Analytic Study on Chiral Phase Transition in Holographic QCD

Abstract

The chiral symmetry breaking (SB) is one of the most fundamental problems in QCD. In this paper, we calculate quark condensation analytically in a holographic QCD model dual to the Einstein-Maxwell-Dilaton (EMD) system coupled to a probe scalar field. We find that the black hole phase transition in the EMD system seriously affects SB. At small chemical potential, SB behaves as a crossover. For large chemical potential μ>μc, SB becomes first order with exactly the same transition temperature as the black hole phase transition by a bypass mechanism. The phase diagram we obtained is qualitatively consistent with the recent results from lattice QCD simulations and NJL models.