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Quadrupole Moments of Collective Structures up to Spin sim 65hbar in ¹⁵⁷Er and ¹⁵⁸Er: A Challenge for Understanding Triaxiality in Nuclei
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Quadrupole Moments of Collective Structures up to Spin sim 65hbar in ¹⁵⁷Er and ¹⁵⁸Er: A Challenge for Understanding Triaxiality in Nuclei
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The transition quadrupole moments, $Q_{\rm t}$, of four weakly populated collective bands up to spin $\sim$ $65\hbar$ in $^{157,158}$Er have been measured to be ${\sim}11 {\rm eb}$ demonstrating that these sequences are associated with large deformations. However, the data are inconsistent with calculated values from cranked Nilsson-Strutinsky calculations that predict the lowest energy triaxial shape to be associated with rotation about the short principal axis. The data appear to favor either a stable triaxial shape rotating about the intermediate axis or, alternatively, a triaxial shape with larger deformation rotating about the short axis. These new results challenge the present understanding of triaxiality in nuclei.
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