Microscopic mass estimations
Jorge G.Hirsch, Joel Mendoza-Temis
TL;DR
This paper explores the development of a microscopic mass formula inspired by Duflo-Zuker, aiming to incorporate key microscopic effects and improve the transparency of shell closure descriptions in nuclear mass modeling.
Contribution
It introduces a new approach to microscopic mass estimation that emphasizes transparency and aims to better describe shell closures compared to existing models.
Findings
Proposes a formalism inspired by Duflo-Zuker for nuclear mass estimation
Addresses challenges in modeling shell closures transparently
Lays groundwork for more accurate microscopic mass formulas
Abstract
The quest to build a mass formula which have in it the most relevant microscopic contributions is analyzed. Inspired in the successful Duflo-Zuker mass description, the challenges to describe the shell closures in a more transparent but equally powerful formalism are discussed.
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