Towards a determination of the chiral critical surface of QCD

Abstract

The chiral critical surface is a surface of second order phase transitions bounding the region of first order chiral phase transitions for small quark masses in the mu,d, ms,μ parameter space. The potential critical endpoint of the QCD (T,μ)-phase diagram is widely expected to be part of this surface. Since for μ=0 with physical quark masses QCD is known to exhibit an analytic crossover, this expectation requires the region of chiral transitions to expand with μ for a chiral critical endpoint to exist. Instead, on coarse Nt=4 lattices, we find the area of chiral transitions to shrink with μ, which excludes a chiral critical point for QCD at moderate chemical potentials μB < 500 MeV. First results on finer Nt=6 lattices indicate a curvature of the critical surface consistent with zero and unchanged conclusions. We also comment on the interplay of phase diagrams between the Nf=2 and Nf=2+1 theories and its consequences for physical QCD.