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RESEARCH PRODUCT

Identification of excited states in119Ba

Gregory LaneD. B. FossanJ. M. SearsI. Y. LeeR. WadsworthIngemar RagnarssonI. ThorslundD. SeweryniakI. M. HibbertC. J. ChiaraR. V. F. JanssensA. V. AfanasjevA. V. AfanasjevC. N. DavidsJ. F. SmithJ. F. SmithH. AmroA. O. Macchiavelli

subject

PhysicsNuclear and High Energy PhysicsProtonAtomic orbitalExcited stateNuclear TheoryQuasiparticleWoods–Saxon potentialNeutronAtomic physicsSpin-½

description

Excited states have been identified in the very neutron-deficient ${}^{119}\mathrm{Ba}$ nucleus. Two bands have been observed, which are likely to be based on ${h}_{11/2}$ and ${(g}_{7/2}{d}_{5/2})$ neutron orbitals. Despite this being the first observation of excited states in ${}^{119}\mathrm{Ba},$ the bands extend to $(75/2)\ensuremath{\Elzxh}$ and $(79/2)\ensuremath{\Elzxh},$ respectively. The bands have been assigned to ${}^{119}\mathrm{Ba}$ using gamma-recoil and gamma--x-ray coincidences. Several quasiparticle alignments have been identified, involving neutron ${(h}_{11/2}{)}^{2}$ and proton ${(h}_{11/2}{)}^{2}$ aligned configurations. Furthermore, the bands show features which are reasonably consistent with smooth band termination at high spin. Theoretical results for ${}^{119}\mathrm{Ba}$ are discussed within the framework of cranked Woods-Saxon and Nilsson-Strutinsky calculations.

yearjournalcountryeditionlanguage
2000-03-23Physical Review C
https://doi.org/10.1103/physrevc.61.044329