Quantum phase transitions and new scales in QCD-like theories

Abstract

It is commonly believed that in confining vector-like gauge theories the center and chiral symmetry realizations are parametrically entangled, and if phase transitions occur, they must take place around the strong scale -1 of the gauge theory. We demonstrate that (non-thermal) vector-like theories formulated on R3 × S1 where S1 is a spatial circle exhibit new dynamical scales and new phenomena. There are chiral phase transitions taking place at -1/Nc in the absence of any change in center symmetry. -1/Nc, invisible in (planar) perturbation theory, is also the scale where abelian versus non-abelian confinement regimes meet. Large Nc volume independence (a working Eguchi-Kawai reduction) provides new insights and independently confirms the existence of these scales. We show that certain phases and scales are outside the reach of holographic (supergravity) modeling of QCD.