Folding procedure for $\Omega$-$\alpha$ potential
Abstract
Using the folding procedure, we investigate the bound state of the + system based on - () HAL QCD potential. Previous theoretical analyses have indicated the existence of a deeply bound ground state, which is attributed to the strong -nucleon interaction. By employing well-established parameterizations of nucleon density within the alpha particle, and the central HAL QCD - potential, we performed numerical calculations for the folding - potential. Our results show that the potential can be accurately fitted using a Woods-Saxon function, with a phenomenological parameter fm () in the asymptotic region where fm. We provide a thorough description of the corresponding numerical procedure. Our evaluation of the binding energy of the + system within the cluster model is consistent with both previous and recent reported findings. To further validate the folding procedure, we also calculated the - folding potential based on a simulation of the ESC08c - Nijmegen model. A comprehensive comparison between the - folding and - phenomenological potentials is presented and discussed.
Keywords
Cite
@article{arxiv.2411.02021,
title = {Folding procedure for $\Omega$-$\alpha$ potential},
author = {Igor Filikhin and Roman Ya. Kezerashvili and Branislav Vlahovic},
journal= {arXiv preprint arXiv:2411.02021},
year = {2026}
}
Comments
9 pages, 3 Figures