ENTRY D6412 20220114 D136D641200000001 SUBENT D6412001 20220114 D136D641200100001 BIB 11 31 D641200100002 TITLE Fusion studies in 16O + 142,150Nd reactions at D641200100003 energies near the coulomb barrier D641200100004 AUTHOR (A.C.Visakh, E.Prasad, P.V.Laveen, M.Shareef, D641200100005 A.Shamlath, S.Nath, N.Madhavan, J.Gehlot, Gonika, D641200100006 R.Biswas, A.Parihari, J.Khuyagbaatar, B.Lommel, D641200100007 B.Kindler, A.M.Vinodkumar, B.R.S.Babu, S.Sanila, D641200100008 K.M.Varier, S.Appannababu) D641200100009 INSTITUTE (3INDNSD,2GERGSI,3INDCCT,3INDAUW) D641200100010 (3INDIND) Central University of Kerala, Kerala D641200100011 (2GERGER) Helmholtz Institute Mainz, 55099 Mainz D641200100012 (3INDIND) University of Kerala, Thiruvananthapuram D641200100013 REFERENCE (J,PR/C,104,054602,2021) D641200100014 FACILITY (VDGT,3INDTRM) 15 UD Pelletron accelerator D641200100015 DETECTOR (MAGSP,MWPC) Evaporation residues were detected D641200100016 through a 150 mm X 50 mm multiwire proportional D641200100017 counter operated at a pressure of 3.0 mbar of isobutaneD641200100018 gas. D641200100019 (SIBAR) Two silicon-surface barrier detectors were D641200100020 mounted inside the sliding-seal scattering chamber at D641200100021 angle 15.5 degree with respect to beam direction used D641200100022 for absolute normalization of evaporation residues D641200100023 cross sections. D641200100024 METHOD (TOF) Delta E-TOF for evaporation residue selection. D641200100025 (ASEP) Fusion cross-sections were measured using the D641200100026 Heavy Ion Reaction Analyzer (HIRA). D641200100027 ANALYSIS (NTRTH) D641200100028 ERR-ANALYS (DATA-ERR) The experimental errors includes statisticalD641200100029 uncertainty and the uncertainty in transmission D641200100030 efficiency calculations. D641200100031 STATUS (TABLE) Table I of Phys. Rev. C, 104 (2021) 054602 D641200100032 HISTORY (20220114C) VT D641200100033 ENDBIB 31 0 D641200100034 NOCOMMON 0 0 D641200100035 ENDSUBENT 34 0 D641200199999 SUBENT D6412002 20220114 D136D641200200001 BIB 2 3 D641200200002 REACTION (60-ND-142(8-O-16,FUS),,SIG,ER) D641200200003 SAMPLE Isotopically enriched 142Nd of thickness ~140 ug/cm2 D641200200004 evaporated on ~38 ug/cm2 carbon backing. D641200200005 ENDBIB 3 0 D641200200006 NOCOMMON 0 0 D641200200007 DATA 3 17 D641200200008 EN-CM DATA DATA-ERR D641200200009 MEV MB MB D641200200010 93.2 766. 116. D641200200011 89.6 767. 116. D641200200012 86.0 756. 114. D641200200013 82.4 746. 112. D641200200014 78.8 767. 115. D641200200015 76.1 711. 107. D641200200016 73.4 675. 102. D641200200017 70.7 574. 87. D641200200018 68.0 476. 71. D641200200019 66.2 365. 55. D641200200020 64.4 282. 42. D641200200021 62.6 207. 31. D641200200022 60.8 143. 22. D641200200023 59.0 55. 8. D641200200024 57.2 9. 1.4 D641200200025 55.4 0.8 0.1 D641200200026 53.6 0.03 0.005 D641200200027 ENDDATA 19 0 D641200200028 ENDSUBENT 27 0 D641200299999 SUBENT D6412003 20220114 D136D641200300001 BIB 2 3 D641200300002 REACTION (60-ND-150(8-O-16,FUS),,SIG,ER) D641200300003 SAMPLE Isotopically enriched 150Nd of thickness ~162 ug/cm2 D641200300004 evaporated on ~38 ug/cm2 carbon backing. D641200300005 ENDBIB 3 0 D641200300006 NOCOMMON 0 0 D641200300007 DATA 3 19 D641200300008 EN-CM DATA DATA-ERR D641200300009 MEV MB MB D641200300010 93.7 1101. 166. D641200300011 90.1 1103. 166. D641200300012 86.5 1051. 159. D641200300013 82.9 1003. 152. D641200300014 79.3 848. 127. D641200300015 76.5 740. 111. D641200300016 73.8 785. 119. D641200300017 71.1 672. 102. D641200300018 68.4 538. 81. D641200300019 66.6 499. 75. D641200300020 64.8 461. 69. D641200300021 63.0 391. 59. D641200300022 61.1 311. 47. D641200300023 59.3 177. 27. D641200300024 57.5 71. 11. D641200300025 55.7 24. 4. D641200300026 53.9 6.4 1.0 D641200300027 52.1 0.9 0.15 D641200300028 50.3 0.06 0.001 D641200300029 ENDDATA 21 0 D641200300030 ENDSUBENT 29 0 D641200399999 ENDENTRY 3 0 D641299999999