On a possible $^{3}_{\phi}$H hypernucleus with HAL QCD interaction
Abstract
Within the framework of the Faddeev formalism in configuration space, we investigate bound states in the system with total isospin and . The recently proposed lattice HAL QCD potential in the channel does not support either or bound states. The HAL QCD potential in the channel suggests the bound states for and systems. However, the binding energies are highly sensitive to variations of the enhancement factor , and the system is extremely strongly bound in the state . Considering a spin-averaged potential % for the state yields a bound state for H hypernucleus with the binding energy (BE) 14.9 MeV when . The evaluation of the BE for the , three-body state results in 5.47 MeV. %Also, We evaluated the BE for the , three-body state as 5.47 MeV. Additionally, calculations using our approach confirm the bound states for the ( and ) system previously predicted with the Yukawa-type potential motivated by the QCD van der Waals attractive force, mediated by multi-gluon exchanges.
Cite
@article{arxiv.2407.12190,
title = {On a possible $^{3}_{\phi}$H hypernucleus with HAL QCD interaction},
author = {Igor Filikhin and Roman Ya. Kezerashvili and Branislav Vlahovic},
journal= {arXiv preprint arXiv:2407.12190},
year = {2024}
}
Comments
6 Pages, 1 figure