Structure of eta' mesonic nuclei in a relativistic mean field theory

Abstract

The structure and the energy spectrum of the η mesonic nuclei are investigated in a relativistic mean field theory. One expects a substantial attraction for the η meson in finite nuclei due to the partial restoration of chiral symmetry in the nuclear medium. Such a hadronic scale interaction for the η mesonic nuclei may provide modification of the nuclear structure. The relativistic mean field theory is a self-contained model for finite nuclei which provides the saturation property within the model, and is good to investigate the structure change of the nucleus induced by the η meson. Using the local density approximation for the mean fields, we solve the equations of motion for the nucleons and the η meson self-consistently, and obtain the nuclear density distribution and the η energy spectrum for the η mesonic nuclei. We take 12C, 16O and 40Ca for the target nuclei. We find several bound states of the η meson for these nuclei thanks to the attraction for η in nuclei. We also find a sufficient change of the nuclear structure especially for the 1s bound state of η. This implies that the production of the 1s bound state in nuclear reaction may be suppressed.