hyper-nuclear states predicted by NLO chiral baryon-baryon interactions

Abstract

The single-particle potential obtained in nuclear matter with the next-to-leading order baryon-baryon interactions in chiral effective field theory is applied to finite nuclei by an improved local-density approximation method. As a premise, phase shifts of N elastic scattering and the results of Faddeev calculations for the NN bound state problem are presented to show the properties of the N interactions in the present parametrization. First, the states in 14N are revisited because of the recent experimental progress, including the discussion on the N spin-orbit interaction that is relevant to the location of the p-state. Then the levels in 56Fe are calculated. In particular, the level shift which is expected to be measured experimentally in the near future is predicted. The smallness of the imaginary part of the single-particle potential is explicitly demonstrated.