Gluon momentum fraction of the nucleon from lattice QCD

Abstract

We perform a direct calculation of the gluon momentum fraction of the nucleon using maximally twisted mass fermion ensembles with Nf=2+1+1 flavors at a pion mass of about 370\,MeV and a lattice spacing of a≈ 0.082\,fm and with Nf=2 flavors at the physical pion mass and a lattice spacing of a≈ 0.093\,fm. In the definition of the gluon operator we employ stout smearing to obtain a statistically significant result for the bare matrix elements. In addition, we perform a lattice perturbative calculation including 2 levels of stout smearing to carry out the mixing and the renormalization of the quark and gluon operators. We find, after conversion to the MS scheme at a scale of 2\,GeV: xRg = 0.284(23)(23) for pion mass of about 370\,MeV and xRg = 0.283(23)(15) for the physical pion mass.