Your search keyword '"Hughes, R.O."' showing total 9 results

1. In-beam γ -ray spectroscopy studies of medium-spin states in the odd-odd nucleus Re 186

Author

Ideguchi, E., Janssens, R.V.F., Hoffman, C.R., McClory, J.W., Lauritsen, T., Dracoulis, G.D., Wilson, A.N., Watanabe, H., Odahara, A., Nieminen, P., Noji, S., Stuchbery, A.E., Ong, H.J., Chiara, C.J., Fang, Y.D., Tran, D.T., Lane, G.J., Byrne, A.P., Carpenter, M.P., Kondev, F.G., Kanaya, S., Davidson, P.M., Hughes, R.O., Carroll, J.J., Matters, D.A., Kibédi, T., Kay, B.P., Aoi, N., Ayyad, Y., Zhu, S., and Yamamoto, Y.

Abstract

Excited states in Re186 with spins up to J=12 were investigated in two separate experiments using W186(d,2n) reactions at beam energies of 12.5 and 14.5 MeV. Two- and threefold γ-ray coincidence data were collected using the CAESAR and CAGRA spectrometers, respectively, each composed of Compton-suppressed high-purity germanium detectors. Analysis of the data revealed rotational bands built on several two-quasiparticle intrinsic states, including a long-lived Kπ=(8+) isomer. Configuration assignments were supported by an analysis of in-band properties, such as gK-gR values. The excitation energies of the observed intrinsic states were compared with results from multi-quasiparticle blocking calculations, based on the Lipkin-Nogami pairing approach, that included contributions from the residual proton-neutron interactions.

Published

2017

2. Three-quasiparticle isomers and possible deformation in the transitional nuclide, 195Au

Author

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

Abstract

Deep-inelastic reactions and γ-ray spectroscopy have been used to study excited states in 195Au. A three-quasiparticle isomer with a mean-life of 18.6(3) μs has been assigned at 2461+Δ keV, with decays into newly identified structures. Possible configurations for the isomer are discussed including a Jπ =31/2- intrinsic state produced by coupling the 11/2-[505] proton hole to the 10+ state obtained from the 9/2+[624],11/2+[615] two-neutron holes, expected from configuration-constrained potential-energy-surface calculations. Residual interactions are evaluated within a semi-empirical shell model basis. New lifetime information is also obtained for the 21/2+ and 25/2 + states at 1813 and 1980 keV. The relationship between these and other newly identified states and the negative-parity states in the even-even neighbors is discussed.

Published

2013

3. Multiquasiparticle states in the neutron-rich nucleus 174Tm

Author

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

Abstract

Deep inelastic and transfer reactions with an 820-MeV, 136Xe beam and various ytterbium and lutetium targets have been employed to study high-spin structures in the neutron-rich thulium isotopes beyond 171Tm. Results in the doubly odd nucleus, 174Tm, include the identification of numerous new two- and four-quasiparticle intrinsic states including several isomers below 1 MeV, and the observation of the Kπ=4- ground state rotational band populated via direct decay from a τ=153(10)-μs, Kπ=14- isomer at 2092 keV. The 398-keV, M1 transition linking the isomer and ground state band is abnormally fast for a highly forbidden, ΔK=10 decay. This relative enhancement is explained in terms of mixing of the 13- level with the nearby 13- member of a Kπ=8- rotational band, with an interaction strength of V ≈ 1.4 keV. Multiquasiparticle calculations are compared with the observed states.

Published

2013

4. High-spin structure, K isomers, and state mixing in the neutron-rich isotopes 173Tm and 175Tm

Author

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

Abstract

High-spin states in the odd-proton thulium isotopes 173Tm and 175Tm have been studied using deep-inelastic reactions and γ-ray spectroscopy. In 173Tm, the low-lying structure has been confirmed and numerous new states have been identified, including a three-quasiparticle Kπ= 19/2- isomer with a lifetime of τ=360(100)ns at 1906keV and a five-quasiparticle Kπ=35/2- isomer with a lifetime of τ= 175(40)ns at 4048keV. The Kπ=35/2- state is interpreted as a t-band configuration that shows anomalously fast decays. In 175Tm, the low-lying structure has been reevaluated, a candidate state for the 9/2-[514] orbital has been identified at 1175keV, and the 7/2-[523] bandhead has been measured to have a lifetime of τ= 460(50)ns. Newly identified high-K structures in 175Tm include a Kπ=15/2- isomer with a lifetime of τ= 64(3)ns at 947keV and a Kπ= 23/2+ isomer with a lifetime of τ= 30(20) μs at 1518keV. The Kπ=15/2- isomer shows relatively enhanced decays to the 7/2-[523] band that can be explained by chance mixing with the 15/2- member of the 7/2- band. Multiquasiparticle calculations have been performed for 173Tm and 175Tm, the results of which compare well with the experimentally observed high-spin states.

Published

2012

5. Structure of three-quasiparticle isomers in Ho169 and Tm171

Author

Stefanescu, I., Lauritsen, T., Watanabe, H., Chowdhury, P., Chiara, C.J., Carpenter, M.P., Zhu, S., Kondev, F.G., Janssens, R.V.F., McCutchan, E.A., Lister, C.J., Dracoulis, G.D., Seweryniak, D., Lane, G.J., and Hughes, R.O.

Abstract

A three-quasiparticle isomer with τ=170(8) μs and Kπ= (19/2 +) has been identified in the neutron-rich isotope Ho169. The isomer decays with K-forbidden transitions to members of a band associated with the 7/2-[523] proton configuration, whose structure is characterized through analysis of the in-band γ-ray branching ratios. In the isotone Tm171, the rotational band based on the known 19/2+, three-quasiparticle isomer has also been observed. Alternative one-proton two-neutron configurations for the isomer in Ho169 are discussed in terms of multiquasiparticle calculations and through a comparison with the structures observed in Tm171.

Published

2010

6. Structure of neutron-rich tungsten nuclei and evidence for a 10- isomer in W190

Author

Lister, C.J., Lane, G.J., Chiara, C.J., Chowdhury, P., Hughes, R.O., Byrne, A.P., McCutchan, E.A., Dracoulis, G.D., Seweryniak, D., Watanabe, H., Janssens, R.V.F., Kondev, F.G., Lauritsen, T., Stefanescu, I., Carpenter, M.P., and Zhu, S.

Abstract

Isomers in the neutron-rich nucleus W190 have been characterized. A 10 - state from the 9/2-[505] 11/2+[615] two-neutron configuration with a 240-μs lifetime decays via a K-allowed, 97-keV, M2 transition to an 8+ state with a 160-ns lifetime from the 9/2-[505] 7/2-[503] neutron configuration. New states have also been identified in W188, including a Kπ=8-, 158-ns isomer from the 9/2-[614] 7/2+[404] two-proton configuration. The K hindrance is observed to decrease with increasing neutron number, consistent with a trend toward increasing triaxial softness.

Published

2010

7. Decay of a Kπ=21/2-, 17-ms isomer in Ta185

Author

Lister, C.J., Seweryniak, D., Dracoulis, G.D., Byrne, A.P., Kondev, F.G., Carpenter, M.P., Lane, G.J., Zhu, S., Lauritsen, T., Janssens, R.V.F., Watanabe, H., Chiara, C.J., Chowdhury, P., Stefanescu, I., Hughes, R.O., and McCutchan, E.A.

Abstract

High-spin states in the neutron-rich nucleus Ta185, populated in the decay of a long-lived, three-quasiparticle state, have been studied using deep-inelastic reactions with Xe136 ions and a W186 target. The lifetime of the isomer has been measured as 17(2) ms and the spin and parity determined to be Kπ=21/2-, leading to a π7/2+[404]ν3/2-[512]11/2+[615] configuration assignment. The isomer decays into the rotational band built upon the π9/2-[514] intrinsic state via K-forbidden transitions with reduced hindrances of 52 and 71. The π9/2-[514] state is itself an isomer with a lifetime of 17(3) ns. It decays via K-allowed E1 transitions to states in the π7/2+[404] band with strengths that are similar to equivalent transitions in the lighter tantalum isotopes.

Published

2009

8. Decay properties of high-spin isomers and other structures in Sb121 and Sb123

Author

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

Abstract

High-spin states populated in the decay of microsecond isomers in the transitional nuclei Sb121 and Sb123 have been investigated in detail in several experiments using γ-ray and electron spectroscopy. The nuclei were formed using multinucleon transfer and fusion-fission reactions with Xe136 beams and also using the Sn120(Li7,α2n)Sb121 and Sn122(Li7,α2n)Sb123 incomplete-fusion reactions. Isomeric half-lives ranging from several nanoseconds to a few hundred microseconds were determined by means of conventional decay curve analyses, whereas very short-lived isomers (T1/2~1 ns) were identified using the generalized centroid-shift method. A number of new transitions were observed, including a branch through spherical states from the 19/2+ member of the 9/2+ deformed band in Sb121, in competition with the main decay path through the rotational band. This is attributed to mixing between the 19/2+ band member and a 19/2+ spherical state. Both levels are predicted to coincide approximately in energy in Sb121. The fact that a 25/2+ isomer occurs for A=121 and the lighter isotopes, while a 23/2+ isomer is observed for A=123-131 is explained through a multistate mixing calculation, taking into account the gradual shift of the 2d5/2 and 1g7/2 proton orbitals and the change in proton-neutron effective interactions from an attractive particle-particle type in the lower part of the shell to a repulsive particle-hole type with increasing the neutron number toward the N=82 shell closure. The observed enhancement of the B(E2;19/2-→15/2-) values in Sb121 and Sb123 over the B(E2;7-→5-) values in the corresponding Sn cores is discussed in terms of configuration mixing between spherical and deformed states.

Published

2009

9. High-spin study of the shell model nucleus 88 Y 49

Author

Bunce, Michael, Regan, P H, Werner, V., Beausang, C. W., Anagnostatou, V, Bowry, M, Casperson, R.J., Chen, D., Cooper, N., Goddard, P M, Hughes, R.O., Ilie, G., Mason, P.J.R., Pauerstein, B., Reed, Matthew, Ross, T, Simpson, E C, Bunce, Michael, Regan, P H, Werner, V., Beausang, C. W., Anagnostatou, V, Bowry, M, Casperson, R.J., Chen, D., Cooper, N., Goddard, P M, Hughes, R.O., Ilie, G., Mason, P.J.R., Pauerstein, B., Reed, Matthew, Ross, T, and Simpson, E C

Abstract

The near-yrast structure of the near-magic, odd-odd nucleus, 3988Y 49, has been studied into the high-spin regime. Investigations were performed at the Wright Nuclear Structure Laboratory, Yale University, using the 74Ge(18O,p3n) and 76Ge(18O,p5n) fusion

Published

2013