Overlap Valence on 2+1 Flavor Domain Wall Fermion Configurations with Deflation and Low-mode Substitution

Abstract

The overlap fermion propagator is calculated on 2+1 flavor domain wall fermion gauge configurations on 163 x 32, 243 x 64 and 323 x 64 lattices. With HYP smearing and low eigenmode deflation, it is shown that the inversion of the overlap operator can be expedited by ~ 20 times for the 163 x 32 lattice and ~ 80 times for the 323 x 64 lattice. Through the study of hyperfine splitting, we found that the O(m2a2) error is small and these dynamical fermion lattices can adequately accommodate quark mass up to the charm quark. The low energy constant mix which characterizes the discretization error of the pion made up of a pair of sea and valence quarks in this mixed action approach is calculated via the scalar correlator with periodic and anti-periodic boundary conditions. It is found to be small which shifts a 300 MeV pion mass by ~ 10 to 19 MeV on these sets of lattices. We have studied the signal-to-noise issue of the noise source for the meson and baryon. It is found that the many-to-all meson and baryon correlators with Z3 grid source and low eigenmode substitution is efficient in reducing errors for the correlators of both mesons and baryons. With 64-point Z3 grid source and low-mode substitution, it can reduce the statistical errors of the light quark (mπ ~ 200 - 300 MeV) meson and nucleon correlators by a factor of ~ 3-4 as compared to the point source. The Z3 grid source itself can reduce the errors of the charmonium correlators by a factor of ~ 3.