200022 STATUS (TABLE) data from Brooks as a private commun. Sept 19693011400200023 HISTORY (19700114C) 3011400200024 (19710301T) Previously Dastar-1038.Corrected 3011400200025 (19790312U) ND minor changes in bib and data 3011400200026 (19800116U) ND minor changes in bib.Data after NNDC mem3011400200027 79/12/17. 3011400200028 ENDBIB 26 0 3011400200029 COMMON 3 3 3011400200030 EN-NRM MONIT MONIT-ERR 3011400200031 KEV MB MB 3011400200032 3.0000E+01 7.6000E+02 5.0000E+01 3011400200033 ENDCOMMON 3 0 3011400200034 DATA 4 30 3011400200035 EN EN-RSL DATA DATA-ERR 3011400200036 KEV PER-CENT MB MB 3011400200037 8.1200E+00 7.0000E+00 8.4000E+01 2.3000E+01 3011400200038 8.5000E+00 8.3000E+01 1.5000E+01 3011400200039 8.8000E+00 9.5000E+01 1.9000E+01 3011400200040 9.2000E+00 1.0200E+02 2.0000E+01 3011400200041 9.7000E+00 7.5000E+01 1.9000E+01 3011400200042 1.0100E+01 1.2000E+02 3.3000E+01 3011400200043 1.0500E+01 1.4300E+02 1.8000E+01 3011400200044 1.1100E+01 1.4600E+02 2.0000E+01 3011400200045 1.1600E+01 2.3500E+02 2.7000E+01 3011400200046 1.2200E+01 2.4800E+02 2.8000E+01 3011400200047 1.2900E+01 3.2300E+02 3.9000E+01 3011400200048 1.3600E+01 2.8600E+02 4.0000E+01 3011400200049 1.4300E+01 2.4800E+02 3.3000E+01 3011400200050 1.5200E+01 1.8600E+02 2.4000E+01 3011400200051 1.6100E+01 1.0700E+02 1.7000E+01 3011400200052 1.7000E+01 7.6000E+01 9.0000E+00 3011400200053 1.8100E+01 6.0000E+01 7.0000E+00 3011400200054 1.9300E+01 5.2000E+01 6.0000E+00 3011400200055 2.0500E+01 5.3000E+01 8.0000E+00 3011400200056 2.1900E+01 4.0000E+01 5.0000E+00 3011400200057 2.3600E+01 4.5000E+01 6.0000E+00 3011400200058 2.5300E+01 4.1000E+01 6.0000E+00 3011400200059 2.7200E+01 4.6000E+01 7.0000E+00 3011400200060 2.9400E+01 5.0000E+01 7.0000E+00 3011400200061 3.1900E+01 4.4000E+01 5.0000E+00 3011400200062 3.4600E+01 4.8000E+01 5.0000E+00 3011400200063 3.7700E+01 3.2000E+01 4.0000E+00 3011400200064 4.1300E+01 2.8000E+01 4.0000E+00 3011400200065 4.5500E+01 2.6000E+01 3.0000E+00 3011400200066 5.0200E+01 2.3000E+01 2.7000E+01 3.0000E+00 3011400200067 ENDDATA 32 0 3011400200068 ENDSUBENT 67 0 3011400299999 SUBENT 30114003 20080208 31263011400300001 BIB 8 25 3011400300002 REACTION (28-NI-0(N,G),,SIG) 3011400300003 INC-SOURCE (P-LI7) Lithium target thickness 2 keV. Neutron energy 3011400300004 determined from proton energy. 3011400300005 SAMPLE Metal,6.7, 13.4 and 26.8 atoms/mb in geometry I. 3011400300006 MONITOR (49-IN-0(N,G),,SIG) 3011400300007 Basically normalized to value of Gibbons et 3011400300008 al,Phys.Rev.122,182(1961) at 30 keV,which was based on 3011400300009 averaged weighted standard (Ag,Sb,In,Au,I) from the 3011400300010 absolute meas. by Schmitt and Cook,Nucl.Phys.20,202 3011400300011 (1960) at 24 keV. Indium capture assumed to follow 3011400300012 the function 1820 - 39.1*E for E between 7 and 18 keV3011400300013 and 44000/(sqrt(E)*(1+4*E**0.25)) for e between 18 and3011400300014 120 keV (units mb and keV). Monitoring by proton charge3011400300015 deposited on target and by long counter 3011400300016 CORRECTION Corrected for detector efficiency (ratio In/Ni eff. 3011400300017 assumed 0.820). No correction for self-shielding or 3011400300018 multiscattering. 3011400300019 COMMENT Energy resolution at 30 and 100 keV are 10 and 6 keV 3011400300020 respectively. 3011400300021 STATUS (TABLE) data from Brooks as a private commun.Sept 1969 3011400300022 HISTORY (19700114C) 3011400300023 (19790312U) ND minor changes in bib and data 3011400300024 (19710301T) previously Dastar-1038.Corrected 3011400300025 (19800116U) ND minor changes in bib.Data after NNDC mem3011400300026 79/12/17. 3011400300027 ENDBIB 25 0 3011400300028 COMMON 3 3 3011400300029 EN-NRM MONIT MONIT-ERR 3011400300030 KEV MB MB 3011400300031 3.0000E+01 7.6000E+02 5.0000E+01 3011400300032 ENDCOMMON 3 0 3011400300033 DATA 4 7 3011400300034 EN EN-RSL DATA DATA-ERR 3011400300035 KEV KEV MB MB 3011400300036 9.9000E+00 1.0050E+02 1.1000E+01 3011400300037 1.1000E+01 1.0000E+01 1.7600E+02 1.9000E+01 3011400300038 5.7000E+01 2.5700E+01 2.8000E+00 3011400300039 6.1000E+01 2.1900E+01 2.4000E+00 3011400300040 8.0000E+01 1.7200E+01 3.2000E+00 3011400300041 9.4000E+01 1.8600E+01 2.1000E+00 3011400300042 1.1250E+02 6.0000E+00 1.6200E+01 2.1000E+00 3011400300043 ENDDATA 9 0 3011400300044 ENDSUBENT 43 0 3011400399999 SUBENT 30114004 20080208 31263011400400001 BIB 8 25 3011400400002 REACTION (24-CR-0(N,G),,SIG) 3011400400003 INC-SOURCE (P-LI7) Lithium target thickness 2 keV. Neutron energy 3011400400004 determined from proton energy 3011400400005 SAMPLE Metal,26.0 Atoms/mb in geometry I. 3011400400006 MONITOR (49-IN-0(N,G),,SIG) 3011400400007 Basically normalized to value of Gibbons et 3011400400008 al,Phys.Rev.122,182(1961) at 30 keV,which was based on 3011400400009 averaged weighted standard (Ag,Sb,In,Au,I) from the 3011400400010 absolute meas. by Schmitt and Cook,Nucl.Phys.20,202 3011400400011 (1960) at 24 keV. Indium capture assumed to follow 3011400400012 the function 1820 - 39.1*E for E between 7 and 18 keV3011400400013 and 44000/(sqrt(E)*(1+4*E**0.25)) for E between 18 and3011400400014 120 keV (units mb and keV). Monitoring by proton charge3011400400015 deposited on target and by long counter 3011400400016 CORRECTION Corrected for detector efficiency (ratio In/Cr eff. 3011400400017 assumed 0.831). No correction for self-shielding or 3011400400018 multiscattering 3011400400019 COMMENT Energy resolution at 30 and 100 keV are 10 and 6 keV 3011400400020 respectively. 3011400400021 STATUS (TABLE) Data from Brooks as a private commun. Sept 19693011400400022 HISTORY (19700114C) 3011400400023 (19790312U) ND minor changes in bib and data 3011400400024 (19710301T) previously Dastar-1039.Corrected 3011400400025 (19800116U) ND minor changes in bib.Data after NNDC mem3011400400026 79/12/17. 3011400400027 ENDBIB 25 0 3011400400028 COMMON 3 3 3011400400029 EN-NRM MONIT MONIT-ERR 3011400400030 KEV MB MB 3011400400031 3.0000E+01 7.6000E+02 5.0000E+01 3011400400032 ENDCOMMON 3 0 3011400400033 DATA 4 4 3011400400034 EN EN-RSL DATA DATA-ERR 3011400400035 KEV KEV MB MB 3011400400036 1.1000E+01 1.0000E+01 3.9600E+01 8.9000E+00 3011400400037 5.7000E+01 2.3400E+01 2.9000E+00 3011400400038 8.0000E+01 5.4000E+00 1.0000E+00 3011400400039 9.4000E+01 6.0000E+00 6.6000E+00 1.1000E+00 3011400400040 ENDDATA 6 0 3011400400041 ENDSUBENT 40 0 3011400499999 SUBENT 30114005 20080208 31263011400500001 BIB 8 25 3011400500002 REACTION (24-CR-0(N,G),,SIG) 3011400500003 INC-SOURCE (P-LI7) Lithium target thickness 25 keV. Neutron energy3011400500004 selected with time-of-flight. Proton energy 1.891 MeV 3011400500005 SAMPLE Metal 3011400500006 MONITOR (49-IN-0(N,G),,SIG) 3011400500007 Basically normalized to value of Gibbons et 3011400500008 al,Phys.Rev.122,182(1961) at 30 keV,which was based on 3011400500009 averaged weighted standard (Ag,Sb,In,Au,I) from the 3011400500010 absolute meas. by Schmitt and Cook,Nucl.Phys.20,202 3011400500011 (1960) at 24 keV. Indium capture assumed to follow 3011400500012 the function 1820 - 39.1*E for E between 7 and 18 keV3011400500013 and 44000/(sqrt(E)*(1+4*E**0.25)) for E between 18 and3011400500014 120 keV (units mb and keV). Monitoring by proton charge3011400500015 deposited on target and by long counter 3011400500016 CORRECTION Corrected for detector efficiency (ratio In/Cr eff. 3011400500017 assumed 0.831). No correction for self-shielding or 3011400500018 multiscattering 3011400500019 COMMENT Energy resolution at 8 and 50 keV are 7 and 23% 3011400500020 (FWHM)respectively. 3011400500021 STATUS (TABLE) Data from Brooks as a private commun. Sept 19693011400500022 HISTORY (19700114C) 3011400500023 (19790312U) ND minor changes in bib and data 3011400500024 (19710301T) previously Dastar-1039.Corrected 3011400500025 (19800116U) ND minor changes in bib.Data after NNDC mem3011400500026 79/12/17. 3011400500027 ENDBIB 25 0 3011400500028 COMMON 3 3 3011400500029 EN-NRM MONIT MONIT-ERR 3011400500030 KEV MB MB 3011400500031 3.0000E+01 7.6000E+02 5.0000E+01 3011400500032 ENDCOMMON 3 0 3011400500033 DATA 4 30 3011400500034 EN EN-RSL DATA DATA-ERR 3011400500035 KEV PER-CENT MB MB 3011400500036 8.1200E+00 7.0000E+00 1.0500E+02 2.6000E+01 3011400500037 8.5000E+00 9.4000E+01 2.3000E+01 3011400500038 8.8000E+00 5.4000E+01 1.9000E+01 3011400500039 9.2000E+00 7.1000E+01 1.7000E+01 3011400500040 9.7000E+00 5.2000E+01 1.5000E+01 3011400500041 1.0100E+01 5.1000E+01 1.5000E+01 3011400500042 1.0600E+01 3.4000E+01 1.3000E+01 3011400500043 1.1100E+01 5.0000E+01 1.1000E+01 3011400500044 1.1600E+01 4.7000E+01 1.1000E+01 3011400500045 1.2200E+01 2.3000E+01 8.0000E+00 3011400500046 1.2900E+01 3.8000E+01 9.0000E+00 3011400500047 1.3600E+01 2.6000E+01 7.0000E+00 3011400500048 1.4300E+01 2.2000E+01 7.0000E+00 3011400500049 1.5200E+01 2.5000E+01 6.0000E+00 3011400500050 1.6100E+01 8.5000E+00 4.0000E+00 3011400500051 1.7000E+01 1.6000E+01 4.0000E+00 3011400500052 1.8100E+01 2.0000E+01 4.0000E+00 3011400500053 1.9300E+01 2.3000E+01 4.0000E+00 3011400500054 2.0500E+01 3.1000E+01 4.0000E+00 3011400500055 2.1900E+01 2.9000E+01 4.0000E+00 3011400500056 2.3600E+01 4.1000E+01 5.0000E+00 3011400500057 2.5300E+01 4.4000E+01 5.0000E+00 3011400500058 2.7200E+01 5.1000E+01 6.0000E+00 3011400500059 2.9400E+01 5.4000E+01 6.0000E+00 3011400500060 3.1900E+01 4.3000E+01 5.0000E+00 3011400500061 3.4600E+01 5.2000E+01 6.0000E+00 3011400500062 3.7700E+01 3.9000E+01 4.0000E+00 3011400500063 4.1300E+01 3.8000E+01 4.0000E+00 3011400500064 4.5500E+01 3.3000E+01 4.0000E+00 3011400500065 5.0200E+01 2.3000E+01 2.6000E+01 3.0000E+00 3011400500066 ENDDATA 32 0 3011400500067 ENDSUBENT 66 0 3011400599999 SUBENT 30114006 20080208 31263011400600001 BIB 8 25 3011400600002 REACTION (25-MN-55(N,G)25-MN-56,,SIG) 3011400600003 INC-SOURCE (P-LI7) Lithium target thickness 25 keV. Neutron energy3011400600004 selected with time-of-flight. Proton energy 1.891 MeV 3011400600005 SAMPLE Metal, 12.7 atoms/mb in geometry III 3011400600006 MONITOR (49-IN-0(N,G),,SIG) 3011400600007 Basically normalized to value of Gibbons et 3011400600008 al,Phys.Rev.122,182(1961) at 30 keV,which was based on 3011400600009 averaged weighted standard (Ag,Sb,In,Au,I) from the 3011400600010 absolute meas. by Schmitt and Cook,Nucl.Phys.20,202 3011400600011 (1960) at 24 keV. Indium capture assumed to follow 3011400600012 the function 1820 - 39.1*E for E between 7 and 18 keV3011400600013 and 44000/(sqrt(E)*(1+4*E**0.25)) for E between 18 and3011400600014 120 keV (units mb and keV). Monitoring by proton charge3011400600015 deposited on target and by long counter 3011400600016 CORRECTION Corrected for detector efficiency (ratio In/Mn eff. 3011400600017 assumed 0.928). No correction for self-shielding or 3011400600018 multiscattering. 3011400600019 COMMENT Energy resolution at 8 and 50 keV are 7 and 23% 3011400600020 (FWHM)respectively. 3011400600021 STATUS (TABLE) Data from Brooks as a private commun. Sept 19693011400600022 HISTORY (19700114C) 3011400600023 (19790312U) ND minor changes in bib and data 3011400600024 (19710301T) previously Dastar-1040.Corrected 3011400600025 (19800116U) ND minor changes in bib.Data after NNDC mem3011400600026 79/12/17. 3011400600027 ENDBIB 25 0 3011400600028 COMMON 3 3 3011400600029 EN-NRM MONIT MONIT-ERR 3011400600030 KEV MB MB 3011400600031 3.0000E+01 7.6000E+02 5.0000E+01 3011400600032 ENDCOMMON 3 0 3011400600033 DATA 4 29 3011400600034 EN EN-RSL DATA DATA-ERR 3011400600035 KEV PER-CENT MB MB 3011400600036 8.1200E+00 7.0000E+00 2.0900E+02 5.6000E+01 3011400600037 8.5000E+00 1.1700E+02 4.4000E+01 3011400600038 8.8000E+00 2.0500E+02 4.6000E+01 3011400600039 9.2000E+00 8.8000E+01 3.2000E+01 3011400600040 9.7000E+00 1.2600E+02 3.3000E+01 3011400600041 1.0100E+01 8.2000E+01 3.2000E+01 3011400600042 1.0600E+01 9.3000E+01 2.9000E+01 3011400600043 1.1100E+01 6.4000E+01 2.2000E+01 3011400600044 1.1600E+01 5.7000E+01 2.1000E+01 3011400600045 1.2200E+01 3.0000E+01 1.6000E+01 3011400600046 1.2900E+01 2.1000E+01 1.6000E+01 3011400600047 1.3600E+01 1.2000E+01 1.4000E+01 3011400600048 1.4300E+01 2.7000E+01 1.4000E+01 3011400600049 1.5200E+01 3.4000E+01 1.2000E+01 3011400600050 1.6100E+01 2.4000E+01 9.0000E+00 3011400600051 1.7000E+01 5.7000E+01 1.1000E+01 3011400600052 1.8100E+01 7.4000E+01 1.1000E+01 3011400600053 1.9300E+01 6.3000E+01 9.0000E+00 3011400600054 2.0500E+01 5.3000E+01 8.0000E+00 3011400600055 2.1900E+01 4.4000E+01 7.0000E+00 3011400600056 2.3600E+01 3.6000E+01 6.0000E+00 3011400600057 2.5300E+01 4.3000E+01 6.0000E+00 3011400600058 2.7200E+01 3.5000E+01 5.0000E+00 3011400600059 2.9400E+01 2.7000E+01 4.0000E+00 3011400600060 3.1900E+01 2.4000E+01 3.0000E+00 3011400600061 3.4600E+01 2.7000E+01 3.0000E+00 3011400600062 3.7700E+01 2.3000E+01 3.0000E+00 3011400600063 4.1300E+01 1.9000E+01 2.0000E+00 3011400600064 4.5500E+01 2.3000E+01 1.6000E+01 2.0000E+00 3011400600065 ENDDATA 31 0 3011400600066 ENDSUBENT 65 0 3011400699999 SUBENT 30114007 20080208 31263011400700001 BIB 8 24 3011400700002 REACTION (79-AU-197(N,G)79-AU-198,,SIG) 3011400700003 INC-SOURCE (P-LI7) Lithium target thickness 25 keV. Neutron energy3011400700004 selected with time-of-flight. Proton energy 1.891 MeV 3011400700005 SAMPLE Metal, 5.78 atoms/mb in geometry III 3011400700006 MONITOR (49-IN-0(N,G),,SIG) 3011400700007 Basically normalized to value of Gibbons et 3011400700008 al,Phys.Rev.122,182(1961) at 30 keV,which was based on 3011400700009 averaged weighted standard (Ag,Sb,In,Au,I) from the 3011400700010 absolute meas. by Schmitt and Cook,Nucl.Phys.20,202 3011400700011 (1960) at 24 keV. Indium capture assumed to follow 3011400700012 the function 1820 - 39.1*E for E between 7 and 18 keV3011400700013 and 44000/(sqrt(E)*(1+4*E**0.25)) for E between 18 and3011400700014 120 keV (units mb and keV). Monitoring by proton charge3011400700015 deposited on target and by long counter 3011400700016 CORRECTION Corrected for detector efficiency (ratio In/Au eff. 3011400700017 assumed 1.038),Self-shielding and multiscattering 3011400700018 COMMENT Energy resolution at 8 and 50 keV are 7 and 23% 3011400700019 (FWHM) respectively. 3011400700020 STATUS TABLE) Data from Brooks as a private commun. Sept 19693011400700021 HISTORY (19700114C) 3011400700022 (19790312U) ND minor changes in bib and data 3011400700023 (19710301T) previously Dastar-1041 3011400700024 (19800116U) ND minor changes in bib.Data after NNDC mem3011400700025 79/12/17. 3011400700026 ENDBIB 24 0 3011400700027 COMMON 3 3 3011400700028 EN-NRM MONIT MONIT-ERR 3011400700029 KEV MB MB 3011400700030 3.0000E+01 7.6000E+02 5.0000E+01 3011400700031 ENDCOMMON 3 0 3011400700032 DATA 4 18 3011400700033 EN EN-RSL DATA DATA-ERR 3011400700034 KEV PER-CENT MB MB 3011400700035 1.5200E+01 7.0000E+00 7.4500E+02 1.4000E+02 3011400700036 1.6000E+01 7.4900E+02 1.1600E+02 3011400700037 1.7000E+01 8.7900E+02 1.2600E+02 3011400700038 1.8100E+01 7.7800E+02 1.1100E+02 3011400700039 1.9300E+01 5.8500E+02 8.6000E+01 3011400700040 2.0500E+01 7.4200E+02 9.5000E+01 3011400700041 2.2000E+01 6.6900E+02 8.5000E+01 3011400700042 2.3500E+01 6.9100E+02 8.4000E+01 3011400700043 2.5300E+01 5.7000E+02 6.8000E+01 3011400700044 2.7200E+01 5.7000E+02 6.5000E+01 3011400700045 2.9400E+01 5.1300E+02 5.9000E+01 3011400700046 3.1800E+01 4.7500E+02 5.3000E+01 3011400700047 3.4600E+01 4.8500E+02 5.3000E+01 3011400700048 3.7700E+01 4.3700E+02 4.8000E+01 3011400700049 4.1300E+01 4.3500E+02 4.7000E+01 3011400700050 4.5500E+01 3.7100E+02 4.0000E+01 3011400700051 5.0200E+01 2.3000E+01 3.4400E+02 3.8000E+01 3011400700052 5.5800E+01 3.0000E+02 3.2000E+01 3011400700053 ENDDATA 20 0 3011400700054 ENDSUBENT 53 0 3011400799999 SUBENT 30114008 20080208 31263011400800001 BIB 8 25 3011400800002 REACTION (51-SB-0(N,G),,SIG) 3011400800003 INC-SOURCE (P-LI7) Lithium target thicknesses 2 - 10 keV. Neutron 3011400800004 energy determined from proton energy 3011400800005 SAMPLE Metal powder in aluminium container, 3011400800006 6.50 and 9.19 atoms/mb in geometry I and II 3011400800007 MONITOR (49-IN-0(N,G),,SIG) 3011400800008 Basically normalized to value of Gibbons et 3011400800009 al,Phys.Rev.122,182(1961) at 30 keV,which was based on 3011400800010 averaged weighted standard (Ag,Sb,In,Au,I) from the 3011400800011 absolute meas. by Schmitt and Cook,Nucl.Phys.20,202 3011400800012 (1960) at 24 keV. Indium capture assumed to follow 3011400800013 the function 1820 - 39.1*E for E between 7 and 18 keV3011400800014 and 44000/(sqrt(E)*(1+4*E**0.25)) for E between 18 and3011400800015 120 keV (units mb and keV). Monitoring by proton charge3011400800016 deposited on target and by long counter 3011400800017 CORRECTION Corrected for detector efficiency (ratio In/Sb eff. 3011400800018 assumed 1.017), Self-shielding and multiscattering 3011400800019 COMMENT Energy resolution at 10 , 40 and 100 keV are 3 , 8 and 3011400800020 6 keV respectively. 3011400800021 STATUS (TABLE) Data from Brooks as a private commun. Sept 19693011400800022 HISTORY (19700114C) 3011400800023 (19790312U) ND minor changes in bib and data 3011400800024 (19710301T) previously Dastar-1042 3011400800025 (19800116U) ND minor changes in bib.Data after NNDC mem3011400800026 79/12/17. 3011400800027 ENDBIB 25 0 3011400800028 COMMON 3 3 3011400800029 EN-NRM MONIT MONIT-ERR 3011400800030 KEV MB MB 3011400800031 3.0000E+01 7.6000E+02 5.0000E+01 3011400800032 ENDCOMMON 3 0 3011400800033 DATA 4 12 3011400800034 EN EN-RSL DATA DATA-ERR 3011400800035 KEV KEV MB MB 3011400800036 1.1000E+01 3.0000E+00 9.4500E+02 1.8000E+02 3011400800037 1.6000E+01 9.9100E+02 2.0300E+02 3011400800038 1.7000E+01 8.3700E+02 1.5600E+02 3011400800039 1.9000E+01 6.1600E+02 1.0700E+02 3011400800040 2.2000E+01 6.7700E+02 9.3000E+01 3011400800041 2.8000E+01 6.0100E+02 7.1000E+01 3011400800042 4.2000E+01 8.0000E+00 4.0000E+02 5.0000E+01 3011400800043 5.3000E+01 3.6100E+02 4.5000E+01 3011400800044 5.8000E+01 2.9600E+02 4.2000E+01 3011400800045 6.0000E+01 3.2200E+02 5.5000E+01 3011400800046 7.2000E+01 3.0900E+02 5.8000E+01 3011400800047 7.3000E+01 6.0000E+00 2.6300E+02 4.2000E+01 3011400800048 ENDDATA 14 0 3011400800049 ENDSUBENT 48 0 3011400899999 SUBENT 30114009 20080208 31263011400900001 BIB 8 24 3011400900002 REACTION (47-AG-0(N,G),,SIG) 3011400900003 INC-SOURCE (P-LI7) Lithium target thicknesses 2 - 10 keV. Neutron 3011400900004 energy determined from proton energy 3011400900005 SAMPLE Metal, 8.26 and 14.8 atoms/mb in geometry I and II 3011400900006 MONITOR (49-IN-0(N,G),,SIG) 3011400900007 Basically normalized to value of Gibbons et 3011400900008 al,Phys.Rev.122,182(1961) at 30 keV,which was based on 3011400900009 averaged weighted standard (Ag,Sb,In,Au,I) from the 3011400900010 absolute meas. by Schmitt and Cook,Nucl.Phys.20,202 3011400900011 (1960) at 24 keV. Indium capture assumed to follow 3011400900012 the function 1820 - 39.1*E for E between 7 and 18 keV3011400900013 and 44000/(sqrt(E)*(1+4*E**0.25)) for E between 18 and3011400900014 120 keV (units mb and keV). Monitoring by proton charge3011400900015 deposited on target and by long counter 3011400900016 CORRECTION Corrected for detector efficiency (ratio In/Ag eff. 3011400900017 assumed 0.955), Self-shielding and multiscattering 3011400900018 COMMENT Energy resolution at 10, 40 and 100 keV are 3, 8 and 3011400900019 6 keV respectively. 3011400900020 STATUS (TABLE) Data from Brooks as a private commun. Sept 19693011400900021 HISTORY (19700114C) 3011400900022 (19790312U) ND minor changes in bib and data 3011400900023 (19710301T) previously Dastar-1043 3011400900024 (19800116U) ND minor changes in bib.Data after NNDC mem3011400900025 79/12/17. 3011400900026 ENDBIB 24 0 3011400900027 COMMON 3 3 3011400900028 EN-NRM MONIT MONIT-ERR 3011400900029 KEV MB MB 3011400900030 3.0000E+01 7.6000E+02 5.0000E+01 3011400900031 ENDCOMMON 3 0 3011400900032 DATA 4 26 3011400900033 EN EN-RSL DATA DATA-ERR 3011400900034 KEV KEV MB MB 3011400900035 9.9000E+00 3.0000E+00 1.2600E+03 1.3600E+02 3011400900036 1.1000E+01 1.5500E+03 1.6500E+02 3011400900037 1.1000E+01 1.7100E+03 1.8000E+02 3011400900038 1.1000E+01 1.8220E+03 2.7200E+02 3011400900039 1.6000E+01 1.6770E+03 2.8400E+02 3011400900040 1.7000E+01 1.3300E+03 2.1700E+02 3011400900041 1.9000E+01 1.3080E+03 1.9100E+02 3011400900042 2.2000E+01 9.8500E+02 1.5400E+02 3011400900043 2.8000E+01 1.0880E+03 1.1400E+02 3011400900044 3.0000E+01 9.7700E+02 9.4000E+01 3011400900045 3.1000E+01 9.6100E+02 9.3000E+01 3011400900046 3.5000E+01 8.1100E+02 9.9000E+01 3011400900047 4.2000E+01 8.0000E+00 7.6000E+02 8.8000E+01 3011400900048 5.3000E+01 6.6100E+02 8.2000E+01 3011400900049 5.7000E+01 6.0100E+02 6.5000E+01 3011400900050 5.7000E+01 6.5500E+02 7.0000E+01 3011400900051 5.8000E+01 5.7700E+02 8.3000E+01 3011400900052 6.1000E+01 5.2000E+02 5.4000E+01 3011400900053 6.5000E+01 4.9700E+02 6.1000E+01 3011400900054 6.7000E+01 4.4100E+02 4.0000E+01 3011400900055 7.0000E+01 5.1900E+02 9.5000E+01 3011400900056 7.3000E+01 4.7500E+02 6.4000E+01 3011400900057 8.0000E+01 4.1200E+02 4.4000E+01 3011400900058 8.0000E+01 5.0100E+02 7.4000E+01 3011400900059 9.0000E+01 4.2300E+02 8.7000E+01 3011400900060 9.4000E+01 6.0000E+00 3.6800E+02 3.7000E+01 3011400900061 ENDDATA 28 0 3011400900062 ENDSUBENT 61 0 3011400999999 SUBENT 30114010 20080208 31263011401000001 BIB 8 24 3011401000002 REACTION (47-AG-0(N,G),,SIG) 3011401000003 INC-SOURCE (P-LI7) Lithium target thickness 25 keV. Neutron energy3011401000004 selected with time-of-flight. Proton energy 1.891 MeV 3011401000005 SAMPLE Metal, 8.26 and 14.8 atoms/mb in geometry III 3011401000006 MONITOR (49-IN-0(N,G),,SIG) 3011401000007 Basically normalized to value of Gibbons et 3011401000008 al,Phys.Rev.122,182(1961) at 30 keV,which was based on 3011401000009 averaged weighted standard (Ag,Sb,In,Au,I) from the 3011401000010 absolute meas. by Schmitt and Cook,Nucl.Phys.20,202 3011401000011 (1960) at 24 keV. Indium capture assumed to follow 3011401000012 the function 1820 - 39.1*E for E between 7 and 18 keV3011401000013 and 44000/(sqrt(E)*(1+4*E**0.25)) for E between 18 and3011401000014 120 keV (units mb and keV). Monitoring by proton charge3011401000015 deposited on target and by long counter 3011401000016 CORRECTION Corrected for detector efficiency (ratio In/Ag eff. 3011401000017 assumed 0.955), Self-shielding and multiscattering 3011401000018 COMMENT Energy resolution at 8 and 50 keV are 7 and 23% 3011401000019 (FWHM) respectively. 3011401000020 STATUS (TABLE) Data from Brooks as a private commun. Sept 19693011401000021 HISTORY (19700114C) 3011401000022 (19790312U) ND minor changes in bib and data 3011401000023 (19710301T) previously Dastar-1043 3011401000024 (19800116U) ND minor changes in bib.Data after NNDC mem3011401000025 79/12/17. 3011401000026 ENDBIB 24 0 3011401000027 COMMON 3 3 3011401000028 EN-NRM MONIT MONIT-ERR 3011401000029 KEV MB MB 3011401000030 3.0000E+01 7.6000E+02 5.0000E+01 3011401000031 ENDCOMMON 3 0 3011401000032 DATA 4 21 3011401000033 EN EN-RSL DATA DATA-ERR 3011401000034 KEV PER-CENT MB MB 3011401000035 1.0800E+01 7.0000E+00 1.6900E+03 2.1200E+02 3011401000036 1.1400E+01 1.4800E+03 1.7900E+02 3011401000037 1.1900E+01 1.3300E+03 1.6100E+02 3011401000038 1.2600E+01 1.5000E+03 1.8000E+02 3011401000039 1.3200E+01 1.4050E+03 1.6400E+02 3011401000040 1.4600E+01 1.4560E+03 1.4000E+02 3011401000041 1.6100E+01 1.3400E+03 1.3000E+02 3011401000042 1.7500E+01 1.2900E+03 1.2000E+02 3011401000043 1.9000E+01 1.2740E+03 1.3000E+02 3011401000044 2.0200E+01 1.1830E+03 1.2000E+02 3011401000045 2.1600E+01 1.1900E+03 1.2000E+02 3011401000046 2.3100E+01 1.1000E+03 1.1000E+02 3011401000047 2.4800E+01 1.0470E+03 1.0500E+02 3011401000048 2.6700E+01 9.9300E+02 1.0000E+02 3011401000049 2.8900E+01 8.6800E+02 9.0000E+01 3011401000050 3.1200E+01 8.5000E+02 8.5000E+01 3011401000051 3.3900E+01 8.3600E+02 8.0000E+01 3011401000052 3.6900E+01 7.6200E+02 7.5000E+01 3011401000053 4.0400E+01 7.3600E+02 6.9000E+01 3011401000054 4.4400E+01 6.4500E+02 6.2000E+01 3011401000055 5.0200E+01 2.3000E+01 6.1500E+02 6.5000E+01 3011401000056 ENDDATA 23 0 3011401000057 ENDSUBENT 56 0 3011401099999 SUBENT 30114011 20080208 31263011401100001 BIB 4 11 3011401100002 REACTION (51-SB-0(N,EL),,STF) 3011401100003 ANALYSIS Calculated as in Gibbons et al,Phys.Rev 122,182(1961), 3011401100004 on the data in subentry 8 and with the following 3011401100005 assumptions= 3011401100006 average gamma width= 0.115 eV 3011401100007 average level spacing= 24 eV 3011401100008 S-wave strength function= 1.0E-4 3011401100009 STATUS (TABLE) from table 2 in ref 3011401100010 HISTORY (19700114C) 3011401100011 (19790312U) ND minor changes in bib 3011401100012 (19710301T) previously Dastar 1044 3011401100013 ENDBIB 11 0 3011401100014 NOCOMMON 0 0 3011401100015 DATA 5 1 3011401100016 EN-RES-MIN EN-RES-MAX MOMENTUM L DATA DATA-ERR 3011401100017 KEV KEV NO-DIM NO-DIM NO-DIM 3011401100018 8.0000E+00 3.0000E+01 1.0000E+00 3.7000E-04 1.5000E-04 3011401100019 ENDDATA 3 0 3011401100020 ENDSUBENT 19 0 3011401199999 SUBENT 30114012 20080208 31263011401200001 BIB 4 11 3011401200002 REACTION (47-AG-0(N,EL),,STF) 3011401200003 ANALYSIS Calculated as in Gibbons et al,Phys.Rev 122,182(1961), 3011401200004 on the data in subentries 9,10 and with the following 3011401200005 assumptions= 3011401200006 average gamma width= 0.137 eV 3011401200007 average level spacing= 23 eV 3011401200008 S-wave strength function= 0.85E-4 3011401200009 STATUS (TABLE) From table 2 in ref 3011401200010 HISTORY (19700114C) 3011401200011 (19790312U) ND minor changes in bib 3011401200012 (19710301T) previously Dastar 1045 3011401200013 ENDBIB 11 0 3011401200014 NOCOMMON 0 0 3011401200015 DATA 5 1 3011401200016 EN-RES-MIN EN-RES-MAX MOMENTUM L DATA DATA-ERR 3011401200017 KEV KEV NO-DIM NO-DIM NO-DIM 3011401200018 8.0000E+00 3.0000E+01 1.0000E+00 5.6000E-04 2.3000E-04 3011401200019 ENDDATA 3 0 3011401200020 ENDSUBENT 19 0 3011401299999 SUBENT 30114013 20080208 31263011401300001 BIB 4 10 3011401300002 REACTION (49-IN-0(N,EL),,STF) 3011401300003 ANALYSIS Calculated as in Gibbons et al,Phys.Rev 122,182(1961), 3011401300004 on capture data with the following assumptions= 3011401300005 average gamma width= 0.079 eV 3011401300006 average level spacing= 8.7 eV 3011401300007 S-wave strength function= 0.6E-4 3011401300008 STATUS (TABLE) From Table 2 in ref 3011401300009 HISTORY (19700114C) 3011401300010 (19790312U) ND minor changes in bib 3011401300011 (19710301T) previously Dastar 1046 3011401300012 ENDBIB 10 0 3011401300013 NOCOMMON 0 0 3011401300014 DATA 5 1 3011401300015 EN-RES-MIN EN-RES-MAX MOMENTUM L DATA DATA-ERR 3011401300016 KEV KEV NO-DIM NO-DIM NO-DIM 3011401300017 8.0000E+00 3.0000E+01 1.0000E+00 3.9000E-04 1.5000E-04 3011401300018 ENDDATA 3 0 3011401300019 ENDSUBENT 18 0 3011401399999 SUBENT 30114014 20080208 31263011401400001 BIB 4 12 3011401400002 REACTION (41-NB-93(N,EL),,STF) 3011401400003 ANALYSIS Calculated as in Gibbons et al,Phys.Rev 122,182(1961), 3011401400004 on capture data with the following assumptions= 3011401400005 average gamma width(S-wave)= 0.150 eV 3011401400006 average gamma width(p-wave)= 0.230 eV 3011401400007 average level spacing(S-wave)= 73.5 eV 3011401400008 average level spacing(p-wave)= 65 eV 3011401400009 S-wave strength function= 0.35E-4 3011401400010 STATUS (TABLE) From Table 2 in ref 3011401400011 HISTORY (19700114C) 3011401400012 (19790312U) ND minor changes in bib 3011401400013 (19710301T) previously Dastar 1047 3011401400014 ENDBIB 12 0 3011401400015 NOCOMMON 0 0 3011401400016 DATA 5 1 3011401400017 EN-RES-MIN EN-RES-MAX MOMENTUM L DATA DATA-ERR 3011401400018 KEV KEV NO-DIM NO-DIM NO-DIM 3011401400019 8.0000E+00 3.0000E+01 1.0000E+00 3.3000E-04 1.8000E-04 3011401400020 ENDDATA 3 0 3011401400021 ENDSUBENT 20 0 3011401499999 SUBENT 30114015 20080208 31263011401500001 BIB 4 11 3011401500002 REACTION (79-AU-197(N,EL),,STF) 3011401500003 ANALYSIS Calculated as in Gibbons et al,Phys.Rev 122,182(1961), 3011401500004 on the data in subentry 7 and with the following 3011401500005 assumptions= 3011401500006 average gamma width= 0.115 eV 3011401500007 average level spacing= 17 eV 3011401500008 S-wave strength function= 1.5E-4 3011401500009 STATUS (TABLE) From Table 2 in ref 3011401500010 HISTORY (19700114C) 3011401500011 (19790312U) ND minor changes in bib 3011401500012 (19710301T) previously Dastar 1027 3011401500013 ENDBIB 11 0 3011401500014 NOCOMMON 0 0 3011401500015 DATA 5 1 3011401500016 EN-RES-MIN EN-RES-MAX MOMENTUM L DATA DATA-ERR 3011401500017 KEV KEV NO-DIM NO-DIM NO-DIM 3011401500018 8.0000E+00 3.0000E+01 1.0000E+00 6.9000E-05 4.0000E-05 3011401500019 ENDDATA 3 0 3011401500020 ENDSUBENT 19 0 3011401599999 SUBENT 30114016 20080208 31263011401600001 BIB 4 9 3011401600002 REACTION (24-CR-0(N,G),,WID,,AV) 3011401600003 ANALYSIS (AREA) Area analysis modified to give average width, 3011401600004 assuming average level spacing 10.4keV for Cr-52 and 3011401600005 2.8 For Cr-53. Energy range chosen to minimize 3011401600006 contributions from distant levels 3011401600007 STATUS (TABLE) From Table 3 in ref 3011401600008 HISTORY (19700114C) 3011401600009 (19790312U) ND minor changes in bib 3011401600010 (19710301T) previously Dastar 1025 3011401600011 ENDBIB 9 0 3011401600012 NOCOMMON 0 0 3011401600013 DATA 4 1 3011401600014 EN-MIN EN-MAX DATA DATA-ERR 3011401600015 KEV KEV EV EV 3011401600016 1.6000E+01 8.0000E+01 2.3000E+00 1.0000E+00 3011401600017 ENDDATA 3 0 3011401600018 ENDSUBENT 17 0 3011401699999 SUBENT 30114017 20080208 31263011401700001 BIB 4 8 3011401700002 REACTION (25-MN-55(N,G),,WID,,AV) 3011401700003 ANALYSIS (AREA) Area analysis modified to give average width, 3011401700004 assuming average level spacing 2.9 keV. Energy range 3011401700005 chosen to minimize contributions from distant levels 3011401700006 STATUS (TABLE) From Table 3 in ref 3011401700007 HISTORY (19700114C) 3011401700008 (19790312U) ND minor changes in bib 3011401700009 (19710301T) previously Dastar 1026.Corrected 3011401700010 ENDBIB 8 0 3011401700011 NOCOMMON 0 0 3011401700012 DATA 4 1 3011401700013 EN-MIN EN-MAX DATA DATA-ERR 3011401700014 KEV KEV EV EV 3011401700015 1.4000E+01 5.0000E+01 6.7000E-01 2.5000E-01 3011401700016 ENDDATA 3 0 3011401700017 ENDSUBENT 16 0 3011401799999 SUBENT 30114018 20080208 31263011401800001 BIB 4 10 3011401800002 REACTION (28-NI-0(N,G),,WID,,AV) 3011401800003 ANALYSIS (AREA) Area analysis modified to give average widths, 3011401800004 assuming average level spacing 1.1 keV for Ni-58 and 3011401800005 0.7 keV for Ni-60 below 20 keV, 3.9 keV for Ni-58 and 3011401800006 3.5 keV for Ni-60 above 20 keV. Energy ranges chosen to3011401800007 minimize contributions from distant levels 3011401800008 STATUS (TABLE) From Table 3 in ref 3011401800009 HISTORY (19700114C) 3011401800010 (19790312U) ND minor changes in bib 3011401800011 (19710301T) previously Dastar 1024 3011401800012 ENDBIB 10 0 3011401800013 NOCOMMON 0 0 3011401800014 DATA 4 2 3011401800015 EN-MIN EN-MAX DATA DATA-ERR 3011401800016 KEV KEV EV EV 3011401800017 8.0000E+00 2.0000E+01 2.9000E-01 1.3000E-01 3011401800018 2.0000E+01 5.0000E+01 3.4000E-01 1.4000E-01 3011401800019 ENDDATA 4 0 3011401800020 ENDSUBENT 19 0 3011401899999 SUBENT 30114019 20080208 31263011401900001 BIB 3 4 3011401900002 REACTION (49-IN-0(N,G),,SIG) 3011401900003 COMMENT Geometry of the experimental setup different 3011401900004 from the one corresponding to subentry 30114020. 3011401900005 HISTORY (19970604A) HW. -Previous subentry 78013007- 3011401900006 ENDBIB 4 0 3011401900007 NOCOMMON 0 0 3011401900008 DATA 3 21 3011401900009 EN DATA DATA-ERR 3011401900010 MEV B B 3011401900011 1.0800E-02 1.6900E+00 2.1200E-01 3011401900012 1.1400E-02 1.4800E+00 1.7900E-01 3011401900013 1.1900E-02 1.3300E+00 1.6100E-01 3011401900014 1.2600E-02 1.5000E+00 1.8000E-01 3011401900015 1.3200E-02 1.4050E+00 1.6400E-01 3011401900016 1.4600E-02 1.4560E+00 1.4000E-01 3011401900017 1.6100E-02 1.3400E+00 1.3000E-01 3011401900018 1.7500E-02 1.2900E+00 1.2000E-01 3011401900019 1.9000E-02 1.2740E+00 1.3000E-01 3011401900020 2.0200E-02 1.1830E+00 1.2000E-01 3011401900021 2.1600E-02 1.1900E+00 1.2000E-01 3011401900022 2.3100E-02 1.1000E+00 1.1000E-01 3011401900023 2.4800E-02 1.0470E+00 1.0500E-01 3011401900024 2.6700E-02 9.9300E-01 1.0000E-01 3011401900025 2.8900E-02 8.6800E-01 9.0000E-02 3011401900026 3.1200E-02 8.5000E-01 8.5000E-02 3011401900027 3.3900E-02 8.3600E-01 8.0000E-02 3011401900028 3.6900E-02 7.6200E-01 7.5000E-02 3011401900029 4.0400E-02 7.3600E-01 6.9000E-02 3011401900030 4.4400E-02 6.4500E-01 6.2000E-02 3011401900031 5.0200E-02 6.1500E-01 6.5000E-02 3011401900032 ENDDATA 23 0 3011401900033 ENDSUBENT 32 0 3011401999999 SUBENT 30114020 20080208 31263011402000001 BIB 3 4 3011402000002 REACTION (49-IN-0(N,G),,SIG) 3011402000003 COMMENT Geometry of the experimental setup different 3011402000004 from the one corresponding to subentry 30114019. 3011402000005 HISTORY (19970604A) HW. -Previous subentry 78013008- 3011402000006 ENDBIB 4 0 3011402000007 NOCOMMON 0 0 3011402000008 DATA 3 26 3011402000009 EN DATA DATA-ERR 3011402000010 MEV B B 3011402000011 9.9000E-03 1.2600E+00 1.3600E-01 3011402000012 1.1000E-02 1.5500E+00 1.6500E-01 3011402000013 1.1000E-02 1.7100E+00 1.8000E-01 3011402000014 1.1000E-02 1.8220E+00 2.7200E-01 3011402000015 1.6000E-02 1.6770E+00 2.8400E-01 3011402000016 1.7000E-02 1.3300E+00 2.1700E-01 3011402000017 1.9000E-02 1.3080E+00 1.9100E-01 3011402000018 2.2000E-02 9.8500E-01 1.5400E-01 3011402000019 2.8000E-02 1.0880E+00 1.1400E-01 3011402000020 3.0000E-02 9.7700E-01 9.4000E-02 3011402000021 3.1000E-02 9.6100E-01 9.3000E-02 3011402000022 3.5000E-02 8.1100E-01 9.9000E-02 3011402000023 4.2000E-02 7.6000E-01 8.8000E-02 3011402000024 5.3000E-02 6.6100E-01 8.2000E-02 3011402000025 5.7000E-02 6.0100E-01 6.5000E-02 3011402000026 5.7000E-02 6.5500E-01 7.0000E-02 3011402000027 5.8000E-02 5.7700E-01 8.3000E-02 3011402000028 6.1000E-02 5.2000E-01 5.4000E-02 3011402000029 6.5000E-02 4.9700E-01 6.1000E-02 3011402000030 6.7000E-02 4.4100E-01 4.0000E-02 3011402000031 7.0000E-02 5.1900E-01 9.5000E-02 3011402000032 7.3000E-02 4.7500E-01 6.4000E-02 3011402000033 8.0000E-02 4.1200E-01 4.4000E-02 3011402000034 8.0000E-02 5.0100E-01 7.4000E-02 3011402000035 9.0000E-02 4.2300E-01 8.7000E-02 3011402000036 9.4000E-02 3.6800E-01 3.7000E-02 3011402000037 ENDDATA 28 0 3011402000038 ENDSUBENT 37 0 3011402099999 ENDENTRY 20 0 3011499999999