# $\alpha$-cluster structure above double-shell closures and   $\alpha$-decay of $^{104}$Te

**Authors:** M. A. Souza, H. Miyake, T. Borello-Lewin, C. A. da Rocha, C. Frajuca

arXiv: 1904.06657 · 2019-05-22

## TL;DR

This study models the alpha-cluster structure of $^{104}$Te using a local potential approach, successfully matching experimental alpha-decay data and highlighting its strong alpha-clustering compared to similar nuclei.

## Contribution

The paper introduces a successful local potential model for $^{104}$Te's alpha-cluster structure, providing new insights into its high alpha-clustering degree and superallowed alpha decay.

## Key findings

- Model reproduces experimental alpha-decay energies and half-lives.
- $^{104}$Te shows higher alpha-clustering than $^{94}$Mo and $^{212}$Po.
- Supports $^{104}$Te as a prime candidate for alpha-clustering in the $N,Z=50$ region.

## Abstract

An analysis of the $\alpha$ + core properties of $^{104}$Te along with a global discussion on the $\alpha$-cluster structure above the double-shell closures is presented from the viewpoint of the local potential model. The $\alpha$ + core interaction is described by a nuclear potential of (1 + Gaussian)$\times$(W.S. + W.S.$^3$) shape with two free parameters, which has been successfully tested in nuclei of different mass regions. The model produces $Q_{\alpha}$ values and $\alpha$-decay half-lives for $^{104}$Te in agreement with the 2018 experimental data of Auranen et al. in the energy range $5.13 \; \mathrm{MeV} < Q_{\alpha} < 5.3 \; \mathrm{MeV}$ using an $\alpha$ preformation factor $P_{\alpha} = 1$. The comparison of the calculated reduced $\alpha$-widths for the ground state bands of $^{104}$Te, $^{94}$Mo and $^{212}$Po indicates that $^{104}$Te has an $\alpha$-cluster degree significantly higher than $^{94}$Mo and much higher than $^{212}$Po. These results point to $^{104}$Te as a preferential nucleus for $\alpha$-clustering in the $N,Z = 50$ region and corroborate the statement on the superallowed $\alpha$-decay in $^{104}$Te.

## Full text

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## Figures

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## References

26 references — full list in the complete paper: https://tomesphere.com/paper/1904.06657/full.md

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Source: https://tomesphere.com/paper/1904.06657