Modified empirical formulas and machine learning for $\alpha$-decay systematics
Abstract
Latest experimental and evaluated -decay half-lives between 82Z118 have been used to modify two empirical formulas: (i) Horoi scaling law [J. Phys. G \textbf{30}, 945 (2004)], and Sobiczewski formula [Acta Phys. Pol. B \textbf{36}, 3095 (2005)] by adding asymmetry dependent terms ( and ) and refitting of the coefficients. The results of these modified formulas are found with significant improvement while compared with other 21 formulas, and, therefore, are used to predict -decay half-lives with more precision in the unknown superheavy region. The formula of spontaneous fission (SF) half-life proposed by Bao \textit{et al.} [J. Phys. G \textbf{42}, 085101 (2015)] is further modified by using ground-state shell-plus-pairing correction taken from FRDM-2012 and using latest experimental and evaluated spontaneous fission half-lives between 82Z118. Using these modified formulas, contest between -decay and SF is probed for the nuclei within the range 112Z118 and consequently probable half-lives and decay modes are estimated. Potential decay chains of Og and 119 (168N184: island of stability) are analyzed which are found in excellent agreement with available experimental data. In addition, four different machine learning models: XGBoost, Random Forest (RF), Decision Trees (DTs), and Multilayer Perceptron (MLP) neural network are used to train a predictor for -decay and SF half-lives prediction. The prediction of decay modes using XGBoost and MLP are found in excellent agreement with available experimental decay modes along with our predictions obtained by above mentioned modified formulas.
Cite
@article{arxiv.2011.13566,
title = {Modified empirical formulas and machine learning for $\alpha$-decay systematics},
author = {G. Saxena and P. K. Sharma and Prafulla Saxena},
journal= {arXiv preprint arXiv:2011.13566},
year = {2021}
}
Comments
24 Pages, 6 Figures, Accepted in Journal of Physics G (Nucl. and Part. Physics)