ENTRY D6281 20171105 D113D628100000001 SUBENT D6281001 20171105 D113D628100100001 BIB 13 32 D628100100002 TITLE Fission fragment mass distributions via prompt gamma- D628100100003 ray spectroscopy D628100100004 AUTHOR (L.S.Danu, D.C.Biswas, B.K.Nayak, R.K.Choudhury) D628100100005 INSTITUTE (3INDTRM) D628100100006 REFERENCE (J,PRM,85,379,2015) D628100100007 REL-REF (I,D6108001,L.S.Danu+,J,PR/C,81,014311,2010) D628100100008 (I,,S.Muralithar+,J,NIM/A,622,281,2010) D628100100009 Details about the Clover detector (INGA) D628100100010 PART-DET (G) D628100100011 FACILITY (VDGT,3INDNSD) Pelletron Accelerator Facility D628100100012 SAMPLE Self-supporting 238U target of thickness ~15 mg/cm2. D628100100013 DETECTOR (GE) The gamma-rays emitted in the reaction were D628100100014 detected using the Indian National Gamma Array (INGA), D628100100015 comprising 18 Compton-suppressed Clover detectors at D628100100016 the time of measurement. The Compton-suppressed data D628100100017 were collected in an event-by-event mode with the D628100100018 minimum requirement of three-fold prompt gamma-ray D628100100019 coincidence. The coincidence time gate for recording D628100100020 the data was set at ~350 ns. D628100100021 METHOD (COINC,GSPEC) Fission fragment mass distribution by D628100100022 employing gamma-gamma coincidence technique. D628100100023 ANALYSIS These gamma-gamma matrices were analysed using RADWARE D628100100024 software to obtain independent yields of the fission D628100100025 fragments. The independent yields of even-even D628100100026 fragments were determined from the coincidence between D628100100027 the gamma-rays of 2+ to 0+ and 4+ to 2+ ground-state D628100100028 transition. D628100100029 ERR-ANALYS (DATA-ERR) No detail information on sources of D628100100030 uncertainties. D628100100031 HISTORY (20171103R) Data received from L.S.Danu via A.Saxena byD628100100032 email D628100100033 (20171105C) Aman Sharma and VT D628100100034 ENDBIB 32 0 D628100100035 NOCOMMON 0 0 D628100100036 ENDSUBENT 35 0 D628100199999 SUBENT D6281002 20171026 D113D628100200001 BIB 2 2 D628100200002 REACTION (92-U-238(16-S-32,F)ELEM/MASS,IND,FY,,REL) D628100200003 STATUS (TABLE) Fig. 3 of Pramana, 85 (2015) 379 D628100200004 ENDBIB 2 0 D628100200005 NOCOMMON 0 0 D628100200006 DATA 5 35 D628100200007 EN ELEMENT MASS DATA DATA-ERR D628100200008 MEV NO-DIM NO-DIM ARB-UNITS ARB-UNITS D628100200009 185. 52. 126. 11175. 412.5 D628100200010 185. 52. 128. 21209.38 600. D628100200011 185. 52. 130. 25140.63 687.5 D628100200012 185. 52. 132. 30034.38 728.125 D628100200013 185. 52. 134. 15796.88 359.375 D628100200014 185. 54. 130. 11289.8 467.4 D628100200015 185. 54. 132. 29469. 710.6 D628100200016 185. 54. 134. 47401.2 1140. D628100200017 185. 54. 136. 38703. 817. D628100200018 185. 54. 138. 36791.6 737.2 D628100200019 185. 54. 140. 10996. 398. D628100200020 185. 56. 136. 6674.2 411.4 D628100200021 185. 56. 138. 25663.2 1400.8 D628100200022 185. 56. 140. 20614.2 629. D628100200023 185. 56. 142. 20049.8 455.6 D628100200024 185. 56. 144. 4974.2 224.4 D628100200025 220. 52. 124. 14975. 317. D628100200026 220. 52. 126. 20366. 329. D628100200027 220. 52. 128. 30246. 398. D628100200028 220. 52. 130. 29283. 415. D628100200029 220. 52. 132. 30051. 402. D628100200030 220. 52. 134. 13348. 229. D628100200031 220. 54. 126. 4032. 136. D628100200032 220. 54. 128. 11912. 237. D628100200033 220. 54. 130. 30276. 359. D628100200034 220. 54. 132. 33328. 419. D628100200035 220. 54. 134. 46263. 553. D628100200036 220. 54. 136. 34398. 395. D628100200037 220. 54. 138. 28289. 327. D628100200038 220. 54. 140. 7563. 155. D628100200039 220. 56. 136. 12785. 300. D628100200040 220. 56. 138. 29483. 397. D628100200041 220. 56. 140. 20487. 349. D628100200042 220. 56. 142. 16543. 212. D628100200043 220. 56. 144. 4625. 87. D628100200044 ENDDATA 37 0 D628100200045 ENDSUBENT 44 0 D628100299999 ENDENTRY 2 0 D628199999999