D. Frycz, J. Menéndez, A. Rios, A. M. Romero
Published 2023-12-01Version 1
We study the shape coexistence of differently deformed states within $^{28}$Si using shell-model and beyond-mean-field techniques. Experimentally, $^{28}$Si exhibits shape coexistence between an oblate ground state and an excited prolate structure. The oblate rotational band is described well within the $sd$ shell using the USDB interaction. However, for the prolate band, a modification of this interaction is required, lowering the single-particle energy of the $1d_{3/2}$ orbit. Furthermore, we explore the possibility of a superdeformed configuration in $^{28}$Si. Our calculations, spanning both the $sd$ and $pf$ shells, rule out the existence of a superdeformed $0^+$ bandhead within an excitation energy range of 10-20 MeV.
Comments: 6 pages, 4 figures. To be published in XXXVII Mazurian Lakes Conference Proceedings
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The quest of shape coexistence in Zr isotopes
Ferro-deformation and shape coexistence over the nuclear chart: 28 < protons (Z) < 50 and 40 < neutrons (N) < 70
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