Light Adjoint Quarks in the Instanton-Dyon Liquid Model IV

Abstract

We discuss the instanton-dyon liquid model with Nf Majorana quark flavors in the adjoint representation of color SUc(2) at finite temperature. We briefly recall the index theorem on S1× R3 for twisted adjoint fermions in a BPS dyon background of arbitrary holonomy, and use the ADHM construction to explicit the adjoint anti-periodic zero modes. We use these results to derive the partition function of an interacting instanton-dyon ensemble with Nf light and anti-periodic adjoint quarks. We develop the model in details by mapping the theory on a 3-dimensional quantum effective theory with adjoint quarks with manifest SU(Nf)× Z4Nf symmetry. Using a mean-field analysis at weak coupling and strong screening, we show that center symmetry requires the spontaneous breaking of chiral symmetry, which is shown to only take place for Nf=1. For a sufficiently dense liquid, we find that the ground state is center symmetric and breaks spontaneously flavor symmetry through SU(Nf)× Z4Nf→ O(Nf). As the liquid dilutes with increasing temperature, center symmetry and chiral symmetry are restored. We present numerical and analytical estimates for the transition temperatures.