ENTRY D4115 20151007 D101D411500000001 SUBENT D4115001 20151007 D101D411500100001 BIB 11 37 D411500100002 TITLE Evaluation of proton induced reactions on 100Mo: D411500100003 New cross sections for production of 99mTc and 99Mo D411500100004 AUTHOR (S.Takacs,Z.Szucs,F.Tarkanyi,A.Hermanne,M.Sonck) D411500100005 INSTITUTE (3HUNDEB) Inst. of Nucl. Res. Debrecen, Hungary D411500100006 (2BLGVUB) Free University of Brussels, Belgium, D411500100007 REFERENCE (J,JRN,257,195,2003) D411500100008 FACILITY (CYCLO,2BLGVUB) CGR 560 cyclotron of VUB D411500100009 SAMPLE High purity metallic foils (>99.9%) from Goodfellow. D411500100010 Mo 11.98 micron D411500100011 Al 26.0 micron D411500100012 Ti 12.05 micron D411500100013 Ni 25.6 micron D411500100014 Cu 23.83 micron D411500100015 METHOD (ACTIV,EXTB,STTA,GSPEC) Stacked target technique was D411500100016 used. Stacks contained foils in a Mo-Al-Cu-Ni-Ti D411500100017 sequence. Al foil served as energy degrader and catcherD411500100018 Cu-Ni-Ti foils were used as monitors. Beam current was D411500100019 measured in Faraday-Cup. Irradiation lasted about 30 D411500100020 min. With 200 nA beam current at 25 and 39.1 MeV. D411500100021 Decay data were taken from E.Browne, R.Firestone, TableD411500100022 of Radioactive Isotopes, V.S.Shirley [Ed], Wiley, D411500100023 London, 1986. D411500100024 DETECTOR (HPGE) High purity Ge gamma detector D411500100025 MONITOR (29-CU-0(P,X)30-ZN-62,,SIG) D411500100026 (28-NI-0(P,X)28-NI-57,,SIG) D411500100027 (22-TI-0(P,X)23-V-48,,SIG)Several monitor foils D411500100028 and target foils were placed in the same stack. This D411500100029 way the whole excitation function of the monitor D411500100030 reaction was remeasured and compared with the D411500100031 recommended values. It made possible simultaneous D411500100032 determination of the bombarding energy and beam D411500100033 intensity. Also in to check the energy degradation D411500100034 along the stack. D411500100035 MONIT-REF (,F.TARKANYI+,R,IAEA-1211,2001) chapter 4 D411500100036 HISTORY (20030327C) TS D411500100037 (20040426U) reference was updated D411500100038 (20151007A) VS. Data in 002 superseded. D411500100039 ENDBIB 37 0 D411500100040 NOCOMMON 0 0 D411500100041 ENDSUBENT 40 0 D411500199999 SUBENT D4115002 20151007 D101D411500200001 BIB 5 25 D411500200002 REACTION 1(42-MO-100(P,X)42-MO-99,,SIG) D411500200003 2(42-MO-100(P,2N)43-TC-99-M,,SIG) D411500200004 DECAY-DATA1(42-MO-99,65.94HR,DG,140.511,0.8943, D411500200005 DG,181.069,0.0599, D411500200006 DG,739.5,0.1213) D411500200007 2(43-TC-99-M,6.01HR,DG,140.511,0.89) D411500200008 ERR-ANALYS (EN-ERR)The uncertainty of the primary beam energy was D411500200009 +-0.3 MeV. The energy attenuation was calculated by D411500200010 using the polynomial approximation of Andersen and D411500200011 Ziegler along the stacks. The mean energy uncertainty D411500200012 varies from +-0.3 to +-0.8 MeV along the stacks. D411500200013 (ERR-T)Total error of the data varied from 9% to 12%. D411500200014 Main contributing error components are: D411500200015 (ERR-1,5.,8.) Beam intensity 5-8% D411500200016 (ERR-2,3.,6.) Detector efficiency 3-6% D411500200017 (ERR-3,1.,5.) Peak area and counting statistics 1-5% D411500200018 (ERR-4,5.,15.) Separation of complex peaks 5-15% D411500200019 (ERR-5) Number of target nuclei 1% D411500200020 (ERR-6) Nuclear data 3% D411500200021 STATUS (TABLE) Numerical data were taken from Table 4. of the D411500200022 publication. D411500200023 (APRVD) Approved by S. Takacs. D411500200024 1(SPSDD,D4322005) D411500200025 2(SPSDD,D4322004) D411500200026 HISTORY (20151007A) VS. Data superseded. D411500200027 ENDBIB 25 0 D411500200028 COMMON 2 3 D411500200029 ERR-5 ERR-6 D411500200030 PER-CENT PER-CENT D411500200031 1.0 3.0 D411500200032 ENDCOMMON 3 0 D411500200033 DATA 6 24 D411500200034 EN EN-ERR DATA 1ERR-T 1DATA 2ERR-T 2D411500200035 MEV MEV MB MB MB MB D411500200036 5.7 0.78 0.7 0.7D411500200037 9. 0.71 34.7 11.5D411500200038 11.6 0.64 173.5 39.2D411500200039 13.8 0.58 15.7 1.5 205.8 32.5D411500200040 15.7 0.53 51.2 6.3 211.2 33.4D411500200041 17.5 0.48 73.6 7.9 208.3 33.4D411500200042 19.2 0.44 110.2 12.9 184.6 29.4D411500200043 19.8 0.76 120.1 15.3 163.2 18.3D411500200044 20.7 0.4 137.6 16. 150.9 24.1D411500200045 21.4 0.7 146.6 20.5 113.4 12.7D411500200046 22.2 0.36 161.7 19.2 113.5 18.7D411500200047 22.8 0.65 171.3 22.5 91.7 10.3D411500200048 23.6 0.33 174.4 20.2 63.5 10.8D411500200049 24.3 0.6 179. 29.1 45.5 5.1D411500200050 24.9 0.3 179.8 20.3 49.7 8.1D411500200051 26.1 0.56 174.1 26. 33.4 3.7D411500200052 27.8 0.51 173.3 20.9 18.3 2.1D411500200053 29.4 0.48 178.5 24. 17.1 1.9D411500200054 31. 0.44 178.8 20.5 14.5 1.6D411500200055 32.5 0.41 179.4 26.8 17.1 1.9D411500200056 33.9 0.38 178. 23.4 21. 2.4D411500200057 35.3 0.35 180. 23.2 15.4 1.7D411500200058 36.5 0.32 177.4 24. 21.5 2.4D411500200059 37.9 0.3 177.4 21.9 20.9 2.3D411500200060 ENDDATA 26 0 D411500200061 ENDSUBENT 60 0 D411500299999 ENDENTRY 2 0 D411599999999