Superdeformed oblate superheavy nuclei in the self-consistent approach
L. Prochniak, A. Staszczak
TL;DR
This paper uses the HFB self-consistent method to analyze superheavy nuclei with Z=120-124 and N=160-168, revealing stable oblate deformed shapes and aligning well with microscopic-macroscopic results.
Contribution
It demonstrates the application of the HFB self-consistent approach to superheavy nuclei, highlighting the existence of oblate minima in their energy landscapes.
Findings
Existence of energy minima for oblate shapes in superheavy nuclei
Self-consistent HFB results agree with microscopic-macroscopic methods
Identification of strongly deformed, oblate configurations in nuclei Z=120-124, N=160-168
Abstract
The HFB self-consistent method has been applied to study the properties of several neutron deficient superheavy nuclei with Z=120-124, N=160-168. Their distinctive feature is the existence of minima of the total HFB energy for strongly deformed, oblate shapes. The self-consistent results agree quite remarkably with those currently obtained by using microscopic-macroscopic method.
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