ENTRY D4398 20190331 D120D439800000001 SUBENT D4398001 20190331 D120D439800100001 BIB 14 45 D439800100002 TITLE Extension of experimental activation cross-sections D439800100003 database of deuteron induced nuclear reactions on D439800100004 manganese up to 50 MeV D439800100005 AUTHOR (F.Tarkanyi,F.Ditroi,S.Takacs,A.Hermanne,A.V.Ignatyuk) D439800100006 INSTITUTE (3HUNDEB,2BLGVUB,4RUSFEI) D439800100007 REFERENCE (J,JRN,320,145,2019) D439800100008 #doi:10.1007/s10967-019-06423-x D439800100009 SAMPLE The target material was a Ni-Mn-Cu alloy with known D439800100010 composition (Ni:2%, Mn:12%, Cu:86%). D439800100011 FACILITY (CYCLO,2BLGLVN) D439800100012 DETECTOR (HPGE) D439800100013 METHOD (ACTIV,EXTB,EDEG,GSPEC,MOSEP,STTA) D439800100014 Stacked target techniqe, activation metod and high D439800100015 resolution gamma spectrometry were used. D439800100016 Irradiation was performed at 50MeV and 100nA deuteon D439800100017 beam. and in principle D439800100018 The investigated products 56,54,52Mn, 48V and 51Cr may D439800100019 be produced in different nuclear reactions on the threeD439800100020 components of the alloy. D439800100021 Nuclear data were taken from NUDAT. D439800100022 CORRECTION Contribution of reactions to production of different D439800100023 radionuclides on Ni and Cu were deduced. D439800100024 MONITOR (13-AL-27(D,X)11-NA-24,,SIG) D439800100025 (13-AL-27(D,X)11-NA-22,,SIG) D439800100026 MONIT-REF (,,R,IAEA-NDS-1211,2001) D439800100027 ERR-ANALYS (EN-ERR)The uncertainty on the median energy in the D439800100028 foils includes the cumulative effects of uncertainty ofD439800100029 incident beam energy, uncertainty of stopping power of D439800100030 each foil due to thickness variation and straggling D439800100031 effects. D439800100032 (DATA-ERR)The uncertainty on the cross section values D439800100033 are estimated in the standard way following the D439800100034 recommendations of the ISO-guide as the square root of D439800100035 the quadratic summation of the independently D439800100036 contributing parameters. Numerical values of the D439800100037 contributing error components are not presented. D439800100038 Uncertainty of time parameters is not included. D439800100039 ADD-RES (THEO) The experimental data were compared to the D439800100040 results of the theoretical model code using TENDL-2017,D439800100041 ALICE-IPPE-D and EMPIRE-D. D439800100042 (COMP) The measured experimental data were compared to D439800100043 those found in the literature. D439800100044 (TTY-C) Fitted excitation functions were used for D439800100045 determination of integral physical yields. D439800100046 HISTORY (20190331C) TS. D439800100047 ENDBIB 45 0 D439800100048 NOCOMMON 0 0 D439800100049 ENDSUBENT 48 0 D439800199999 SUBENT D4398002 20190331 D120D439800200001 BIB 3 4 D439800200002 REACTION (25-MN-55(D,X)25-MN-56,,SIG) D439800200003 DECAY-DATA (25-MN-56,2.5789HR,DG,846.7638,0.9885, D439800200004 DG,1810.726,0.269) D439800200005 STATUS (TABLE) Data were taken from Table 3 of the article. D439800200006 ENDBIB 4 0 D439800200007 NOCOMMON 0 0 D439800200008 DATA 4 20 D439800200009 EN EN-ERR DATA DATA-ERR D439800200010 MEV MEV MB MB D439800200011 49.9 0.3 27.4 3.3 D439800200012 47.9 0.3 31.6 4.1 D439800200013 45.8 0.4 33.0 4.3 D439800200014 43.7 0.4 34.7 4.2 D439800200015 41.5 0.4 35.8 4.4 D439800200016 39.1 0.5 38.1 4.8 D439800200017 36.7 0.5 38.5 4.8 D439800200018 34.2 0.6 42.6 5.2 D439800200019 32.8 0.6 42.1 5.2 D439800200020 31.5 0.7 49.1 6.0 D439800200021 30.1 0.8 49.0 6.0 D439800200022 28.6 0.9 57.4 7.0 D439800200023 27.1 0.9 64.1 7.8 D439800200024 23.8 1.0 67.3 8.2 D439800200025 22.1 1.1 72.8 8.8 D439800200026 20.2 1.3 83.4 10.1 D439800200027 18.2 1.4 94.3 11.4 D439800200028 16.0 1.5 115.7 13.9 D439800200029 13.6 1.7 136.6 16.4 D439800200030 12.3 1.8 179.3 21.5 D439800200031 ENDDATA 22 0 D439800200032 ENDSUBENT 31 0 D439800299999 SUBENT D4398003 20190331 D120D439800300001 BIB 3 3 D439800300002 REACTION (25-MN-55(D,X)25-MN-54,,SIG) D439800300003 DECAY-DATA (25-MN-54,312.20D,DG,834.848,0.99976) D439800300004 STATUS (TABLE) Data were taken from Table 3 of the article. D439800300005 ENDBIB 3 0 D439800300006 NOCOMMON 0 0 D439800300007 DATA 4 20 D439800300008 EN EN-ERR DATA DATA-ERR D439800300009 MEV MEV MB MB D439800300010 49.9 0.3 371.6 44.4 D439800300011 47.9 0.3 395.5 47.2 D439800300012 45.8 0.4 406.6 48.6 D439800300013 43.7 0.4 424.5 50.7 D439800300014 41.5 0.4 444.3 53.0 D439800300015 39.1 0.5 471.2 56.3 D439800300016 36.7 0.5 495.2 59.1 D439800300017 34.2 0.6 504.7 60.2 D439800300018 32.8 0.6 504.9 60.3 D439800300019 31.5 0.7 482.7 57.6 D439800300020 30.1 0.8 457.6 54.7 D439800300021 28.6 0.9 423.5 50.5 D439800300022 27.1 0.9 393.6 47.0 D439800300023 23.8 1.0 324.1 38.7 D439800300024 22.1 1.1 244.6 29.2 D439800300025 20.2 1.3 162.6 19.5 D439800300026 18.2 1.4 79.3 9.5 D439800300027 16.0 1.5 32.4 4.0 D439800300028 13.6 1.7 18.6 2.4 D439800300029 12.3 1.8 14.1 1.8 D439800300030 ENDDATA 22 0 D439800300031 ENDSUBENT 30 0 D439800399999 SUBENT D4398004 20190331 D120D439800400001 BIB 3 5 D439800400002 REACTION (25-MN-55(D,X)25-MN-52,CUM,SIG) D439800400003 DECAY-DATA (25-MN-52-G,5.591D,DG,744.233,0.900, D439800400004 DG,935.544,0.945, D439800400005 DG,1434.092,1.0) D439800400006 STATUS (TABLE) Data were taken from Table 3 of the article. D439800400007 ENDBIB 5 0 D439800400008 NOCOMMON 0 0 D439800400009 DATA 4 15 D439800400010 EN EN-ERR DATA DATA-ERR D439800400011 MEV MEV MB MB D439800400012 49.9 0.3 21.2 2.5 D439800400013 47.9 0.3 13.9 1.7 D439800400014 45.8 0.4 9.1 1.1 D439800400015 43.7 0.4 5.1 0.6 D439800400016 41.5 0.4 3.5 0.4 D439800400017 39.1 0.5 2.6 0.3 D439800400018 36.7 0.5 2.0 0.3 D439800400019 34.2 0.6 1.01 0.13 D439800400020 32.8 0.6 0.92 0.13 D439800400021 31.5 0.7 0.57 0.10 D439800400022 30.1 0.8 0.54 0.09 D439800400023 28.6 0.9 0.64 0.08 D439800400024 27.1 0.9 0.47 0.07 D439800400025 23.8 1.0 0.34 0.05 D439800400026 22.1 1.1 0.27 0.03 D439800400027 ENDDATA 17 0 D439800400028 ENDSUBENT 27 0 D439800499999 SUBENT D4398005 20190331 D120D439800500001 BIB 3 3 D439800500002 REACTION (25-MN-55(D,X)24-CR-51,(CUM),SIG) D439800500003 DECAY-DATA (24-CR-51,27.7025D,DG,320.0824,0.0991) D439800500004 STATUS (TABLE) Data were taken from Table 3 of the article. D439800500005 ENDBIB 3 0 D439800500006 NOCOMMON 0 0 D439800500007 DATA 4 15 D439800500008 EN EN-ERR DATA DATA-ERR D439800500009 MEV MEV MB MB D439800500010 49.9 0.3 55.5 6.7 D439800500011 47.9 0.3 64.6 7.8 D439800500012 45.8 0.4 70.9 8.7 D439800500013 43.7 0.4 80.7 9.8 D439800500014 41.5 0.4 93.3 11.2 D439800500015 39.1 0.5 101.6 12.2 D439800500016 36.7 0.5 107.3 12.9 D439800500017 34.2 0.6 104.3 12.5 D439800500018 32.8 0.6 94.7 11.4 D439800500019 31.5 0.7 85.0 10.2 D439800500020 30.1 0.8 69.4 8.4 D439800500021 28.6 0.9 56.3 6.7 D439800500022 27.1 0.9 40.3 4.9 D439800500023 23.8 1.0 23.8 2.9 D439800500024 22.1 1.1 9.2 1.1 D439800500025 ENDDATA 17 0 D439800500026 ENDSUBENT 25 0 D439800599999 SUBENT D4398006 20190331 D120D439800600001 BIB 3 4 D439800600002 REACTION (25-MN-55(D,X)23-V-48,(CUM),SIG) D439800600003 DECAY-DATA (23-V-48,15.9735D,DG,983.525,0.9998, D439800600004 DG,1312.106,0.982) D439800600005 STATUS (TABLE) Data were taken from Table 3 of the article. D439800600006 ENDBIB 4 0 D439800600007 NOCOMMON 0 0 D439800600008 DATA 4 4 D439800600009 EN EN-ERR DATA DATA-ERR D439800600010 MEV MEV MB MB D439800600011 49.9 0.3 0.28 0.06 D439800600012 47.9 0.3 0.18 0.05 D439800600013 45.8 0.4 0.10 0.09 D439800600014 41.5 0.4 0.13 0.07 D439800600015 ENDDATA 6 0 D439800600016 ENDSUBENT 15 0 D439800699999 ENDENTRY 6 0 D439899999999