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W1648489767 abstract "Microscopic calculations based on the cranked shell model extended by the random-phase-approximation are performed to investigate the quadrupole and octupole correlations for excited superdeformed bands in $^{190}mathrm{Hg}$, $^{192}mathrm{Hg}$, and $^{194}mathrm{Hg}$. The K=2 octupole vibrations are predicted to be the lowest excitation modes at zero rotational frequency. At finite frequency, however, the interplay between rotation and vibrations produces different effects depending on neutron number: The lowest octupole phonon is rotationally aligned in $^{190}mathrm{Hg}$, is crossed by the aligned two-quasiparticle bands in $^{192}mathrm{Hg}$, and retains the K=2 octupole vibrational character up to the highest frequency in $^{194}mathrm{Hg}$. The ensuremath{gamma} vibrations are predicted to be higher in energy and less collective than the octupole vibrations. From a comparison with the experimental dynamic moments of inertia, a new interpretation of the observed excited bands invoking the K=2 octupole vibrations is proposed, which suggests those octupole vibrations may be prevalent in superdeformed Hg nuclei. textcopyright{} 1996 The American Physical Society." @default.
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W1648489767 date "1996-05-01" @default.
W1648489767 modified "2023-10-16" @default.
W1648489767 title "Microscopic structure of high-spin vibrational excitations in superdeformedHg190,192,194" @default.
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W1648489767 doi "https://doi.org/10.1103/physrevc.53.2213" @default.
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