Nuclear structure and β -decay schemes for Te nuclides beyond N=82

B Moon,T Komatsubara,R Daido,J Wu,S Nishimura,T Ishigaki,N Inabe,D S Ahn,N Fukuda,J M Daugas,I Kojouharov,Z Patel,T Isobe,B Hong,A Yagi,Z Y Xu,P Lee,G Lorusso,Y K Kwon,R Lozeva,H Baba,F Didierjean,P.-A Söderström,D Murai,R Yokoyama,D Kameda,P Doornenbal,E Ideguchi,S Rice,H S Jung,T Kubo,I Nishizuka,L Sinclair,Y Shimizu,Y Fang,K Tshoo,H Watanabe,F Browne,T Sumikama,A Odahara,F L Bello Garrote,C.s Lee ,Hiroyuki Takeda ,Chang-Bum Moon ,H Sakuraï ,Cenxi Yuan ,Hiroshi Suzuki ,H Nıshıbata ,Shotaro Morimoto ,M Nııkura

doi:10.1103/physrevc.95.044322

Abstract

We study for the first time the internal structure of 140Te through the beta-delayed gamma-ray spectroscopy of 140Sb. The very neutron-rich 140Sb, Z = 51 and N = 89, ions were produced by the in-flight fission of 238U beam on a 9Be target at 345 MeV per nucleon at the Radioactive Ion Beam Factory, RIKEN. The half-life and spin-parity of 140Sb are reported as 124(30) ms and (4-), respectively. In addition to the excited states of 140Te produced by the beta-decay branch, the beta-delayed one-neutron and two-neutron emission branches were also established. By identifying the first 2+ and 4+ excited states of 140Te, we found that Te isotopes persist their vibrator character with E(4+)/E(2+) = 2. We discuss the distinctive features manifest in this region, such as valence neutron symmetry and asymmetry, revealed in pairs of isotopes with the same neutron holes and particles with respect to N = 82.

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