ENTRY A0028 20210120 A096A002800000001 SUBENT A0028001 20210120 A096A002800100001 BIB 13 48 A002800100002 TITLE Energy dependence of the cross sections for fission A002800100003 and nuclear transfer in interaction of 232Th with A002800100004 accelerated 74Ge ions A002800100005 AUTHOR (Ju.Ts.Oganesyan, D.M.Nadkarni, Ju.E.Penionzhkevich, A002800100006 B.I.Pustyl'nik, Nguen Tak An) A002800100007 REFERENCE (J,YF,19,486,1974) see explanation below A002800100008 (J,SNP,19,244,1974) English translation A002800100009 (R,JINR-P7-7391,1973) these papers are identical A002800100010 INSTITUTE (4ZZZDUB,3INDTRM) A002800100011 FACILITY (CYCTM,4ZZZDUB) A002800100012 METHOD (CHSEP,SITA,EDEG,INTB,MOSEP). Emax=600+-15 MeV. A002800100013 Beam intensity=approx.5. x 10**10 part/sec. A002800100014 MONITOR (32-GE-74(6-C-12,3N)38-SR-83,,SIG) A002800100015 DETECTOR (GELI) Resolution 2.0 keV at E=250 keV. A002800100016 SAMPLE The rotating target(metallic thorium) was separated A002800100017 into six parts. Target is foil, thickness=30.0 um A002800100018 part 1-no stopping foil, E(Ge)=600 MeV. A002800100019 part 2-aluminium stopping foil, A002800100020 4.06 mg/cm**2,E(Ge)= 500 MeV. A002800100021 part 3-aluminium stopping foil, A002800100022 5.45 mg/cm**2,E(Ge)=470 MeV. A002800100023 part 4-aluminium stopping foil, A002800100024 6.30 mg/cm**2,E(Ge)=450 MeV. A002800100025 part 5-aluminium stopping foil, A002800100026 7.16 mg/cm**2,E(Ge)=420 MeV. A002800100027 part 6-aluminium stopping foil, A002800100028 7.90 mg/cm**2,E(Ge)=405 MeV. A002800100029 ERR-ANALYS (ERR-1,,5.) The chemical yield was determined with an A002800100030 accuracy of 5% or better on the basis of a control A002800100031 activity which was introduced before the radiochemical A002800100032 separation. A002800100033 (DATA-ERR1,,15.) The relative error in the yield A002800100034 determination of the individual isotopes was no A002800100035 greater than 15%. A002800100036 (DATA-ERR2) Error from error bars. No information A002800100037 about source of uncertainties A002800100038 COMMENT *By authors*.Ions energy for each part of target was A002800100039 calculated by means of tables of stopping power. See A002800100040 REL-REF. The cross-section of monitor reaction was A002800100041 determined by special experiments. A002800100042 REL-REF (M,,L.C.Northcliffe+,J,ND/A,7,233,1970) See COMMENT A002800100043 HISTORY (19780908C) A002800100044 (19800716A) A002800100045 (20080609A) BIB section was updated A002800100046 Corrections were made according to new EXFOR rules. A002800100047 (20180523A) SD: REACTION code was updated according to A002800100048 MEMO CP-D/933rev. in Subents 002-004. BIB was updated. A002800100049 (20210120A) SD: Corrections in Subents 002, 003. A002800100050 ENDBIB 48 0 A002800100051 NOCOMMON 0 0 A002800100052 ENDSUBENT 51 0 A002800199999 SUBENT A0028002 20210120 A096A002800200001 BIB 4 13 A002800200002 REACTION (90-TH-232(32-GE-74,F)ELEM/MASS,CUM,FY,,REL) A002800200003 No explanation of relative units is given. A002800200004 DECAY-DATA (79-AU-192-G,5.03HR,DG,612.,0.067) A002800200005 (79-AU-193-G,15.8HR,DG,186.,0.1) A002800200006 (79-AU-194-G,1.65D,DG,328.,0.59) A002800200007 (79-AU-196-G,6.18D,DG,356.,0.88) A002800200008 (79-AU-198-G,2.69D,DG,412.,0.947) A002800200009 (79-AU-199,3.13D,DG,158.,0.394) A002800200010 STATUS (CURVE) fig. 1 from JINR-P7-7391,1973 A002800200011 (APRVD) By Ju.E.Penionzhkevich. A002800200012 HISTORY (20180522A) SD: SF6=TTY -> SIG in REACTION code. A002800200013 Data were re-digitized. A002800200014 (20210120A) SD: SF6=SIG -> FY in REACTION code. A002800200015 ENDBIB 13 0 A002800200016 COMMON 2 3 A002800200017 ELEMENT ERR-DIG A002800200018 NO-DIM PER-CENT A002800200019 79. 2. A002800200020 ENDCOMMON 3 0 A002800200021 DATA 4 27 A002800200022 EN MASS DATA DATA-ERR2 A002800200023 MEV NO-DIM ARB-UNITS ARB-UNITS A002800200024 420. 194. 38. 14. A002800200025 420. 196. 98. 42. A002800200026 420. 198. 107. 31. A002800200027 420. 199. 117. 45. A002800200028 450. 192. 84. 22. A002800200029 450. 194. 553. 170. A002800200030 450. 196. 901. 268. A002800200031 450. 198. 228. 66. A002800200032 450. 199. 215. 59. A002800200033 470. 192. 1532. 396. A002800200034 470. 193. 1995. 535. A002800200035 470. 194. 1730. 429. A002800200036 470. 196. 1198. 374. A002800200037 470. 198. 482. 101. A002800200038 470. 199. 135. 31. A002800200039 500. 192. 3806. 1096. A002800200040 500. 193. 5380. 1652. A002800200041 500. 194. 5270. 1415. A002800200042 500. 196. 3410. 982. A002800200043 500. 198. 808. 149. A002800200044 500. 199. 185. 36. A002800200045 600. 192. 10832. 3223. A002800200046 600. 193. 12154. 3499. A002800200047 600. 194. 10537. 2932. A002800200048 600. 196. 7201. 1788. A002800200049 600. 198. 1752. 470. A002800200050 600. 199. 681. 209. A002800200051 ENDDATA 29 0 A002800200052 ENDSUBENT 51 0 A002800299999 SUBENT A0028003 20210120 A096A002800300001 BIB 5 12 A002800300002 REACTION (90-TH-232(32-GE-74,F)ELEM,CUM,FY,,REL) A002800300003 No explanation of relative units is given. A002800300004 COMMENT *By compiler*. The radioactive isotopes were accepted A002800300005 only. A002800300006 STATUS (CURVE) fig. 2 from JINR-P7-7391,1973 A002800300007 (DEP,A0027002) The sum yield of gold isotopes A002800300008 was determined from the data of the Subent 002. A002800300009 (APRVD) By Ju.E.Penionzhkevich. A002800300010 ADD-RES (COMP) A002800300011 HISTORY (20180522A) SD: SF6=TTY -> SIG in REACTION code. A002800300012 Data were re-digitized. A002800300013 (20210120A) SD: SF6=SIG -> FY in REACTION code. A002800300014 ENDBIB 12 0 A002800300015 COMMON 2 3 A002800300016 ELEMENT ERR-DIG A002800300017 NO-DIM PER-CENT A002800300018 79. 0.6 A002800300019 ENDCOMMON 3 0 A002800300020 DATA 4 6 A002800300021 EN DATA DATA-MAX DATA-ERR2 A002800300022 MEV ARB-UNITS ARB-UNITS ARB-UNITS A002800300023 405. 0.21 A002800300024 420. 8.06 1.34 A002800300025 450. 46.74 8.08 A002800300026 470. 125.8 22.6 A002800300027 500. 311.7 45.2 A002800300028 600. 1082.4 215.5 A002800300029 ENDDATA 8 0 A002800300030 ENDSUBENT 29 0 A002800399999 SUBENT A0028004 20180523 A089A002800400001 BIB 5 12 A002800400002 REACTION A(90-TH-232(32-GE-74,X)91-PA-232,CUM,SIG,,REL) A002800400003 B(90-TH-232(32-GE-74,X)92-U-230,CUM,SIG,,REL) A002800400004 C(90-TH-232(32-GE-74,X)90-TH-231,CUM,SIG,,REL) A002800400005 D(90-TH-232(32-GE-74,X)90-TH-227,CUM,SIG,,REL) A002800400006 ADD-RES Calculation of effective interaction radius A002800400007 DECAY-DATAA(91-PA-232,1.31D,DG,969.,0.446) A002800400008 B(92-U-230,20.8D,DG,72.,0.0054) A002800400009 C(90-TH-231,25.5HR,DG,89.,0.011) A002800400010 D(90-TH-227,18.2D,DG,334.,0.011) A002800400011 STATUS (CURVE) fig. 2 from JINR-P7-7391,1973 A002800400012 HISTORY (20180522A) SD: SF6=TTY -> SIG in REACTION code. A002800400013 Data were re-digitized. A002800400014 ENDBIB 12 0 A002800400015 COMMON 1 3 A002800400016 ERR-DIG A002800400017 PER-CENT A002800400018 0.6 A002800400019 ENDCOMMON 3 0 A002800400020 DATA 9 6 A002800400021 EN DATA ADATA-ERR2 ADATA BDATA-ERR2 BDATA CA002800400022 DATA-ERR2 CDATA DDATA-ERR2 D A002800400023 MEV ARB-UNITS ARB-UNITS ARB-UNITS ARB-UNITS ARB-UNITS A002800400024 ARB-UNITS ARB-UNITS ARB-UNITS A002800400025 405. 17.1 2.5 18.6 3.3 19.7A002800400026 2.2 19.5 2.4 A002800400027 420. 35.0 6.5 42.3 4.0 40.6A002800400028 4.1 52.0 3.6 A002800400029 450. 129.0 19.4 108.5 15.7 118.8A002800400030 13.0 149.6 18.3 A002800400031 470. 201.3 30.6 211.6 33.7 253.7A002800400032 40.6 235.5 26.7 A002800400033 500. 361.6 39.5 396.0 46.1 426.5A002800400034 68.3 399.3 83.5 A002800400035 600. 597.5 73.9 752.8 87.7 638.3A002800400036 90.1 964.3 112.3 A002800400037 ENDDATA 16 0 A002800400038 ENDSUBENT 37 0 A002800499999 ENDENTRY 4 0 A002899999999