Saturation in the Nuclear Matter Problem
arXiv:nucl-th/9210010
Abstract
Once density-dependent meson masses are introduced into the nuclear many-body problem, conventional mechanisms for saturation no longer operate. We suggest that a loop correction, essentially the introduction of the axial vector coupling $g_A(Ï,k)$ as function of density $Ï$ and momentum $k$, can bring about saturation, and present schematic calculations to illustrate this. We find that a very small density-dependence in $g_A$ gives rise to a very large saturating effect on nuclear matter. In fact, this new saturation mechanism turns out to be more powerful than any of the conventional mechanisms.
16 pages text (latex), 2 figures (not included, available upon request) September 1992