Shape-driving Effects in the Triaxial Nucleus, 128 Xe
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Orce, J N
Bruce, A M
Emmanouildis, A
Byrne, Aidan
Dracoulis, George
Kibedi, Tibor
Caamano, M
El Masri, H
Pearson, C J
Podolyak, Zs.
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American Physical Society
Abstract
An extended decay scheme for Xe128 has been constructed by using data from the Sn124(Be9, 5n)Xe128 reaction at a beam energy of 58 MeV. Bands have been identified as being built on several intrinsic states, including a proposed 9/2-[514]-1/2+[400] two-quasineutron configuration that forms the Kπ=5- intrinsic state at 2228 keV, and on a previously assigned Kπ=8- intrinsic state at 2786 keV. A half-life of 73(3) ns has been measured for the latter. Theoretical calculations have been performed by using the configuration- constrained blocking method based on a nonaxial Woods-Saxon potential. Large γ deformation and γ softness are predicted for the ground state and the Kπ=5- intrinsic state, whereas a nearly axially symmetric shape is predicted for the Kπ=8- two-quasiparticle configuration. The low value of the hindrance factor for the E1 transition depopulating the Kπ=8- intrinsic state is discussed in the context of analogous transitions in neighbouring N=74 isotones.
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Physical Review C: Nuclear Physics
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2037-12-31
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