The J/-nucleon interaction mechanism: A theoretical study based on scattering length

Abstract

The low-energy J/ N scattering is of significant importance for various reasons. It is deeply interconnected with the hidden-charm Pc pentaquark states, provides insights into the role of gluons in nucleon structures, and is pertinent to the properties of J/ in nuclear medium. The scattering can occur through two distinct mechanisms: the coupled-channel mechanism involving open-charm meson-baryon intermediate states c D(*) and c(*) D(*), and the soft-gluon exchange mechanism. In this study, we investigate the S-wave J/ N scattering length arising from both mechanisms. Our findings indicate that both mechanisms lead to attractive interactions, yielding scattering lengths of [-10, -0.1] × 10-3 fm for the coupled-channel mechanism and <-0.16 fm for the soft-gluon exchange mechanism, respectively. Notably, the soft-gluon exchange mechanism produces a scattering length that is at least one order of magnitude larger than that from the coupled-channel mechanism, indicating its predominance. These findings can be corroborated through lattice calculations and will enhance our understanding of scattering processes that violate the Okubo-Zweig-Iizuka rule.

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