TL;DR
This paper develops a semi-microscopic continuum-RPA approach to analyze the direct-decay properties of isovector giant resonances, combining microscopic and phenomenological methods to improve understanding of resonance decay mechanisms.
Contribution
It introduces a novel semi-microscopic method that effectively describes both the gross properties and decay characteristics of giant resonances.
Findings
The approach accurately reproduces giant resonance gross properties.
It successfully describes direct-decay features of isovector giant resonances.
The method bridges microscopic and phenomenological modeling techniques.
Abstract
A semi-microscopic approach based on the continuum-RPA method and a phenomenological treatment of the spreading effect is developed and applied to describe direct-decay properties of a few isovector giant resonances. Capabilities of the approach to describe giant-resonance gross properties are also checked.
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