Chiral SU(3) dynamics and $\Lambda$-hyperons in the nuclear medium
Abstract
We present a novel approach to the density dependent mean field and the spin-orbit interaction of a -hyperon in a nuclear many-body system, based on flavor-SU(3) in-medium chiral perturbation theory. The leading long-range -interaction arises from kaon exchange and from two-pion exchange with a -hyperon in the intermediate state. The empirical -nucleus potential depth of about MeV is well reproduced with a single cutoff scale, GeV, effectively representing all short-distance (high-momentum) dynamics not resolved at scales characteristic of the nuclear Fermi momentum. This value of is remarkably consistent with the one required to reproduce the empirical saturation point of isospin-symmetric nuclear matter in the same framework. The smallness of the -nuclear spin-orbit interaction finds a natural (yet novel) explanation in terms of an almost complete cancellation between short-range contributions (properly rescaled from the known nucleonic spin-orbit coupling strength) and long-range terms generated by iterated one-pion exchange with intermediate -hyperons. The small -mass difference figures prominently in this context.
Cite
@article{arxiv.nucl-th/0410062,
title = {Chiral SU(3) dynamics and $\Lambda$-hyperons in the nuclear medium},
author = {N. Kaiser and W. Weise},
journal= {arXiv preprint arXiv:nucl-th/0410062},
year = {2011}
}
Comments
9 pages, 4figures