Multi-K nuclei and kaon condensation

Abstract

We extend previous relativistic mean-field (RMF) calculations of multi- K nuclei, using vector boson fields with SU(3) PPV coupling constants and scalar boson fields constrained phenomenologically. For a given core nucleus, the resulting K separation energy B K, as well as the associated nuclear and K-meson densities, saturate with the number of K mesons for > sat 10. Saturation appears robust against a wide range of variations, including the RMF nuclear model used and the type of boson fields mediating the strong interactions. Because B K generally does not exceed 200 MeV, it is argued that multi- K nuclei do not compete with multihyperonic nuclei in providing the ground state of strange hadronic configurations and that kaon condensation is unlikely to occur in strong-interaction self-bound strange hadronic matter. Last, we explore possibly self-bound strange systems made of neutrons and K0 mesons, or protons and K- mesons, and study their properties.