ENTRY D4097 20130625 D089D409700000001 SUBENT D4097001 20130625 D089D409700100001 BIB 14 43 D409700100002 TITLE Study on alternative production of 103Pd and D409700100003 characterisation of contaminants in the deuteron D409700100004 irradiation of 103Rh up to 21 MeV D409700100005 AUTHOR (A.Hermanne,M.Sonck,S.Takacs,F.Tarkanyi,Y.Shubin) D409700100006 INSTITUTE (2BLGVUB,3HUNDEB) D409700100007 REFERENCE (J,NIM/B,187,3,2002) D409700100008 (J,NSTS,2,1286,2002) Preliminary data given D409700100009 FACILITY (CYCLO,2BLGVUB) CGR-560 Cyclotron D409700100010 SAMPLE High purity, >99.9%, 6.8 and 12.3 micron thick Rh FoilsD409700100011 Major impurities: 40 ppm Fe, 40ppm Ru, 100 ppm in. D409700100012 METHOD (ACTIV,EXTB,STTA,GSPEC) D409700100013 Stacked target technique was used. D409700100014 Beam current was measured in Faraday cup and also was D409700100015 monitored by natTi(d,x)48V reaction. D409700100016 Decay was followed for several weeks to allow D409700100017 separation of isomeric states and the different D409700100018 isotopes. D409700100019 Recoil effect was found to be less than 1%. D409700100020 MONITOR (22-TI-0(D,X)23-V-48,,SIG) D409700100021 12.1 micron high purity Ti foils used D409700100022 MONIT-REF (,F.Tarkanyi+,R,IAEA-TECDOC-1211,2001) D409700100023 DETECTOR (XHPGE) Extended range high purity Ge gamma detector D409700100024 (LEGE) Low energy high purity Ge gamma and X-Ray det. D409700100025 ANALYSIS (DECAY) Decay curve analysis of the measured D409700100026 annihilation peaks were applied. D409700100027 CORRECTION Correction was made for self-absorption in the Rh D409700100028 foils for X-ray detection. D409700100029 ERR-ANALYS (EN-ERR) The uncertainty of the primary beam energy D409700100030 was +/-0.2 MeV. D409700100031 The energy attenuation was calculated by using the D409700100032 polynomial approximation of Andersen and Ziegler. D409700100033 (ERR-T) Total error is given. Main contributing D409700100034 components are: D409700100035 (ERR-1) Beam intensity (3%)D409700100036 (ERR-2) Number of target nuclei (5%)D409700100037 (ERR-3) Nuclear data (5%)D409700100038 (ERR-4,3.,6.) Detector efficiency (3-6%)D409700100039 (ERR-5,2.,10.) Peak area and counting statistics(2-10%)D409700100040 HISTORY (20011213C) TS D409700100041 (20060530U) Page number in ref. was corrected D409700100042 (20070307A) KB Reference was completed, some data in D409700100043 subentries 002 and 004 were corrected. D409700100044 (20130625A) On. ERR-ANLAYS:Coded information introducedD409700100045 ENDBIB 43 0 D409700100046 COMMON 3 3 D409700100047 ERR-1 ERR-2 ERR-3 D409700100048 PER-CENT PER-CENT PER-CENT D409700100049 3. 5. 5. D409700100050 ENDCOMMON 3 0 D409700100051 ENDSUBENT 50 0 D409700199999 SUBENT D4097002 20070307 D053D409700200001 BIB 3 7 D409700200002 REACTION 1(45-RH-103(D,2N)46-PD-103,,SIG) D409700200003 2(45-RH-103(D,2N)46-PD-103,,SIG) D409700200004 DECAY-DATA1(46-PD-103,16.97D,XR,20.2,0.647, D409700200005 XR,23.3,0.123) D409700200006 2(46-PD-103,16.97D,DG,357.5,0.00022) D409700200007 STATUS Data were taken from Table 4 of the original paper. D409700200008 Approved by S. Takacs. D409700200009 ENDBIB 7 0 D409700200010 NOCOMMON 0 0 D409700200011 DATA 6 44 D409700200012 EN EN-ERR DATA 1ERR-T 1DATA 2ERR-T 2D409700200013 MEV MEV MB MB MB MB D409700200014 20.2 0.2 473. 52. 565. 62.D409700200015 19.8 0.2 514. 56. 631. 69.D409700200016 19.4 0.3 561. 62. 664. 73.D409700200017 19.1 0.3 581. 64. 669. 74.D409700200018 18.8 0.3 606. 67. 740. 81.D409700200019 18.5 0.3 644. 71. 808. 89.D409700200020 18.1 0.4 678. 75. 832. 92.D409700200021 17.7 0.4 725. 80. 923. 102.D409700200022 17.3 0.4 787. 87. 988. 109.D409700200023 17. 0.4 851. 94. 977. 107.D409700200024 16.7 0.5 869. 96. 1082. 119.D409700200025 16.3 0.5 916. 101. 1094. 120.D409700200026 15.9 0.5 941. 104. 1123. 123.D409700200027 15.4 0.5 945. 104. 1171. 129.D409700200028 15. 0.6 1064. 117. 1292. 142.D409700200029 14.9 0.2 1010. 111. 1173. 129.D409700200030 14.7 0.6 1036. 114. 1203. 132.D409700200031 14.4 0.2 1127. 124. 1408. 155.D409700200032 14.3 0.6 1027. 113. 1341. 147.D409700200033 14. 0.3 1022. 112. 1290. 142.D409700200034 13.8 0.6 1077. 119. 1384. 152.D409700200035 13.5 0.3 1044. 115. 1246. 137.D409700200036 13.4 0.7 997. 110. 1273. 140.D409700200037 13. 0.3 1091. 120. 1298. 143.D409700200038 12.9 0.7 1034. 114. 1192. 131.D409700200039 12.5 0.3 1085. 119. 1148. 126.D409700200040 12.4 0.7 1045. 115. 1367. 150.D409700200041 12.05 0.4 1008. 111. 1216. 134.D409700200042 12. 0.7 968. 106. 1150. 126.D409700200043 11.6 0.7 985. 108. 1159. 128.D409700200044 11.5 0.4 972. 107. 1204. 132.D409700200045 11. 0.4 861. 95. 1132. 125.D409700200046 10.4 0.4 906. 100. 971. 107.D409700200047 9.9 0.5 773. 85. 943. 104.D409700200048 9.3 0.5 606. 67. 881. 97.D409700200049 8.7 0.6 682. 75. 746. 82.D409700200050 8. 0.7 456. 50. 508. 56.D409700200051 7.3 0.7 388. 43. 442. 49.D409700200052 6.8 0.8 219. 24. 268. 29.D409700200053 6.2 0.8 152. 17. D409700200054 5.6 0.9 71. 8. 67. 7.D409700200055 5.1 0.9 38. 4. 54. 6.D409700200056 4.6 1. 15. 2. D409700200057 4.1 1. 4. 0.4 D409700200058 ENDDATA 46 0 D409700200059 ENDSUBENT 58 0 D409700299999 SUBENT D4097003 20020410 0000D409700300001 BIB 3 11 D409700300002 REACTION 1(45-RH-103(D,X)45-RH-102-M,,SIG) D409700300003 2(45-RH-103(D,X)45-RH-102-G,,SIG) D409700300004 DECAY-DATA1(45-RH-102-M,2.9YR,DG,695.6,0.450, D409700300005 DG,766.,0.34,DG,1046.6,0.33) D409700300006 2(45-RH-102-G,207.D,DG,468.6,0.026, D409700300007 DG,556.,0.019, D409700300008 DG,1103.,0.0289) D409700300009 The 695.6 KeV line includes the contribution of the D409700300010 697.6 KeV line D409700300011 STATUS Data were taken from Table 5 of the original paper. D409700300012 Approved by S. Takacs. D409700300013 ENDBIB 11 0 D409700300014 NOCOMMON 0 0 D409700300015 DATA 6 34 D409700300016 EN EN-ERR DATA 1ERR-T 1DATA 2ERR-T 2D409700300017 MEV MEV MB MB MB MB D409700300018 20.2 0.2 14.7 1.6 39.3 4.3D409700300019 19.8 0.2 12.7 1.4 33.8 3.7D409700300020 19.4 0.3 11.2 1.2 31.9 3.5D409700300021 19.1 0.3 7.7 0.8 24.3 2.7D409700300022 18.8 0.3 7.1 0.8 27.7 3.D409700300023 18.5 0.3 5.2 0.6 26.3 2.9D409700300024 18.1 0.4 4.5 0.5 23.5 2.6D409700300025 17.7 0.4 3.4 0.4 23.7 2.6D409700300026 17.3 0.4 2.6 0.3 22.9 2.5D409700300027 17. 0.4 1.7 0.2 20.3 2.2D409700300028 16.7 0.5 1.7 0.2 20.4 2.2D409700300029 16.3 0.5 1.3 0.1 18.9 2.1D409700300030 15.9 0.5 1.4 0.2 17.1 1.9D409700300031 15.4 0.5 0.9 0.1 17. 1.9D409700300032 15. 0.6 0.9 0.1 17.7 1.9D409700300033 14.7 0.6 0.6 0.1 16.2 1.8D409700300034 14.4 0.2 18. 2.D409700300035 14.3 0.6 15.5 1.7D409700300036 14. 0.3 14.5 1.6D409700300037 13.8 0.6 15.3 1.7D409700300038 13.4 0.7 13.7 1.5D409700300039 13. 0.3 14.7 1.6D409700300040 12.9 0.7 12.7 1.4D409700300041 12.5 0.3 16.9 1.9D409700300042 12.4 0.7 12.3 1.4D409700300043 12. 0.4 10.7 1.2D409700300044 11.95 0.7 8.5 0.9D409700300045 11.6 0.7 9.2 1.D409700300046 11.5 0.4 10.2 1.1D409700300047 11. 0.4 8.2 0.9D409700300048 10.4 0.4 7.2 0.8D409700300049 9.9 0.5 5.1 0.6D409700300050 9.3 0.5 2.6 0.3D409700300051 8.7 0.6 2. 0.2D409700300052 ENDDATA 36 0 D409700300053 ENDSUBENT 52 0 D409700399999 SUBENT D4097004 20070307 D053D409700400001 BIB 3 9 D409700400002 REACTION 1(45-RH-103(D,X)45-RH-101-M,,SIG) D409700400003 2(45-RH-103(D,X)45-RH-101-G,,SIG) D409700400004 DECAY-DATA1(45-RH-101-M,4.34D,DG,306.8,0.860, D409700400005 DG,545.,0.0396) D409700400006 2(45-RH-101-G,3.3YR,DG,127.2,0.730, D409700400007 DG,197.9,0.708, D409700400008 DG,325.,0.134) D409700400009 STATUS Data were taken from Table 5 of the original paper. D409700400010 Approved by S. Takacs. D409700400011 ENDBIB 9 0 D409700400012 NOCOMMON 0 0 D409700400013 DATA 6 11 D409700400014 EN EN-ERR DATA 1ERR-T 1DATA 2ERR-T 2D409700400015 MEV MEV MB MB MB MB D409700400016 20.2 0.2 0.5 0.06 0.6 0.07D409700400017 19.8 0.2 0.3 0.03 D409700400018 19.4 0.3 0.5 0.06 D409700400019 19.1 0.3 0.3 0.03 D409700400020 18.8 0.3 0.2 0.02 D409700400021 18.5 0.3 0.2 0.02D409700400022 18.1 0.4 0.1 0.01 D409700400023 17.7 0.4 0.1 0.01D409700400024 17.3 0.4 0.1 0.01D409700400025 17. 0.4 0.1 0.01D409700400026 14.7 0.6 0.1 0.01D409700400027 ENDDATA 13 0 D409700400028 ENDSUBENT 27 0 D409700499999 ENDENTRY 4 0 D409799999999