Eta-mesic nuclei
Abstract
In this contribution we report on theoretical studies of nuclear quasi-bound states in few- and many-body systems performed recently by the Jerusalem-Prague Collaboration [1-5]. Underlying energy-dependent interactions are derived from coupled-channel models that incorporate the resonance. The role of self-consistent treatment of the strong energy dependence of subthreshold amplitudes is discussed. Quite large downward energy shift together with rapid decrease of the amplitudes below threshold result in relatively small binding energies and widths of the calculated nuclear bound states. We argue that the subthreshold behavior of scattering amplitudes is crucial to conclude whether nuclear states exist, in which nuclei the meson could be bound and if the corresponding widths are small enough to allow detection of these nuclear states in experiment.
Cite
@article{arxiv.1712.07982,
title = {Eta-mesic nuclei},
author = {A. Cieply and J. Mares and M. Schaefer and N. Barnea and B. Bazak and E. Friedman and A. Gal},
journal= {arXiv preprint arXiv:1712.07982},
year = {2018}
}
Comments
7 pages, 5 figures; presented at HADRON2017, Sept. 25-29, 2017, Salamanca (Spain); prepared for Proceedings of Science