ENTRY D4084 20010523 0000D408400000001 SUBENT D4084001 20010523 0000D408400100001 BIB 13 41 D408400100002 TITLE Possibility of production of 81Rb Via 80Kr(d,n) D408400100003 reaction at a small cyclotron D408400100004 AUTHOR (R.DOCZI, S.TAKACS, F.TARKANYI, B.SCHOLTEN, S.M.QAIM) D408400100005 INSTITUTE (3HUNDEB,2GERJUL) D408400100006 REFERENCE (J,RCA,88,135,2000) D408400100007 FACILITY (CYCLO,3HUNDEB),MGC 20E Cyclotron Debrecen D408400100008 (CYCLO,2GERJUL), CV 28 Cyclotron in Juelic D408400100009 SAMPLE Gas cells filled with natural krypton to a pressure D408400100010 of 1-2 bar absolute. D408400100011 METHOD (ACTIV,EXTB,STTA,GSPEC) D408400100012 Natural krypton was irradiated in stacked gas cells D408400100013 windowed 15 micron kapton. Primary deuteron energies D408400100014 were 14.2 9.9, 9.7 and 7.4 MeV. D408400100015 Beam current 0.1 microamp. Ti and Fe monitors were usedD408400100016 21 and 12 micron thick respectivelly. D408400100017 Charge integrated by Faraday-Cup. Nuclear D408400100018 data were taken from E.Brwne and R.B.Firestone Table D408400100019 of Radioactive Isotopes Ed.V.S.Shirley, Wiley 1986. D408400100020 The mean energy in the monitor foils and in the gas D408400100021 cells were calculated using tables of H.H.Andersen, D408400100022 J.F.Ziegler,Hydrogen Stopping Powers and Ranges in All D408400100023 Elements, Vol.3,Pergamon Press, New York, 1977. D408400100024 ERR-ANALYS (EN-ERR)The Error of the energy was calculated taking D408400100025 into account the initial uncertainty the sraggling of D408400100026 the beam and the errors in the thickness of the targetsD408400100027 The estimated energy scale error was +-0.3 MeV at the D408400100028 first cell and +-0.7 MeV at the last cell in the stack.D408400100029 (ERR-T) The error of the cross section data were D408400100030 estimated by summing up the squares of the individual D408400100031 relative errors and taking the square root of it. D408400100032 Detector efficiency was 5%. The overall uncertainty D408400100033 reached 13%. D408400100034 MONITOR 1(22-TI-0(D,X)23-V-48,,SIG) D408400100035 2(26-FE-0(D,X)27-CO-56,,SIG) D408400100036 MONIT-REF 1(,S.TAKACS+,J,ARI,48,657,1997), D408400100037 2(,S.TAKACS+,C,96DENTON,,659,1996) D408400100038 DETECTOR (HPGE) D408400100039 STATUS Data were taken from the Table 1. of the paper D408400100040 Approved by S. Takacs D408400100041 HISTORY (20010422C) D408400100042 (20010523U) Last checking has been done. D408400100043 ENDBIB 41 0 D408400100044 NOCOMMON 0 0 D408400100045 ENDSUBENT 44 0 D408400199999 SUBENT D4084002 20010523 0000D408400200001 BIB 3 4 D408400200002 REACTION (36-KR-80(D,N)37-RB-81,,SIG) D408400200003 RAD-DET (37-RB-81,DG) D408400200004 DECAY-DATA (37-RB-81,4.58HR,DG,190.4,0.643, D408400200005 DG,446.3,0.233) D408400200006 ENDBIB 4 0 D408400200007 NOCOMMON 0 0 D408400200008 DATA 4 13 D408400200009 EN EN-ERR DATA ERR-T D408400200010 MEV MEV MB MB D408400200011 4.1 0.6 30.3 3.9 D408400200012 5.2 0.4 150. 19. D408400200013 5.8 0.5 197. 24. D408400200014 6.5 0.5 337. 40. D408400200015 6.6 0.4 287. 33. D408400200016 7.3 0.4 376. 50. D408400200017 7.4 0.3 395. 48. D408400200018 8. 0.3 380. 48. D408400200019 8.3 0.7 361. 43. D408400200020 9.6 0.6 401. 51. D408400200021 10.9 0.5 375. 46. D408400200022 12. 0.4 298. 38. D408400200023 13.1 0.3 234. 33. D408400200024 ENDDATA 15 0 D408400200025 ENDSUBENT 24 0 D408400299999 ENDENTRY 2 0 D408499999999