On finite-temperature holographic QCD in the Veneziano limit

Abstract

Holographic models in the T=0 universality class of QCD in the limit of large number Nc of colors and Nf massless fermion flavors, but constant ratio xf=Nf/Nc, are analyzed at finite temperature. The models contain a 5-dimensional metric and two scalars, a dilaton sourcing TrF2 and a tachyon dual to qq. The phase structure on the T,xf plane is computed and various 1st order, 2nd order transitions and crossovers with their chiral symmetry properties are identified. For each xf, the temperature dependence of p/T4 and the quark-antiquark -condensate is computed. In the simplest case, we find that for xf up to the critical xc 4 there is a 1st order transition on which chiral symmetry is broken and the energy density jumps. In the conformal window xc<xf<11/2, there is only a continuous crossover between two conformal phases. When approaching xc from below, xf xc, temperature scales approach zero as specified by Miransky scaling.