Analysis of the Energy Spectra of Ground States of Deformed Nuclei in rare-earth region

TL;DR

This paper presents a theoretical analysis of the energy spectra of ground states in deformed nuclei within the rare-earth region, showing good agreement with experimental data using a phenomenological model.

Contribution

It provides a detailed calculation of ground state energy spectra for specific deformed nuclei using a phenomenological approach, enhancing understanding of nuclear structure.

Findings

Low-lying spectra match experimental data well

Ground state energy levels are accurately modeled

Phenomenological model effectively describes deformed nuclei

Abstract

The 62Sm, 64Gd, 64Dy, 70Y b, 72Hf and 74W nuclei are classified as deformed nuclei. Low-lying bands are one of the most fundamental excitation modes in the energy spectra of deformed nuclei. In this paper a theoretical analysis of the experimental data within the phenomenological model is presented. The energy spectra of ground states are calculated. It is found the low-lying spectra of ground band states are in good agreement with the experimental data.