gamma-soft Ba-146 and the role of nonaxial shapes at N approximate to 90
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Mitchell, Alan
Lister, C.J.
McCutchan, E.A.
Albers, Mark
Ayangeakaa, A.D.
Bertone, P.F.
Carpenter, M P
Chiara, C J
Chowdhury, P
Clark, J.A.
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American Physical Society
Abstract
Low-spin states in the neutron-rich, N=90 nuclide Ba146 were populated following β decay of Cs146, with the goal of clarifying the development of deformation in barium isotopes through delineation of their nonyrast structures. Fission fragments of Cs146 were extracted from a 1.7-Ci Cf252 source and mass selected using the CAlifornium Rare Ion Breeder Upgrade (CARIBU) facility. Low-energy ions were deposited at the center of a box of thin β detectors, surrounded by a highly efficient high-purity Ge array. The new Ba146 decay scheme now contains 31 excited levels extending up to ∼2.5 MeV excitation energy, double what was previously known. These data are compared to predictions from the interacting boson approximation (IBA) model. It appears that the abrupt shape change found at N=90 in Sm and Gd is much more gradual in Ba and Ce, due to an enhanced role of the γ degree of freedom.
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Physical Review C: Nuclear Physics
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Open Access