Dennis Bonatsos, K. E. Karakatsanis, Andriana Martinou, T. J. Mertzimekis, N. Minkov
Published 2022-10-23Version 1
Shape coexistence in even-even nuclei is observed when the ground state band of a nucleus is accompanied by another K=0 band at similar energy but with radically different structure. We attempt to predict regions of shape coexistence throughout the nuclear chart using the parameter-free proxy-SU(3) symmetry and standard covariant density functional theory. Within the proxy-SU(3) symmetry the interplay of shell model magic numbers, formed by the spin-orbit interaction, and the 3-dimensional isotropic harmonic oscillator magic numbers, leads to the prediction of specific horizontal and vertical stripes on the nuclear chart in which shape coexistence should be possible. Within covariant density functional theory, specific islands on the nuclear chart are found, in which particle-hole excitations leading to shape coexistence are observed. The role played by particle-hole excitations across magic numbers as well as the collapse of magic numbers as deformation sets in is clarified.
Comments: 12 pages, 2 figures, to appear in the Proceedings of the 39th International Workshop on Nuclear Theory (Rila 2022), ed. M. Gaidarov and N. Minkov (Heron Press, Sofia, 2022)
Ferro-deformation and shape coexistence over the nuclear chart: 28 < protons (Z) < 50 and 40 < neutrons (N) < 70
Microscopic origin of shape coexistence in the N=90, Z=64 region
Shape Coexistence Around $^{44}_{16}$S$_{28}$: The Deformed N=28 Region
![QR code for arXiv:2210.12779 [nucl-th]](http://oss.arxitics.com/images/favicon.svg)