Calculation of cluster decays half-lives for nuclei between 56 < Zp < 120 by using temperature dependent proximity model

TL;DR

This paper calculates cluster decay half-lives for nuclei with Zp between 56 and 120 using a temperature dependent proximity model, showing improved accuracy over temperature independent methods.

Contribution

It introduces a temperature dependent proximity potential approach for calculating cluster decay half-lives, enhancing prediction accuracy for superheavy nuclei.

Findings

Temperature dependent model yields more accurate half-life predictions.

Results align well with experimental data.

Model provides reliable estimates for superheavy cluster decays.

Abstract

Cluster decays half-lives of elements with proton numbers between 56 < Zp < 120 are calculated by applying temperature dependent proximity potential approach. for showing the influence of temperature on cluster decays, we compared the results among temperature dependent and inde-pendent case with experimental values. The obtained results of the present investigation reveal that we have more accurate results for temperature dependent proximity potential in comparison to ignoring one. In the present work, we find that results provided with temperature dependent prox-imity model are reasonable estimates for cluster decays half-lives and provide reliable predictions for other super heavies cluster decays.