ENTRY D4348 20160518 D105D4348 0 1 SUBENT D4348001 20160518 D105D4348 1 1 BIB 13 44 D4348 1 2 TITLE Investigation of deuteron-induced reactions on natGd D4348 1 3 up to 30 MeV: possibility of production of medically D4348 1 4 relevant 155Tb and 161Tb radioisotopes D4348 1 5 AUTHOR (F.Szelecsenyi,Z.Kovacs,K.Nagatsu,M.R.Zhang,K.Suzuki) D4348 1 6 INSTITUTE (3HUNDEB,2JPNIRS) D4348 1 7 REFERENCE (J,JRN,307,1877,2016) D4348 1 8 #doi:10.1007/s10967-015-4528-0 D4348 1 9 FACILITY (CYCLO,3HUNDEB) D4348 1 10 (CYCLO,2JPNIRS) D4348 1 11 SAMPLE High purity Gd foils, thickness:8.61, 23.4, 31.87 um D4348 1 12 Ti monitor foils:10, 20 and 25 um. D4348 1 13 DETECTOR (HPGE) D4348 1 14 METHOD (ACTIV) Cross sections were measured by using charged D4348 1 15 particle activation method. D4348 1 16 (GSPEC) Activity measurement of the reaction products D4348 1 17 was done by Gamma-spectrometry based on HPGe detectors.D4348 1 18 (STTA)A stacked foils target technique D4348 1 19 Irradiations: 10MeV, 50nA, 2.6h, 5 Gd foils, 31.87um D4348 1 20 10MeV, 50nA, 2.06h, 5 Gd foils, 31.87 um D4348 1 21 30.24MeV, 50nA, 1.5h, 10 Gd foils, 8.61 and 23.4 um D4348 1 22 (EDEG)Energy degradation was calculated by using the D4348 1 23 polynomial approximation of Andersen ad Ziegler. D4348 1 24 (EXTB)The irradiation was done on an extracted beam of D4348 1 25 the cyclotrons. D4348 1 26 The activities of the produced radionuclides were D4348 1 27 measured nondestructively without chemical separation. D4348 1 28 The energy degradation as a function of depth in the D4348 1 29 stack was calculated from the input energy and target D4348 1 30 thicknesses. D4348 1 31 MONITOR (22-TI-0(D,X)23-V-48,,SIG) D4348 1 32 MONIT-REF (,K.Gul+,R,IAEA-NDS-1211,2001) Chapter 4 D4348 1 33 ERR-ANALYS (EN-ERR) the uncertainties of the primary incident D4348 1 34 deuteron beams and the target thicknesses taking also D4348 1 35 into account the energy straggling. D4348 1 36 (DATA-ERR) No information on sources of uncertainty. D4348 1 37 Typical total uncertainty is between 14%. D4348 1 38 No details on the propagetad error components D4348 1 39 were given. D4348 1 40 ADD-RES (THEO) The experimental results were compared to the D4348 1 41 result calculated by the TENDL theoretical D4348 1 42 model code. D4348 1 43 (TTY-C) Integral yields were calculated from the D4348 1 44 fitted experimental cross sections. D4348 1 45 HISTORY (20160518C) ts. D4348 1 46 ENDBIB 44 0 D4348 1 47 NOCOMMON 0 0 D4348 1 48 ENDSUBENT 47 0 D4348 199999 SUBENT D4348002 20160513 D105D4348 2 1 BIB 3 3 D4348 2 2 REACTION (64-GD-0(D,X)65-TB-155,,SIG) D4348 2 3 DECAY-DATA (65-TB-155,5.32D,DG,180.08,,DG,1340.67) D4348 2 4 STATUS (TABLE) Table 2. of the article D4348 2 5 ENDBIB 3 0 D4348 2 6 NOCOMMON 0 0 D4348 2 7 DATA 4 11 D4348 2 8 EN EN-ERR DATA DATA-ERR D4348 2 9 MEV MEV MB MB D4348 2 10 6.5 1.0 1.1 0.1 D4348 2 11 6.7 0.4 4.1 0.6 D4348 2 12 7.7 0.3 10.6 1.1 D4348 2 13 8.2 0.9 23.2 2.5 D4348 2 14 8.2 0.3 23.5 3.2 D4348 2 15 9.1 0.2 32.9 3.8 D4348 2 16 9.6 0.2 52.0 6.5 D4348 2 17 12.3 0.8 110.0 12.0 D4348 2 18 15.5 0.6 203.0 21.0 D4348 2 19 18.3 0.5 250.0 26.0 D4348 2 20 21.1 0.4 269.0 28.0 D4348 2 21 ENDDATA 13 0 D4348 2 22 ENDSUBENT 21 0 D4348 299999 SUBENT D4348003 20160513 D105D4348 3 1 BIB 3 3 D4348 3 2 REACTION (64-GD-0(D,X)65-TB-156,,SIG) D4348 3 3 DECAY-DATA (65-TB-156-G,5.35D,DG,534.29,,DG,1222.44) D4348 3 4 STATUS (TABLE) Table 2. of the article D4348 3 5 ENDBIB 3 0 D4348 3 6 NOCOMMON 0 0 D4348 3 7 DATA 4 11 D4348 3 8 EN EN-ERR DATA DATA-ERR D4348 3 9 MEV MEV MB MB D4348 3 10 6.5 1.0 0.7 0.1 D4348 3 11 6.7 0.4 3.1 0.4 D4348 3 12 7.7 0.3 10.6 1.2 D4348 3 13 8.2 0.9 42.2 5.2 D4348 3 14 8.2 0.3 23.6 2.6 D4348 3 15 9.1 0.2 42.7 4.7 D4348 3 16 9.6 0.2 67.6 7.4 D4348 3 17 12.3 0.8 174.0 21.0 D4348 3 18 15.5 0.6 234.0 25.0 D4348 3 19 18.3 0.5 240.0 26.0 D4348 3 20 21.1 0.4 236.0 25.0 D4348 3 21 ENDDATA 13 0 D4348 3 22 ENDSUBENT 21 0 D4348 399999 SUBENT D4348004 20160513 D105D4348 4 1 BIB 3 4 D4348 4 2 REACTION (64-GD-0(D,X)65-TB-160,,SIG) D4348 4 3 Only the 160Gd(d,2n) reaction contributes. D4348 4 4 DECAY-DATA (65-TB-160,72.3D,DG,879.38) D4348 4 5 STATUS (TABLE) Table 2. of the article D4348 4 6 ENDBIB 4 0 D4348 4 7 NOCOMMON 0 0 D4348 4 8 DATA 4 12 D4348 4 9 EN EN-ERR DATA DATA-ERR D4348 4 10 MEV MEV MB MB D4348 4 11 4.2 0.4 0.3 0.1 D4348 4 12 4.9 0.5 0.3 0.1 D4348 4 13 6.5 1.0 4.3 0.7 D4348 4 14 6.7 0.4 6.3 0.8 D4348 4 15 7.7 0.3 15.9 1.8 D4348 4 16 8.2 0.9 25.1 2.8 D4348 4 17 8.2 0.3 32.7 3.9 D4348 4 18 9.1 0.2 56.3 6.3 D4348 4 19 9.6 0.2 81.5 9.2 D4348 4 20 12.3 0.8 100.0 12.0 D4348 4 21 15.5 0.6 74.3 9.4 D4348 4 22 18.3 0.5 48.9 5.5 D4348 4 23 ENDDATA 14 0 D4348 4 24 ENDSUBENT 23 0 D4348 499999 SUBENT D4348005 20160513 D105D4348 5 1 BIB 3 4 D4348 5 2 REACTION (64-GD-0(D,X)65-TB-161,,SIG) D4348 5 3 Only the 160Gd(d,n) reaction contributes. D4348 5 4 DECAY-DATA (65-TB-161,6.89D,DG,74.57) D4348 5 5 STATUS (TABLE) Table 2. of the article D4348 5 6 ENDBIB 4 0 D4348 5 7 NOCOMMON 0 0 D4348 5 8 DATA 4 13 D4348 5 9 EN EN-ERR DATA DATA-ERR D4348 5 10 MEV MEV MB MB D4348 5 11 4.2 0.4 2.1 0.6 D4348 5 12 4.9 0.5 4.0 0.5 D4348 5 13 6.5 1.0 10.4 11.3 D4348 5 14 6.7 0.4 9.7 1.2 D4348 5 15 7.7 0.3 17.0 1.9 D4348 5 16 8.2 0.9 29.3 3.2 D4348 5 17 8.2 0.3 26.0 2.9 D4348 5 18 9.1 0.2 33.3 3.6 D4348 5 19 9.6 0.2 39.3 4.3 D4348 5 20 12.3 0.8 36.4 3.9 D4348 5 21 15.5 0.6 24.9 2.7 D4348 5 22 18.3 0.5 24.2 2.6 D4348 5 23 21.1 0.4 19.3 2.1 D4348 5 24 ENDDATA 15 0 D4348 5 25 ENDSUBENT 24 0 D4348 599999 ENDENTRY 5 0 D434899999999