Isomers and alignments in 191Ir and 192Os

G. D. Dracoulis*, G. J. Lane, A. P. Byrne, H. Watanabe, R. O. Hughes, N. Palalani, F. G. Kondev, M. P. Carpenter, D. Seweryniak, S. Zhu, R. V.F. Janssens, C. J. Lister, T. Lauritsen, P. Chowdhury, Y. Shi, F. R. Xu

*Corresponding author for this work

    Research output: Contribution to journalConference articlepeer-review

    4 Citations (Scopus)

    Abstract

    Deep-Inelastic reactions have been used to populate high-spin states in the even-even osmium isotopes and in the iridium neighbors. New isomers have been identified in 190Os, 192Os, 194Os, 191Ir and 193Ir. These include a 2 ns 12+ state at 2865 keV and a 295 ns, 20+ state at 4580 keV in 192Os. Although a number of multi-quasiparticle states arising from prolate and triaxial deformations are expected in these nuclei, the main structures in 192Os can be interpreted as a two-stage alignment of i13/2 neutrons at oblate deformation, in close analogy with similar structures in the isotones 194Pt and 196Hg. The isomers are attributed to low-energy E2 transitions at the point of the alignment gains. The isomer observed in 191Ir is long-lived (τm ∼8s) and probably arises from coupling of the h11/2 proton to the 10 -ν/9/2- [505]11/2+ [615] prolate configuration that gives rise to long-lived isomers in 190Os and 192Os, although potential-energy-surface calculations indicate that the resultant three-quasiparticle state will be triaxial.

    Original languageEnglish
    Article number012060
    JournalJournal of Physics: Conference Series
    Volume381
    Issue number1
    DOIs
    Publication statusPublished - 2012
    EventRutherford Centennial Conference on Nuclear Physics - Manchester, United Kingdom
    Duration: 8 Aug 201112 Aug 2011

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