Quark mean-field model for single and double $\Lambda$ and $\Xi$ hypernuclei
Abstract
The study of hypernuclei in the quark mean-field model are extended from single- hypernuclei to double- hypernuclei as well as hypernuclei (double strangeness nuclei), with a broken SU(3) symmetry for the quark confinement potential. The strength of the potential for quarks is constrained by the properties of finite nuclei, while the one for quark is fixed by the single -nucleus potential at the nuclear saturation density, which has a slightly different value. Compared to our previous work, we find that the introduction of such symmetry breaking improves efficiently the description of the single energies for a wide range of mass region, which demonstrates the importance of this effect on the hypernuclei study. Predictions for double- hypernuclei and hypernuclei are then made, confronting with a few available experiential double- hypernuclei data and other model calculations. The consistency of our results with the available double- hypernucleus is found to be surprisingly good. Also, there is generally a bound state for hypernuclei with both light and heavy core nuclei in our model.
Cite
@article{arxiv.1310.3602,
title = {Quark mean-field model for single and double $\Lambda$ and $\Xi$ hypernuclei},
author = {J. N. Hu and A. Li and H. Shen and H. Toki},
journal= {arXiv preprint arXiv:1310.3602},
year = {2014}
}
Comments
9 pages, 4 figures, 2 tables, Prog. Theor. Exp. Phys (2013) accepted