ENTRY C2334 20220203 C215C233400000001 SUBENT C2334001 20220203 C215C233400100001 BIB 9 17 C233400100002 TITLE Nuclear reaction studies of 168Tm C233400100003 AUTHOR (Z.Preibisz,D.G.Burke,R.A.O'Neil) C233400100004 INSTITUTE (1CANMCM) C233400100005 REFERENCE (J,NP/A,201,486,1973) C233400100006 FACILITY (VDGT,1CANMCM) Experiment performed at the FN tandem C233400100007 Van de Graff accelerator at McMaster University C233400100008 DETECTOR (MAGSP) Charged particles were momentum analysed C233400100009 using Enge-type split-pole magnetic spectrograph. C233400100010 The tritons and deuterons were detected with 50 mu-m C233400100011 thick Kodak NTB nuclear emulsions. The alpha C233400100012 particles were recorded with less sensitive 50 mu-m C233400100013 thick Ilford K minus 1 plates. C233400100014 METHOD (REC) C233400100015 ERR-ANALYS (DATA-ERR) Absolute uncertainty was determined relativeC233400100016 to elastic scattering at 30 deg. Uncertainty of this C233400100017 procedure is estimated to be 25% C233400100018 HISTORY (20220203C) Compiled by S.H. C233400100019 ENDBIB 17 0 C233400100020 COMMON 1 3 C233400100021 DATA-ERR C233400100022 PER-CENT C233400100023 25. C233400100024 ENDCOMMON 3 0 C233400100025 ENDSUBENT 24 0 C233400199999 SUBENT C2334002 20220203 C215C233400200001 BIB 4 6 C233400200002 REACTION (69-TM-169(D,T)69-TM-168,PAR,DA) C233400200003 SAMPLE The 169Tm targets were prepared by evaporating thulium C233400200004 metal by electron bombardment on 50 mu-g/cm2 carbon C233400200005 foils, which were typically 40-80 mu-g/cm2 thick. C233400200006 MONITOR (69-TM-169(D,EL)69-TM-169,,DA,,4PI) C233400200007 STATUS (TABLE) Data taken from tab.1 of the reference C233400200008 ENDBIB 6 0 C233400200009 COMMON 4 3 C233400200010 EN ANG ANG-NRM MONIT C233400200011 MEV ADEG ADEG B C233400200012 12. 60. 30. 10.6 C233400200013 ENDCOMMON 3 0 C233400200014 DATA 2 81 C233400200015 E-LVL DATA C233400200016 KEV MU-B/SR C233400200017 3. 115. C233400200018 41. 14. C233400200019 64. 7.2 C233400200020 113. 9.8 C233400200021 150. 0.8 C233400200022 168. 57.8 C233400200023 179. 21.4 C233400200024 230. 71.7 C233400200025 235. 17.7 C233400200026 243. 5.6 C233400200027 325. 15.4 C233400200028 348. 18.2 C233400200029 353. 3.4 C233400200030 385. 16.7 C233400200031 439. 1.8 C233400200032 447. 9.3 C233400200033 499. 1.8 C233400200034 594. 2.8 C233400200035 616. 17.2 C233400200036 642. 4.4 C233400200037 666. 3.5 C233400200038 702. 27.7 C233400200039 708. 10.2 C233400200040 717. 4.6 C233400200041 726. 9.7 C233400200042 734. 5.6 C233400200043 770. 5.8 C233400200044 780. 7.7 C233400200045 790. 12.8 C233400200046 794. 11.2 C233400200047 798. 9.8 C233400200048 834. 3.9 C233400200049 853. 13.7 C233400200050 859. 6.3 C233400200051 866. 9.3 C233400200052 887. 38.5 C233400200053 897. 12.1 C233400200054 905. 24.7 C233400200055 915. 3.7 C233400200056 921. 9.5 C233400200057 937. 6.2 C233400200058 945. 4.6 C233400200059 953. 7.4 C233400200060 968. 3.7 C233400200061 984. 1.8 C233400200062 991. 2.7 C233400200063 1041. 10.9 C233400200064 1052. 3. C233400200065 1057. 16.7 C233400200066 1063. 2. C233400200067 1076. 4.4 C233400200068 1100. 7.9 C233400200069 1116. 44.3 C233400200070 1127. 42.7 C233400200071 1133. 14.2 C233400200072 1183. 14.2 C233400200073 1183. 7.5 C233400200074 1193. 3. C233400200075 1239. 7.9 C233400200076 1243. 9.3 C233400200077 1260. 15.6 C233400200078 1268. 6.5 C233400200079 1276. 9.1 C233400200080 1281. 5.1 C233400200081 1304. 4.2 C233400200082 1313. 6.3 C233400200083 1333. 5.7 C233400200084 1348. 27.2 C233400200085 1436. 4.1 C233400200086 1448. 4.1 C233400200087 1466. 17.7 C233400200088 1472. 8.1 C233400200089 1507. 5.3 C233400200090 1520. 2.3 C233400200091 1554. 0.9 C233400200092 1568. 2.1 C233400200093 1604. 1.8 C233400200094 1621. 1.8 C233400200095 1637. 2.8 C233400200096 1662. 7.6 C233400200097 1742. 1.6 C233400200098 ENDDATA 83 0 C233400200099 ENDSUBENT 98 0 C233400299999 SUBENT C2334003 20220203 C215C233400300001 BIB 4 6 C233400300002 REACTION (69-TM-169(HE3,A)69-TM-168,PAR,DA) C233400300003 SAMPLE The 169Tm targets were prepared by evaporating thulium C233400300004 metal by electron bombardment on 50 mu-g/cm2 carbon C233400300005 foils, which were typically 40-80 mu-g/cm2 thick. C233400300006 MONITOR (69-TM-169(HE3,EL)69-TM-169,,DA,,4PI) C233400300007 STATUS (TABLE) Data taken from tab.1 of the reference C233400300008 ENDBIB 6 0 C233400300009 COMMON 4 3 C233400300010 EN ANG ANG-NRM MONIT C233400300011 MEV ADEG ADEG B C233400300012 24. 41. 30. 9.66 C233400300013 ENDCOMMON 3 0 C233400300014 DATA 2 38 C233400300015 E-LVL DATA C233400300016 KEV MU-B/SR C233400300017 47. 2.3 C233400300018 111. 1.4 C233400300019 141. 1.6 C233400300020 179. 2.8 C233400300021 243. 40.7 C233400300022 328. 6.3 C233400300023 352. 8.9 C233400300024 383. 3.5 C233400300025 447. 50.4 C233400300026 482. 3.5 C233400300027 591. 1.9 C233400300028 699. 2.2 C233400300029 719. 1.9 C233400300030 744. 1.5 C233400300031 778. 8.1 C233400300032 797. 3.7 C233400300033 850. 8.1 C233400300034 892. 7.0 C233400300035 914. 21.8 C233400300036 925. 8.6 C233400300037 957. 30.4 C233400300038 974. 9.9 C233400300039 1045. 9.8 C233400300040 1059. 24.2 C233400300041 1096. 25.8 C233400300042 1129. 19.1 C233400300043 1170. 6.8 C233400300044 1187. 2.8 C233400300045 1262. 3.6 C233400300046 1346. 1.6 C233400300047 1415. 2.9 C233400300048 1433. 7.8 C233400300049 1454. 3.1 C233400300050 1566. 2.4 C233400300051 1617. 3.1 C233400300052 1693. 1.0 C233400300053 1802. 3.4 C233400300054 1905. 2.8 C233400300055 ENDDATA 40 0 C233400300056 ENDSUBENT 55 0 C233400399999 SUBENT C2334004 20220203 C215C233400400001 BIB 3 14 C233400400002 REACTION (68-ER-167(HE3,D)69-TM-168,PAR,DA) C233400400003 SAMPLE (68-ER-162,ENR=0.0001) C233400400004 (68-ER-164,ENR=0.0005) C233400400005 (68-ER-166,ENR=0.0350) C233400400006 (68-ER-167,ENR=0.911) C233400400007 (68-ER-168,ENR=0.0489) C233400400008 (68-ER-168,ENR=0.0350) C233400400009 (68-ER-170,ENR=0.0005) Metallic samples of the C233400400010 separated isotope 167Er were obtained by reduction of C233400400011 the oxide with thorium metal at 2150 deg and subsequentC233400400012 distillation of the metal. The targets, evaporated on C233400400013 50 mu-g/cm2 carbon foils, were typically 40-80 C233400400014 mu-g/cm2 thick. C233400400015 STATUS (TABLE) Data taken from tab.2 of the reference C233400400016 ENDBIB 14 0 C233400400017 COMMON 2 3 C233400400018 EN ANG C233400400019 MEV ADEG C233400400020 24. 39. C233400400021 ENDCOMMON 3 0 C233400400022 DATA 2 49 C233400400023 E-LVL DATA C233400400024 KEV MU-B/SR C233400400025 0. 11.8 C233400400026 46. 1.2 C233400400027 64. 12.3 C233400400028 85. 2.7 C233400400029 149. 20. C233400400030 176. 2.7 C233400400031 201. 28.5 C233400400032 204. 7.4 C233400400033 231. 16.6 C233400400034 245. 10.9 C233400400035 313. 12.4 C233400400036 338. 19.7 C233400400037 368. 1.3 C233400400038 389. 1.4 C233400400039 447. 7.4 C233400400040 492. 2.1 C233400400041 520. 10.4 C233400400042 564. 4.8 C233400400043 580. 2.9 C233400400044 609. 6. C233400400045 631. 6.5 C233400400046 674. 2.5 C233400400047 698. 2.4 C233400400048 730. 35.6 C233400400049 760. 6.1 C233400400050 815. 16.6 C233400400051 848. 14.6 C233400400052 892. 6.9 C233400400053 934. 2.5 C233400400054 995. 2.3 C233400400055 1009. 2.3 C233400400056 1123. 4.8 C233400400057 1161. 6. C233400400058 1202. 2.4 C233400400059 1225. 3. C233400400060 1252. 2.8 C233400400061 1273. 2.7 C233400400062 1322. 7.6 C233400400063 1343. 3.0 C233400400064 1389. 40.6 C233400400065 1413. 23.8 C233400400066 1438. 27.6 C233400400067 1460. 8.0 C233400400068 1482. 26.8 C233400400069 1500. 8.0 C233400400070 1540. 5.8 C233400400071 1562. 2.0 C233400400072 1590. 10.4 C233400400073 1628. 4.8 C233400400074 ENDDATA 51 0 C233400400075 ENDSUBENT 74 0 C233400499999 SUBENT C2334005 20220203 C215C233400500001 BIB 3 14 C233400500002 REACTION (68-ER-167(A,T)69-TM-168,PAR,DA) C233400500003 SAMPLE (68-ER-162,ENR=0.0001) C233400500004 (68-ER-164,ENR=0.0005) C233400500005 (68-ER-166,ENR=0.0350) C233400500006 (68-ER-167,ENR=0.911) C233400500007 (68-ER-168,ENR=0.0489) C233400500008 (68-ER-168,ENR=0.0350) C233400500009 (68-ER-170,ENR=0.0005) Metallic samples of the C233400500010 separated isotope 167Er were obtained by reduction of C233400500011 the oxide with thorium metal at 2150 deg and subsequentC233400500012 distillation of the metal. The targets, evaporated on C233400500013 50 mu-g/cm2 carbon foils, were typically 40-80 C233400500014 mu-g/cm2 thick. C233400500015 STATUS (TABLE) Data taken from tab.2 of the reference C233400500016 ENDBIB 14 0 C233400500017 COMMON 2 3 C233400500018 EN ANG C233400500019 MEV ADEG C233400500020 25. 90. C233400500021 ENDCOMMON 3 0 C233400500022 DATA 2 42 C233400500023 E-LVL DATA C233400500024 KEV MU-B/SR C233400500025 0. 9.2 C233400500026 49. 1.0 C233400500027 64. 7.0 C233400500028 74. 1.2 C233400500029 146. 13.2 C233400500030 185. 4.1 C233400500031 200. 11.6 C233400500032 230. 9. C233400500033 246. 10. C233400500034 311. 18.6 C233400500035 333. 8.7 C233400500036 364. 0.7 C233400500037 390. 2.4 C233400500038 449. 3.1 C233400500039 494. 2.0 C233400500040 519. 3.8 C233400500041 564. 2.9 C233400500042 609. 3.7 C233400500043 631. 3.8 C233400500044 675. 1.3 C233400500045 699. 1.8 C233400500046 731. 15.4 C233400500047 759. 2.4 C233400500048 815. 5.1 C233400500049 846. 4.4 C233400500050 888. 2.5 C233400500051 938. 0.9 C233400500052 966. 1.2 C233400500053 1001. 2.7 C233400500054 1130. 0.8 C233400500055 1161. 3.8 C233400500056 1322. 1.1 C233400500057 1343. 1.0 C233400500058 1390. 2.5 C233400500059 1414. 1.2 C233400500060 1440. 2. C233400500061 1461. 1.9 C233400500062 1482. 1.7 C233400500063 1501. 0.9 C233400500064 1540. 0.7 C233400500065 1563. 1.1 C233400500066 1590. 1. C233400500067 ENDDATA 44 0 C233400500068 ENDSUBENT 67 0 C233400599999 ENDENTRY 5 0 C233499999999