The finite temperature phase transition from domain wall fermions

Abstract

We present results on the finite temperature QCD transition with 2+1 flavors using Domain Wall Fermions (DWF) with the Dislocation Suppressing Determinant Ratio (DSDR). In particular, we discuss how the use of DSDR allows us to study the finite temperature transition at the coarse lattice spacings corresponding to the transition region (T = 139 - 195 MeV) with DWF at Nτ = 8. The residual chiral symmetry breaking at these lattice spacings is sufficiently small so that a constant pion mass of mπ ≈ 200 MeV is obtained in our calculations. The strange quark mass is set to near its physical value. We show results on the restoration of chiral symmetry and deconfinement at finite temperature.