Eta-mesic nuclei in relativistic mean-field theory

Abstract

With the eta-nucleon (eta N) interaction Lagrangian deduced from chiral perturbation theory, we study the possible eta-mesic nuclei in the framework of relativistic mean-field theory. The eta single-particle energies are sensitive to the eta N scattering length, and increase monotonically with the nucleon number A. If the scattering length is in the range of aeta N=0.75-1.05 fm and the imaginary potential V0-15 MeV, some discrete states of C, O and Ne eta bound states should be identified in experiments. However, when the scattering length aeta N< 0.5 fm, or the imaginary potential V0 > 30 MeV, no discrete eta meson bound states could be observed in experiments.