A. Kardan scite author profile

The high-spin rotational bands in 168 Hf and the triaxial bands in Lu nuclei are analyzed using the configuration-constrained cranked Nilsson-Strutinsky (CNS) model. Special attention is given to the up-sloping extruder orbitals. The relative alignment between the bands which appear to correspond to triaxial shape is also considered, including the yrast ultrahigh-spin band in 158 Er. This comparison suggests that the latter band is formed from rotation around the intermediate axis. In addition, the standard approximations of the CNS approach are investigated, indicating that the errors which are introduced by the neglect of off-shell matrix elements and the cutoff at nine oscillator shells (N max = 8) are essentially negligible compared to other uncertainties. On the other hand, the full inclusion of the hexadecapole degree of freedom is more significant; for example it leads to a decrease of the total energy of ∼ 500 keV in the triaxial superdeformed (TSD) region of 168 Hf.

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Structure changes inEr160from low to ultrahigh spin

Ollier

Simpson

Riley

et al. 2011

Phys. Rev. C

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A. Kardan

Extensiveγ-ray spectroscopy of band structures in3062Zn32

Interpretation of the large-deformation high-spin bands in selectA=158–168 nuclei

Structure changes inEr160from low to ultrahigh spin

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