Authors | AMANULLAH AALIMI |
---|---|
Journal | Physical Review C |
Page number | 54002-54002 |
Serial number | 109 |
Volume number | 109 |
IF | 3.733 |
Paper Type | Full Paper |
Published At | 2024 |
Journal Grade | ISI |
Journal Type | Typographic |
Journal Country | Iran, Islamic Republic Of |
Journal Index | JCR،Scopus |
Abstract
The developed Faddeev three-body equations are solved to search for bound-state solutions of a phi-meson $ \left(\phi\right) $ and two nucleons $ \left( NN \right) $ system. The newly published spin $ 3/2 $ $ N-\phi $ potential based on the $ \left({2+1}\right) $-flavor lattice QCD simulations near the physical point, and the realistic $ NN $ Malfliet-Tjon (MT) potential, are employed. Our numerical calculations for $ (I)J^{\pi}=(0)2^{-}$ $ \phi{-d} $ system in maximum spin lead to ground state binding energy of about $ 7 $ MeV and a matter radius of about $ 8 $ fm. Our results indicate the possibility of the formation of new nuclear clusters.
tags: Faddeev three-body bound state, hyperspherical harmonics % $ {N-}\phi \left(^{4}S_{3/2}\right) $ lattice QCD potential, $ \phi $-meson deuteron system,