Nucleon Momentum Fraction, Helicity and Transversity from 2+1-flavor Lattice QCD

Abstract

High statistics results for the isovector momentum fraction, x u-d, helicity moment, x u- d, and the transversity moment, xδ u-δ d, of the nucleon are presented using seven ensembles of gauge configurations generated by the JLab/W&M/LANL/MIT collaborations using 2+1-flavors of dynamical Wilson-clover quarks. Attention is given to understanding and controlling the contributions of excited states. The final results are obtained using a simultaneous fit in the lattice spacing a, pion mass Mπ and the finite volume parameter Mπ L keeping leading order corrections. The data show no significant dependence on the lattice spacing and some evidence for finite-volume corrections. The main variation is with Mπ, whose magnitude depends on the mass gap of the first excited state used in the analysis. Our final results, in the MS scheme at 2 GeV, are x u-d = 0.160(16)(20), x u- d = 0.192(13)(20) and x δ u-δ d = 0.215(17)(20), where the first error is the overall analysis uncertainty assuming excited-state contributions have been removed, and the second is an additional systematic uncertainty due to possible residual excited-state contributions. These results are consistent with other recent lattice calculations and phenomenological global fit values.