Remarks on nuclear matter: how an ω0 condensate can spike the speed of sound, and a model of Z(3) baryons

Abstract

I make two comments about nuclear matter. First, I consider the effects of a coupling between the O(4) chiral field, φ, and the ωμ meson, + \, ωμ2 \, φ\, 2; for any net baryon density, a condensate for ω0 is unavoidably generated. I assume that with increasing density, a decrease of the chiral condensate and the effective ω0 mass gives a stiff equation of state (EoS). In order to match that onto a soft EoS for quarkyonic matter, I consider an O(N) field at large N, where at nonzero temperature quantum fluctuations disorder any putative pion "condensate" into a quantum pion liquid (QπL) (arXiv:2005.10259). In this paper I show that the QπL persists at zero temperature. If valid qualitatively at N=4, the ω0 mass goes up sharply and suppresses the ω0 condensate. This could generate a spike in the speed of sound at high density, which is of relevance to neutron stars. Second, I propose a toy model of a Z(3) gauge theory with three flavors of fermions, where Z(3) vortices confine fermions into baryons. In 1+1 dimensions this model can be studied numerically with present techniques, using either classical or quantum computers.

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