Schwinger-Dyson Study for Walking/Conformal Dynamics with IR Cutoffs

Abstract

Motivated by recent progress on many flavor QCD on a lattice, we investigate conformal/walking dynamics by using Schwinger-Dyson (SD) equation within an improved ladder approximation for two-loop running coupling. By numerically solving the SD equation, we obtain a pole mass mp, pion decay constant fπ, and investigate the chiral symmetry breaking and mass anomalous dimension γm in the presence of IR cutoffs IR. We find that the chiral symmetry breaking is suppressed \ if IR cutoff IR becomes larger than the critical \ value near the dynamical mass (IR mD) In the conformal phase the γm is strongly suppressed by IR cutoffs for IR mp. We, then, obtain finite size hyperscaling (FSS) relation by adapting a linearized approximation for the SD equation, and examine the γm The results offer valuable insight and suggestion for analyses in lattice gauge theories.