RG scaling relations at chiral phase transition in two-flavor QCD

We investigate the nature of the chiral phase transition in the massless two-flavor QCD using the renormalization group improved gauge action and the Wilson quark action on $32^3times 16$, $24^3times 12$, and $16^3times 8$ lattices. Based on the renormalization group equation, we derive the scaling relation for the effective masses of mesons at the chiral phase transition point. If the chiral phase transition is second order, the effective masses as a function of the rescaled time/space do not depend on the lattice size and show the universal behavior. We find that our numerical simulations on the three sizes of lattices are excellently on the scaling curves, which is consistent with the second order phase transition.