Towards a parameter-free analysis of the QCD chiral phase transition and its universal critical behavior

Abstract

To quantify the universal properties of chiral phase transition in (2+1)-flavor QCD, we use an improved, renormalized order parameter for the chiral symmetry breaking. We construct ratios of this divergence-free order parameter from its values for different pairs of light quark masses. From this, we determine in a parameter-independent manner, the chiral phase transition temperature Tc and the associated critical exponent δ of the universality class. We present first numerical results of these calculations on Nτ=8 lattices, with staggered fermions.