ENTRY A0061 20160123 A084A006100000001 SUBENT A0061001 20160123 A084A006100100001 BIB 14 29 A006100100002 TITLE Study of fusion of 48-Ca with the nuclei A006100100003 203-,205-Tl,208-Pb and 209-Bi nuclei. A006100100004 AUTHOR (O.A.Orlova, H.Bruchertseifer, Ju.A.Muzychka, A006100100005 Ju.Ts.Oganesyan, B.I.Pustyl'nik, G.M.Ter-Akopyan, A006100100006 V.I.Chepigin, Choi Val Sek) A006100100007 REFERENCE (J,SNP,30,317,1979) English translation A006100100008 (J,YF,30,(3),618,1979) A006100100009 INSTITUTE (4ZZZDUB) A006100100010 FACILITY (CYCLO,4ZZZDUB) A006100100011 METHOD (INTB,CHSEP,ACTIV,SITA) A006100100012 ADD-RES (THEO,COMP) A006100100013 DETECTOR (SOLST) A006100100014 MISC-COL (MISC) Theoretical calculations result. A006100100015 ERR-ANALYS (ERR-T) Total uncertainty includes statistical error A006100100016 and A006100100017 (ERR-1) Uncertainty of beam current A006100100018 (ERR-2) Uncertainty of chemical separation yield A006100100019 MONITOR (20-CA-48(13-AL-27,X)31-GA-67,CUM,SIG) A006100100020 COMMENT *By authors*.Beam energy was changed by transference A006100100021 of the target along the cyclotron radius. A006100100022 STATUS (TABLE) Tables 1-3 of YF,30,(3/9),618,1979 A006100100023 (APRVD) By A.G.Artukh,19801022 A006100100024 HISTORY (19800601C) A006100100025 (19811110A) A006100100026 (20080618A) BIB section updated A006100100027 Corrections were made according to new EXFOR rules. A006100100028 (20120327A) English translation of 'YF' was added A006100100029 (20160123A) SD: DECAY-DATA corrected in Subent 002. A006100100030 ANALYSIS (AREA) deleted (not relevant). A006100100031 ENDBIB 29 0 A006100100032 COMMON 3 3 A006100100033 EN-ERR ERR-1 ERR-2 A006100100034 PER-CENT PER-CENT PER-CENT A006100100035 2.5 2. 15. A006100100036 ENDCOMMON 3 0 A006100100037 ENDSUBENT 36 0 A006100199999 SUBENT A0061002 20160123 A084A006100200001 BIB 5 11 A006100200002 REACTION A(81-TL-0(20-CA-48,X)98-CF-246,,INT) A006100200003 B(81-TL-0(20-CA-48,X)100-FM-252,,INT) A006100200004 COMMENT *By authors*.Main reactions of Cf-246 production A006100200005 are (,3n) and (,n+alpha). A006100200006 Main reactions of Fm-252 production are (,n) and (,p) A006100200007 DECAY-DATAA(98-CF-246,35.7HR,A,6760.) A006100200008 B(100-FM-252,22.7HR,A,7040.) A006100200009 SAMPLE Metallic thallium (thickness 2.6 E-3 g/cm**2 ) A006100200010 on thick aluminium backing. Beam-target angle was A006100200011 equal 20 degree. A006100200012 HISTORY (20160123A) SD: hl=7.04hr -> 22.7hr in DECAY-DATA. A006100200013 ENDBIB 11 0 A006100200014 NOCOMMON 0 0 A006100200015 DATA 7 1 A006100200016 EN DATA AERR-T ADATA BERR-T BMISC AA006100200017 MISC B A006100200018 MEV B*EV B*EV B*EV B*EV B*EV A006100200019 B*EV A006100200020 223. 1.3 0.2 0.2 0.05 0.76 A006100200021 0.19 A006100200022 ENDDATA 6 0 A006100200023 ENDSUBENT 22 0 A006100299999 SUBENT A0061003 20080618 A063A006100300001 BIB 5 24 A006100300002 REACTION C(82-PB-208(20-CA-48,X)98-CF-246,,INT) A006100300003 D((82-PB-208(20-CA-48,X)100-FM-252,,INT)+ A006100300004 (82-PB-208(20-CA-48,X)100-FM-252,,INT)) A006100300005 E(82-PB-208(20-CA-48,X)100-FM-254,,INT) A006100300006 COMMENT *By authors*- A006100300007 C- the main mode of Cf-246 production is evaporation A006100300008 of 2n, A006100300009 D-the main mode of Fm-252 production is evaporation A006100300010 of one neutron. A006100300011 The main mode of Fm-255 production is evaporation A006100300012 of alpha-particle, A006100300013 E- the main mode of Fm-254 production is evaporation A006100300014 of two neutrons. A006100300015 RAD-DET C(98-CF-246,A) A006100300016 D(100-FM-252,A) A006100300017 (100-FM-255,A) A006100300018 E(100-FM-254,A) A006100300019 DECAY-DATAC(98-CF-246,35.7HR,A,6760.) A006100300020 D(100-FM-252,22.8HR,A,7040.) A006100300021 (100-FM-255,20.07HR,A,7020.) A006100300022 E(100-FM-254,3.2HR,A,7180.) A006100300023 SAMPLE Metallic enricned Pb-208, thickness 1.6E-3 g/cm**2) A006100300024 on thick aluminium backing. Beam-target angle was A006100300025 equal 20 degree. A006100300026 ENDBIB 24 0 A006100300027 NOCOMMON 0 0 A006100300028 DATA 10 1 A006100300029 EN DATA CDATA-ERR2 CDATA DDATA-ERR2 DDATA EA006100300030 DATA-ERR2 EMISC CMISC DMISC E A006100300031 MEV B*EV B*EV B*EV B*EV B*EV A006100300032 B*EV B*EV B*EV B*EV A006100300033 224. 40. 6. 1.2 0.2 4.2 A006100300034 0.8 14. 1.1 1.5 A006100300035 ENDDATA 6 0 A006100300036 ENDSUBENT 35 0 A006100399999 SUBENT A0061004 20080618 A063A006100400001 BIB 5 17 A006100400002 REACTION F(83-BI-209(20-CA-48,X)98-CF-246,,INT) A006100400003 H((83-BI-209(20-CA-48,X)100-FM-252,,INT)+ A006100400004 (83-BI-209(20-CA-48,X)100-FM-255,,INT)) A006100400005 COMMENT *By author*- A006100400006 F- the main mode of Cf-246 production is evaporatoin A006100400007 of 3 neutrons, A006100400008 H- the main mode of Fm-252 production is evaporation A006100400009 of neutron or (alpha+ neutron). A006100400010 RAD-DET F(98-CF-246,A) A006100400011 H(100-FM-252,A) A006100400012 (100-FM-255,A) A006100400013 DECAY-DATAF(98-CF-246,35.7HR,A,6760.) A006100400014 H(100-FM-252,22.8HR,A,7040.) A006100400015 (100-FM-255,20.07HR,A,7020.) A006100400016 SAMPLE Metallic bismuth, thickness 3.8 E-3 g/cm**2 ) A006100400017 on thick aluminium backing. Beam-target angle was A006100400018 equal 20 degree. A006100400019 ENDBIB 17 0 A006100400020 NOCOMMON 0 0 A006100400021 DATA 7 1 A006100400022 EN DATA FDATA-ERR2 FMISC FDATA HDATA-ERR2 HA006100400023 MISC H A006100400024 MEV B*EV B*EV B*EV B*EV B*EV A006100400025 B*EV A006100400026 236. 0.39 0.08 0.32 0.93 0.16 A006100400027 1.2 A006100400028 ENDDATA 6 0 A006100400029 ENDSUBENT 28 0 A006100499999 ENDENTRY 4 0 A006199999999