High-Kstates in the odd-odd nuclideRe180 | Zendy

H. M. El-Masri | Zendy; P. M. Walker | Zendy; G.D. Dracoulis | Zendy; T. Kibédi | Zendy; A.P. Byrne | Zendy; A. M. Bruce | Zendy; J. N. Orce | Zendy; A. Emmanouilidis | Zendy; D. M. Cullen | Zendy; C. Wheldon | Zendy; F. R. Xu | Zendy

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High-Kstates in the odd-odd nuclideRe180

Author(s) -

H. M. El-Masri,

P. M. Walker,

G.D. Dracoulis,

T. Kibédi,

A.P. Byrne,

A. M. Bruce,

J. N. Orce,

A. Emmanouilidis,

D. M. Cullen,

C. Wheldon,

F. R. Xu

Publication year - 2005

Publication title -

physical review c

Language(s) - English

Resource type - Journals

eISSN - 1089-490X

pISSN - 0556-2813

DOI - 10.1103/physrevc.72.054306

Subject(s) - nuclide , physics , nuclear physics , particle physics

The structure of the deformed, doubly odd nuclide 180Re has been studied by gamma-ray and conversion-electron spectroscopy using the 174Yb(11B,5n) reaction with a pulsed 71 MeV beam of 11B ions. Several of the previously known intrinsic states have been given revised spin and parity assignments. Rotational bands are observed with Kpi=(4+),(5-),(7+),8+,9-,13+,14-,15-,16+,21-, and (22+). Among these, a four-quasiparticle t band is identified, which is already energetically favored at its bandhead compared to the corresponding two-quasiparticle band; and two six-quasiparticle bands are identified and associated with a tau=13 µs isomer. The observed structures, including g factors and alignments, are interpreted with the aid of Nilsson-plus-BCS calculations and configuration-constrained potential energy surface calculations. Reduced-hindrance values are obtained for K-forbidden transitions, illustrating the important role of the K quantum number for near-yrast isomers

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