ENTRY C2333 20180730 C182C233300000001 SUBENT C2333001 20180730 C182C233300100001 BIB 6 7 C233300100002 TITLE The level structure of 151Pm C233300100003 AUTHOR (D.G.Burke,J.C.Waddington) C233300100004 INSTITUTE (1CANMCM) C233300100005 REFERENCE (J,NP/A,193,271,1972) C233300100006 HISTORY (20180730C) Compiled by S.H. C233300100007 ERR-ANALYS (DATA-ERR) Absolute uncertainty due to uncertainties C233300100008 in the experimental normalization C233300100009 ENDBIB 7 0 C233300100010 COMMON 1 3 C233300100011 DATA-ERR C233300100012 PER-CENT C233300100013 20. C233300100014 ENDCOMMON 3 0 C233300100015 ENDSUBENT 14 0 C233300199999 SUBENT C2333002 20180730 C182C233300200001 BIB 5 20 C233300200002 REACTION (60-ND-150(A,T)61-PM-151,PAR,DA) C233300200003 STATUS (TABLE) Data taken from tab. 1 of the reference C233300200004 FACILITY (VDGT,1CANMCM) Experiments were performed using the C233300200005 McMaster University model FN tandem Van de Graaff C233300200006 accelerator. C233300200007 DETECTOR (MAGSP) The reaction products were momentum analyzed C233300200008 with an Enge-type magnetic spectrograph C233300200009 (TRD) charged particles d,t were detected with Kodak C233300200010 NTB nuclear emulsions 50 mu-m thick C233300200011 SAMPLE (60-ND-142,ENR=0.0079) C233300200012 (60-ND-143,ENR=0.0041) C233300200013 (60-ND-144,ENR=0.0094) C233300200014 (60-ND-145,ENR=0.0036) C233300200015 (60-ND-146,ENR=0.0090) C233300200016 (60-ND-148,ENR=0.0062) C233300200017 (60-ND-150,ENR=0.9598)Enriched Nd target was made C233300200018 from oxides of separated isotopes.The Nd oxides were C233300200019 reduced using Thorium metal and evaporated on 50 C233300200020 mu-g/cm2 carbon backing. The thickness of 150Nd C233300200021 target was 40 mu-g/cm2. C233300200022 ENDBIB 20 0 C233300200023 COMMON 2 3 C233300200024 EN ANG C233300200025 MEV ADEG C233300200026 25. 60. C233300200027 ENDCOMMON 3 0 C233300200028 DATA 2 29 C233300200029 E-LVL DATA C233300200030 KEV MU-B/SR C233300200031 1.0 4.2 C233300200032 85.1 60.0 C233300200033 112.0 1.0 C233300200034 174.0 45.0 C233300200035 199.0 2.8 C233300200036 258.3 7.9 C233300200037 325.0 129.0 C233300200038 345.0 80.0 C233300200039 427.0 7.7 C233300200040 506.0 7.0 C233300200041 532.0 9.0 C233300200042 553.0 5.7 C233300200043 597.0 1.6 C233300200044 640.0 16.0 C233300200045 698.0 3.0 C233300200046 719.0 2.6 C233300200047 782.0 51.0 C233300200048 851.0 9.0 C233300200049 877.0 33.0 C233300200050 916.0 27.0 C233300200051 958.0 22.0 C233300200052 997.0 2.3 C233300200053 1038.0 2.2 C233300200054 1183. 2.7 C233300200055 1209.0 26.0 C233300200056 1265.0 4.3 C233300200057 1312.0 2.9 C233300200058 1423.0 2.5 C233300200059 1455.0 12.7 C233300200060 ENDDATA 31 0 C233300200061 ENDSUBENT 60 0 C233300299999 SUBENT C2333003 20180730 C182C233300300001 BIB 5 20 C233300300002 REACTION (60-ND-150(HE3,D)61-PM-151,PAR,DA) C233300300003 STATUS (TABLE) Data taken from tab. 1 of the reference C233300300004 FACILITY (VDGT,1CANMCM) Experiments were performed using the C233300300005 McMaster University model FN tandem Van de Graaff C233300300006 accelerator. C233300300007 DETECTOR (MAGSP) The reaction products were momentum analyzed C233300300008 with an Enge-type magnetic spectrograph C233300300009 (TRD) charged particles d,t were detected with Kodak C233300300010 NTB nuclear emulsions 50 mu-m thick C233300300011 SAMPLE (60-ND-142,ENR=0.0079) C233300300012 (60-ND-143,ENR=0.0041) C233300300013 (60-ND-144,ENR=0.0094) C233300300014 (60-ND-145,ENR=0.0036) C233300300015 (60-ND-146,ENR=0.0090) C233300300016 (60-ND-148,ENR=0.0062) C233300300017 (60-ND-150,ENR=0.9598)Enriched Nd target was made C233300300018 from oxides of separated isotopes.The Nd oxides were C233300300019 reduced using Thorium metal and evaporated on 50 C233300300020 mu-g/cm2 carbon backing. The thickness of 150Nd C233300300021 target was 40 mu-g/cm2. C233300300022 ENDBIB 20 0 C233300300023 COMMON 2 3 C233300300024 EN ANG C233300300025 MEV ADEG C233300300026 24. 45. C233300300027 ENDCOMMON 3 0 C233300300028 DATA 2 35 C233300300029 E-LVL DATA C233300300030 KEV MU-B/SR C233300300031 0.0 3.4 C233300300032 85.1 19.1 C233300300033 108.0 1.0 C233300300034 174.0 7.7 C233300300035 198.0 1.0 C233300300036 257.0 2.6 C233300300037 325.0 130.0 C233300300038 344.0 45.0 C233300300039 427.0 8.4 C233300300040 506.0 2.4 C233300300041 533.0 15.0 C233300300042 554.0 6.2 C233300300043 639.0 8.9 C233300300044 720.0 3.0 C233300300045 782.0 22.0 C233300300046 852.0 28.0 C233300300047 876.0 52.0 C233300300048 960.0 42.0 C233300300049 961.0 48.0 C233300300050 991.0 6.1 C233300300051 1037.0 5.9 C233300300052 1184.0 8.5 C233300300053 1209.0 19.0 C233300300054 1225.0 9.1 C233300300055 1260.0 10.7 C233300300056 1299.0 8.4 C233300300057 1335.0 6.2 C233300300058 1395.0 7.7 C233300300059 1424.0 17.5 C233300300060 1491.0 21.0 C233300300061 1560.0 37.0 C233300300062 1619.0 21.0 C233300300063 1674.0 9.3 C233300300064 1713.0 32.0 C233300300065 1735.0 11.0 C233300300066 ENDDATA 37 0 C233300300067 ENDSUBENT 66 0 C233300399999 SUBENT C2333004 20180730 C182C233300400001 BIB 5 20 C233300400002 REACTION (62-SM-152(T,A)61-PM-151,PAR,DA) C233300400003 STATUS (TABLE) Data taken from tab. 1 of the reference C233300400004 FACILITY (VDGT,1USALAS) Experiments were performed using the C233300400005 FN tandem Van de Graaff accelerator at the Los Alamos C233300400006 scientific laboratory. C233300400007 DETECTOR (MAGSP) The reaction products were momentum analyzed C233300400008 with an Elbek-type magnetic spectrograph C233300400009 (TRD) charged particles were detected with with C233300400010 Ilford K-minus-l emulsions C233300400011 SAMPLE (62-SM-144,ENR=0.0001) C233300400012 (62-SM-147,ENR=0.0008) C233300400013 (62-SM-148,ENR=0.0007) C233300400014 (62-SM-149,ENR=0.0012) C233300400015 (62-SM-150,ENR=0.001) C233300400016 (62-SM-152,ENR=0.9918) C233300400017 (62-SM-154,ENR=0.0045) Enriched Sn target was made C233300400018 from oxides of separated isotopes.The Sm oxides were C233300400019 reduced using lanthanum metal and evaporated on 50 C233300400020 mu-g/cm2 carbon backing. The thickness of 152Sm C233300400021 target was 70 mu-g/cm2. C233300400022 ENDBIB 20 0 C233300400023 COMMON 2 3 C233300400024 EN ANG C233300400025 MEV ADEG C233300400026 15. 30. C233300400027 ENDCOMMON 3 0 C233300400028 DATA 2 39 C233300400029 E-LVL DATA C233300400030 KEV MU-B/SR C233300400031 0.0 10.4 C233300400032 85.1 102.0 C233300400033 176.0 22.0 C233300400034 198.0 4.8 C233300400035 260.0 12.4 C233300400036 325.0 160.0 C233300400037 345.0 172.0 C233300400038 427.0 54.0 C233300400039 508.0 73.0 C233300400040 530.0 72.0 C233300400041 550.0 26.0 C233300400042 576.0 6.4 C233300400043 596.0 22.0 C233300400044 640.0 76.0 C233300400045 697.0 10.2 C233300400046 718.0 21.0 C233300400047 782.0 22.0 C233300400048 808.0 3.2 C233300400049 849.0 12.0 C233300400050 872.0 52.0 C233300400051 915.0 17.6 C233300400052 946.0 32.1 C233300400053 1000.0 3.5 C233300400054 1039.0 7.5 C233300400055 1067.0 7.1 C233300400056 1103.0 12.0 C233300400057 1135.0 7.7 C233300400058 1180.0 2.6 C233300400059 1200.0 4.1 C233300400060 1226.0 7.0 C233300400061 1246.0 7.1 C233300400062 1269.0 2.4 C233300400063 1331.0 26.0 C233300400064 1448.0 5.1 C233300400065 1465.0 8.7 C233300400066 1556.0 12.2 C233300400067 1622.0 10.1 C233300400068 1758.0 3.1 C233300400069 1936.0 8.2 C233300400070 ENDDATA 41 0 C233300400071 ENDSUBENT 70 0 C233300499999 ENDENTRY 4 0 C233399999999