Binding two and three $\alpha$ particles in cold neutron matter
Abstract
We elucidate the fate of neighboring two and three- particles in cold neutron matter by focusing on an analogy between such systems and Fermi polarons realized in ultracold atoms. We describe in-medium excitation properties of an particle and neutron-mediated two- and three- interactions using theoretical approaches developed for studies of cold atomic systems. We numerically solve the few-body Schr\"odinger equation of particles within standard cluster models combined with in-medium properties of particles. We point out that the resultant two- ground state and three- first excited state, which correspond to Be and the Hoyle state, respectively, known as main components in the triple- reaction, can become bound states in such a many-neutron background although these states are unstable in vacuum. Our results suggest a significance of these in-medium cluster states not only in astrophysical environments such as core-collapsed supernova explosions and neutron star mergers but also in neutron-rich nuclei.
Cite
@article{arxiv.2106.14469,
title = {Binding two and three $\alpha$ particles in cold neutron matter},
author = {H. Moriya and H. Tajima and W. Horiuchi and K. Iida and E. Nakano},
journal= {arXiv preprint arXiv:2106.14469},
year = {2021}
}
Comments
9 pages, 5 figures