Alpha-decay from $^{44}$Ti: Microscopic alpha half-life calculation using normalized spectroscopic factor
Abstract
The microscopic description of alpha decay from the nucleons' degree of freedom involves a two-step process. The first consists of the clusterization of neutron and proton pairs; the second involves the tunneling process. A robust protocol for calculating the normalized spectroscopic factor, as defined by Fliessbach, and its error is established and used for calculating the alpha-width for the states of the nucleus Ti. The Gamow Shell Model is used to calculate the structure part of the alpha-decay, while the Gamow wave function determines the reaction part. The conventional and normalized spectroscopic factors are calculated for the ground and excited states of Ti and the alpha-width and half-life of the excited states. A near alpha-threshold state has an alpha half-life of 5 sec. The normalization does not appreciably modify the ground-state clusterization, while the excited states do. The non-resonant continuum significantly increases the clustering of some of the excited states, particularly the state. The normalized formation amplitude looks like a single-particle wave function.
Keywords
Cite
@article{arxiv.2407.18025,
title = {Alpha-decay from $^{44}$Ti: Microscopic alpha half-life calculation using normalized spectroscopic factor},
author = {A. C. Dassie and R. M. Id Betan},
journal= {arXiv preprint arXiv:2407.18025},
year = {2024}
}
Comments
8 pages, 7 figures, 44 references