Your search keyword '"Hughes, R.O."' showing total 2 results

1. Long-lived three-quasiparticle isomers in 191Ir and 193Ir with triaxial deformation

Author

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

Subjects

*IRIDIUM isotopes, *QUASIPARTICLES, *NUCLEAR isomers, *NUCLEAR shapes, *DEEP inelastic collisions, *NUCLEAR excitation

Abstract

Abstract: Deep-inelastic reactions have been used to populate high-spin states in the iridium isotopes. New results include the identification of particularly long-lived three-quasiparticle isomers in 191Ir and 193Ir, with mean-lives of 8.2(7) s and 180(3) μs respectively, decaying into newly identified states of the proton bands and into other structures. Spins and parities of are suggested for both, consistent with coupling of the proton to the two-neutron excitations in the cores. These and other configurations are discussed in the context of configuration constrained potential-energy-surface calculations. All calculated intrinsic states are expected to be associated with triaxial shapes and the extreme isomerism observed is attributed to spin-trapping rather than K-hindrance. [Copyright &y& Elsevier]

Published

2012

2. Two-quasiparticle K-isomers and pairing strengths in the neutron-rich isotopes 174Er and 172Er

Author

Dracoulis, G.D., Lane, G.J., Kondev, F.G., Byrne, A.P., Hughes, R.O., Nieminen, P., Watanabe, H., Carpenter, M.P., Janssens, R.V.F., Lauritsen, T., Seweryniak, D., Zhu, S., Chowdhury, P., and Xu, F.R.

Subjects

*QUASIPARTICLES, *NUCLEAR isomers, *ISOTOPES, *GAMMASPHERE

Abstract

Abstract: Isomeric two-quasiparticle states have been identified in the neutron-rich isotopes 172Er and 174Er using multi-nucleon transfer reactions with 136Xe beams incident on various targets, and γ-ray spectroscopy with Gammasphere. A candidate for the two-quasineutron state in 172Er is found at 1500 keV. In 174Er, a nuclide whose level scheme was previously unknown, a long-lived isomer is identified at 1112 keV decaying via an inhibited E1 transition and revealing the yrast sequence of 174Er. This isomer is proposed to be a two-quasineutron state, defining a sequence in the isotones extending from the well-deformed neutron-rich isotope 174Er to the neutron-deficient isotope 188Pb, where the presence of the isomer signifies a prolate minimum in an otherwise spherical well. Configuration-constrained potential-energy surface calculations are used to predict the excitation energies of the 6+ and 8− intrinsic states and as a basis for extracting the pairing force strength, , in the and isotones. [Copyright &y& Elsevier]

Published

2006