From chiral vibration to tilted-axis wobbling within broken chiral symmetry

From chiral vibration to tilted-axis wobbling within broken chiral symmetry

The effect of non-axial rigid alignment of the quasiparticle spins on the behaviour of the chiral partner bands is investigated within a semiclassical treatment of a particle-rotor Hamiltonian. A valence h11/2 proton particle and a h11/2 neutron hole are used to calculate the energy spectrum of the...

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Bibliographic Details
Main Author: R. Budaca
Format: Article
Language:English
Published: Elsevier 2021-06-01
Series:Physics Letters B
Subjects:
Chiral symmetry
Wobbling motion
Triaxial nuclei
Asymmetrical double-well potential
Online Access:http://www.sciencedirect.com/science/article/pii/S0370269321002483
Description
Summary:The effect of non-axial rigid alignment of the quasiparticle spins on the behaviour of the chiral partner bands is investigated within a semiclassical treatment of a particle-rotor Hamiltonian. A valence h11/2 proton particle and a h11/2 neutron hole are used to calculate the energy spectrum of the chiral partner bands as a function of the angles defining the rigid alignments of the quasiparticle spins. Distinct dynamical characteristics are identified in specific angular momentum ranges and tilting angles. It is found that the high spin static chirality regime transforms into a wobbling tilted axis rotation at sufficiently high deviations of the quasiparticle spins from the principal intrinsic axes. The experimental realization of the model is exemplified for the chiral bands of 132Pr and 138Pm.
ISSN:0370-2693

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