Deeply quasi-bound state in single- and double-K nuclear clusters

Abstract

New calculations of the quasi-bound state positions in K-K-pp kaonic nuclear cluster are performed using non-relativistic four-body Faddeev-type equations in AGS form. The corresponding separable approximation for the integral kernels in the three- and four-body kaonic clusters is obtained by using the Hilbert-Schmidt expansion procedure. Different phenomenological models of KN-π potentials with one- and two-pole structure of (1405) resonance and separable potential models for K-K and nucleon-nucleon interactions, are used. The dependence of the resulting four-body binding energy on models of KN-π interaction is investigated. We obtained the binding energy of the K-K-pp quasi-bound state 80-94 MeV with the phenomenological KN potentials. The width is about 5-8 MeV for the two-pole models of the interaction, while the one-pole potentials give 24-31 MeV width.