Nucleon structure functions from dynamical (2+1)-flavor domain wall fermions

Abstract

We report lattice-volume independence of low moments of nucleon structure functions from the coarse RIKEN-BNL-Columbia (RBC) and UKQCD joint dynamical (2+1)-flavor domain-wall fermions (DWF) ensembles at the lattice cut off of (a-11.7) GeV. The isovector quark momentum fraction, (< x >u-d), and helicity fraction, (< x > u - d), both fully non-perturbatively renormalized are studied on two spatial volumes of (( 2.7 fm)3) and (( 1.8 fm)3). Their naturally renormalized ratio, (< x >u-d/< x > u - d), is not affected by any finite-size effect. It does not depend strongly on light quark mass and does agree well with the experiment. The respective absolute values, fully non-perturbatively renormalized, do not show any finite-size effect either. They show trending toward the respective experimental values at the lightest up- and down-quark mass. This trending down to the experimental values appears to be a real physical effect driven by lighter quarks. The observations are in contrast to the huge finite-size effect seen in the axial-current form factors.