ENTRY 41441 20130706 41614144100000001 SUBENT 41441001 20130706 41614144100100001 BIB 15 57 4144100100002 TITLE Proton- and neutron-induced fission on uranium 4144100100003 carbide target. 4144100100004 AUTHOR (A.Andrighetto, A.E.Barzakh, D.V.Fedorov, V.S.Ivanov, 4144100100005 G.Lhersonneau, F.V.Moroz, S.Yu.Orlov, V.N.Panteleev, 4144100100006 M.D.Seliverstov, I.M.Strachnov, L.Stroe, L.B.Tecchio, 4144100100007 Yu.M.Volkov, X.F.Wang) 4144100100008 INSTITUTE (4RUSLIN) Barzakh,Fedorov,Ivanov,Moroz,Orlov,Panteleev,4144100100009 Seliverstov, Strachnov,Volkov 4144100100010 (2ITYPAD) Andrighetto,Lhersonneau,Stroe,Tecchio,Wang 4144100100011 REFERENCE (J,EPJ/A,19,341,20040127) 4144100100012 SAMPLE The target materials consists of high density powder- 4144100100013 HDP-uranium carbide, obtained from the fragmentation 4144100100014 of high density rod uranium carbide, UC(2), of density 4144100100015 11.2 g/cm**3.The HDP-target of 8mm diameter and 28mm 4144100100016 length has a volume of 1.4 cm**3 4144100100017 and contains about 10-grams of uranium with an 4144100100018 effective density of 7.36 g/cm**3, corresponding to a 4144100100019 target thickness of about 20 g/cm**2.The Average grain 4144100100020 size was about 10-20-mum. The using of graphite 4144100100021 container in tungsten container allows to keep target 4144100100022 temperature as high as needed and to preserve from 4144100100023 aggressive chemical corrosion of uranium. 4144100100024 ADD-RES The overall efficiencies as a function of the target 4144100100025 temperature have been measured. 4144100100026 INC-SOURCE 1 GeV Proton beam is transported over a distance of 4144100100027 60-m to the target area, is deflected by a magnet to 4144100100028 impinge on tantalum converter of 20mm*15mm*60mm sizes 4144100100029 to generate fast neutrons 4144100100030 INC-SPECT EN-DUMMY - energy of fast neutron, produced in 4144100100031 tantalum converter by 1 GeV proton beam, was not 4144100100032 pointed in the article. 4144100100033 DETECTOR (GELI) 160-cm**3 Ge(Li)-detector of 1.2% total peak 4144100100034 efficiency at 1.3-MeV placed at about 1.5 cm from the 4144100100035 tape. 4144100100036 FACILITY (SYNCY,4RUSLIN) 4144100100037 (OLMS,4RUSLIN) The IRIS-ISOL-System. 4144100100038 METHOD (ASEP) A tape transport system in start-stop regime for4144100100039 identification mass-separated nuclides and for 4144100100040 transporting activity to gamma-detector 4144100100041 COMMENT .By Authors. The observed yields of neutron-rich 4144100100042 rubidium, indium and cesium isotopes, given as ion per 4144100100043 microCoulomb determined at the exit of the typical 4144100100044 surface-ionization ion sources made in tungsten were 4144100100045 reported on figures. 4144100100046 Target and ion source temperature interval 4144100100047 2100-2400 Celcius degrees. 4144100100048 Temperature value 2100 was used for MCNPX code. 4144100100049 ERR-ANALYS (DATA-ERR).The error is reported by authors on Fig. 4144100100050 The error bars take into account common systematic 4144100100051 errors connected to the experimental set-up and 4144100100052 specific errors on the gamma-counting. 4144100100053 STATUS (CURVE).By S.A.Maev. 4144100100054 HISTORY (20050425C) M.M. (CJD) 4144100100055 (20050425U) Last checking has been done. 4144100100056 (20130706A) REACTIONs were corrected: PRE -> IND 4144100100057 according to comment of N.Otsuka (NDS,IAEA). 4144100100058 EN-SEC lines were moved in INC-SPECT. 4144100100059 ENDBIB 57 0 4144100100060 COMMON 2 3 4144100100061 EN-DUMMY TEMP 4144100100062 MEV DEG-C 4144100100063 20. 2100. 4144100100064 ENDCOMMON 3 0 4144100100065 ENDSUBENT 64 0 4144100199999 SUBENT 41441002 20130706 41614144100200001 BIB 2 3 4144100200002 REACTION (92-U-0(N,F)ELEM/MASS,IND,FY,,REL) 4144100200003 STATUS From Fig.3 of J,EPJ/A,19,341,2004 4144100200004 Data units on figure - 1/microCoulomb 4144100200005 ENDBIB 3 0 4144100200006 COMMON 1 3 4144100200007 ELEMENT 4144100200008 NO-DIM 4144100200009 49. 4144100200010 ENDCOMMON 3 0 4144100200011 DATA 3 9 4144100200012 MASS DATA DATA-ERR 4144100200013 NO-DIM ARB-UNITS PER-CENT 4144100200014 119. 1.09E+07 16. 4144100200015 120. 4.8E+06 21. 4144100200016 121. 1.32E+07 21. 4144100200017 122. 5.6E+06 5. 4144100200018 123. 1.02E+07 6. 4144100200019 124. 4.5E+06 20. 4144100200020 125. 3.5E+06 30. 4144100200021 126. 5.3E+05 30. 4144100200022 127. 2.E+05 50. 4144100200023 ENDDATA 11 0 4144100200024 ENDSUBENT 23 0 4144100299999 SUBENT 41441003 20130706 41614144100300001 BIB 2 3 4144100300002 REACTION (92-U-0(N,F)ELEM/MASS,IND,FY,,REL) 4144100300003 STATUS From Fig.4 of J,EPJ/A,19,341,2004 4144100300004 Data units on figure - 1/microCoulomb 4144100300005 ENDBIB 3 0 4144100300006 COMMON 1 3 4144100300007 ELEMENT 4144100300008 NO-DIM 4144100300009 37. 4144100300010 ENDCOMMON 3 0 4144100300011 DATA 3 5 4144100300012 MASS DATA DATA-ERR 4144100300013 NO-DIM ARB-UNITS PER-CENT 4144100300014 90. 3.E+08 17. 4144100300015 92. 7.E+06 40. 4144100300016 93. 4.23E+07 5. 4144100300017 94. 2.64E+07 5. 4144100300018 95. 1.5E+07 27. 4144100300019 ENDDATA 7 0 4144100300020 ENDSUBENT 19 0 4144100399999 SUBENT 41441004 20130706 41614144100400001 BIB 2 3 4144100400002 REACTION (92-U-0(N,F)ELEM/MASS,IND,FY,,REL) 4144100400003 STATUS From Fig.5 of J,EPJ/A,19,341,2004 4144100400004 Data units on figure - 1/microCoulomb 4144100400005 ENDBIB 3 0 4144100400006 COMMON 1 3 4144100400007 ELEMENT 4144100400008 NO-DIM 4144100400009 55. 4144100400010 ENDCOMMON 3 0 4144100400011 DATA 3 6 4144100400012 MASS DATA DATA-ERR 4144100400013 NO-DIM ARB-UNITS PER-CENT 4144100400014 140. 1.62E+08 14. 4144100400015 141. 1.6E+08 19. 4144100400016 142. 4.3E+07 19. 4144100400017 143. 3.3E+07 24. 4144100400018 144. 5.22E+06 4. 4144100400019 145. 2.8E+06 80. 4144100400020 ENDDATA 8 0 4144100400021 ENDSUBENT 20 0 4144100499999 SUBENT 41441005 20130706 41614144100500001 BIB 4 8 4144100500002 REACTION ((92-U-0(N,F)ELEM/MASS,IND,FY)/ 4144100500003 (92-U-0(P,F)ELEM/MASS,IND,FY)) 4144100500004 COMMENT *by Authors*.The ratio cross-sections Sigma(N)(Z,A)/ 4144100500005 Sigma(P)(Z,A) in the present experiment is reproduced 4144100500006 with a FWHM=1.65. See REL-REF. 4144100500007 REL-REF (R,,G.Lhersonneau+,J,EPJ/A,9,385,2000) 4144100500008 (R,,L.Stroe+,J,EPJ/A,17,57,2003) 4144100500009 STATUS From Fig.6 of J,EPJ/A,19,341,2004 4144100500010 ENDBIB 8 0 4144100500011 COMMON 1 3 4144100500012 ELEMENT 4144100500013 NO-DIM 4144100500014 49. 4144100500015 ENDCOMMON 3 0 4144100500016 DATA 3 9 4144100500017 MASS DATA DATA-ERR 4144100500018 NO-DIM NO-DIM NO-DIM 4144100500019 119. 0.71 7.E-02 4144100500020 120. 0.83 4.E-02 4144100500021 121. 1.62 0.21 4144100500022 122. 1.83 0.12 4144100500023 123. 2.71 9.E-02 4144100500024 124. 3.36 0.21 4144100500025 125. 3.7 0.5 4144100500026 126. 3.1 1. 4144100500027 127. 4.2 1.7 4144100500028 ENDDATA 11 0 4144100500029 ENDSUBENT 28 0 4144100599999 SUBENT 41441006 20130706 41614144100600001 BIB 4 8 4144100600002 REACTION ((92-U-0(N,F)ELEM/MASS,IND,FY)/ 4144100600003 (92-U-0(P,F)ELEM/MASS,IND,FY)) 4144100600004 COMMENT *by Authors*.The ratio cross-sections Sigma(N)(Z,A)/ 4144100600005 Sigma(P)(Z,A) in the present experiment is reproduced 4144100600006 with a FWHM =1.65. See REL-REF. 4144100600007 REL-REF (R,,G.Lhersonneau+,J,EPJ/A,9,385,2000) 4144100600008 (R,,L.Stroe+,J,EPJ/A,17,57,2003) 4144100600009 STATUS From Fig.7 of J,EPJ/A,19,341,2004 4144100600010 ENDBIB 8 0 4144100600011 COMMON 1 3 4144100600012 ELEMENT 4144100600013 NO-DIM 4144100600014 37. 4144100600015 ENDCOMMON 3 0 4144100600016 DATA 3 5 4144100600017 MASS DATA DATA-ERR 4144100600018 NO-DIM NO-DIM NO-DIM 4144100600019 90. 2.17 4.E-02 4144100600020 92. 3.37 7.E-02 4144100600021 93. 4.93 0.12 4144100600022 94. 5.05 4.E-02 4144100600023 95. 4.3 0.4 4144100600024 ENDDATA 7 0 4144100600025 ENDSUBENT 24 0 4144100699999 SUBENT 41441007 20130706 41614144100700001 BIB 4 8 4144100700002 REACTION ((92-U-0(N,F)ELEM/MASS,IND,FY)/ 4144100700003 (92-U-0(P,F)ELEM/MASS,IND,FY)) 4144100700004 COMMENT *by Authors*.The ratio cross-sections Sigma(N)(Z,A)/ 4144100700005 Sigma(P)(Z,A) in the present experiment is reproduced 4144100700006 with a FWHM=1.65. See REL-REF. 4144100700007 REL-REF (R,,G.Lhersonneau+,J,EPJ/A,9,385,2000) 4144100700008 (R,,L.Stroe+,J,EPJ/A,17,57,2003) 4144100700009 STATUS From Fig.8 of J,EPJ/A,19,341,2004 4144100700010 ENDBIB 8 0 4144100700011 COMMON 1 3 4144100700012 ELEMENT 4144100700013 NO-DIM 4144100700014 55. 4144100700015 ENDCOMMON 3 0 4144100700016 DATA 3 5 4144100700017 MASS DATA DATA-ERR 4144100700018 NO-DIM NO-DIM NO-DIM 4144100700019 140. 4.739 2.6E-02 4144100700020 141. 5.27 9.E-02 4144100700021 142. 5.66 0.12 4144100700022 143. 5.38 7.E-02 4144100700023 144. 6.92 0.18 4144100700024 ENDDATA 7 0 4144100700025 ENDSUBENT 24 0 4144100799999 ENDENTRY 7 0 4144199999999