Three flavor QCD phase transition with M\"obius domain wall fermions

Abstract

We present an updated study of the Nf=3 QCD phase transition using M\"obius domain wall fermions. Simulations were performed on Nt=12 lattices with aspect ratios ranging from 2 to 4 for various quark masses, at a lattice spacing of a=0.1361(20) fm, corresponding to a temperature of 121(2) MeV. To clarify the nature of the phase transition, a large-volume lattice, 483 × 12× 16, was added to analyze the volume dependence of disconnected chiral susceptibility. By examining the chiral condensate, disconnected chiral susceptibility, and Binder cumulant, and incorporating results from 243 × 12 × 16 and 363 × 12 × 16 lattices reported in earlier studies, we observe that the transition is consistent with a crossover at a quark mass of approximately mf MS(2\, GeV) 4 MeV at this temperature. Furthermore, we discuss the effects of residual chiral symmetry breaking on the chiral condensate and disconnected chiral susceptibility for different sizes in the 5th direction.