Multi-antikaonic nuclei in the relativistic mean-field theory

Abstract

Properties of multi-antikaonic nuclei (MKN), where several numbers of K- mesons are bound, are studied in the relativistic mean-field model, combined with chiral dynamics for kaonic part of the thermodynamic potential. The density profiles for nucleons and K- mesons, the single particle energy of the K- mesons, and binding energy of the MKN are obtained. The effects of the K- K interactions on these quantities are discussed in comparison with other meson (σ, ω, and )-exchange models. It is shown that the K- K interactions originate from two contributions: One is the contact interaction between antikaons inherent in chiral symmetry, and the other is the one generated through coupling between the K- and meson mean fields. Both effects of the K- K repulsive interactions become large on the ground state properties of the MKN as the number of the embedded K- mesons increases. A relation between the multi-antikaonic nuclei and kaon condensation in infinite and uniform matter is mentioned.