A self-confined Fermi-gas model for nuclear collective motion

V.P. Aleshin

arXiv:0811.3883·nucl-th·November 25, 2008

A self-confined Fermi-gas model for nuclear collective motion

V.P. Aleshin

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TL;DR

This paper develops a microscopic Fermi-gas model to describe collective motion in hot nuclei, linking phenomenological parameters to nucleonic properties for better understanding of nuclear dynamics.

Contribution

It introduces a self-confined Fermi-gas model that connects microscopic nucleonic data with macroscopic collective nuclear behavior.

Findings

01

Expresses collective model parameters in terms of nucleonic quantities

02

Provides a microscopic basis for collective motion in hot nuclei

03

Enhances understanding of nuclear dynamics at finite temperature

Abstract

The main result of this study consists in working out a microscopic description of collective motion in hot nuclei, allowing to express the parameters of a phenomenological collective model in terms of nucleonic quantities.

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Taxonomy

TopicsQuantum Mechanics and Applications · Cold Fusion and Nuclear Reactions · Cold Atom Physics and Bose-Einstein Condensates