Glue Spin SG in The Longitudinally Polarized Nucleon

Abstract

We present a lattice QCD calculation of the glue spin SG in the nucleon for the first time. It was recently shown that the first moment of the glue helicity distribution could be obtained through the cross-product of the the electric field E and the physical gauge field Aphys with the non-Abelian Coulomb gauge condition, i.e. ∫ d3 x\, \,E(x) × Aphys(x) in the infinite momentum frame. We use the gauge field tensor from the overlap Dirac operator to check the frame dependence and calculate glue spin with several momenta. The calculation is carried out with valence overlap fermion on 2+1 flavor DWF gauge configurations on the 243 × 64 lattice with a-1=1.77 GeV with the light sea quark mass corresponding to a pion mass of 330 MeV.