In-beam γ -ray spectroscopy studies of medium-spin states in the odd-odd nucleus Re186

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

doi:10.1103/physrevc.96.014318

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.

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