# Analysis of Bohr formula of momentum of inertia for even-even atomic   nuclei

**Authors:** Mohd Kh. M. Abu El-Sheikh, Abdurahim Okhunov

arXiv: 1908.01944 · 2019-08-07

## TL;DR

This paper improves the theoretical calculation of the moment of inertia for even-even nuclei by including higher-order terms in the R-expansion, leading to results that better match experimental data.

## Contribution

It introduces a more accurate model by considering the first three terms in the R-expansion, addressing previous discrepancies with experimental values.

## Key findings

- Results are more realistic and align better with experimental data.
- Including higher-order terms improves the theoretical predictions.
- The model accounts for deformation parameters in nuclei.

## Abstract

The moment of inertia of even-even deformed nuclei which are derived on the basis of hydrodynamical model yield values that are too small compared with the experimental [Davidson 1965] ones. We expect that these contradictions come from the consideration only the first term in $R$- expansion in spite of not containing parameters indicating deformity of the nucleus, and neglecting all other terms which include the deformation parameters $\alpha\lambda\mu$. In this work, the first three terms in $R$- expansion are taken into account. The results are more realistic and too much better the previous ones.

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Source: https://tomesphere.com/paper/1908.01944