Total Gluon Helicity Contribution to the Proton Spin from Lattice QCD
Abstract
We report a state-of-the-art lattice QCD calculation of the total gluon helicity contribution to the proton spin, G. The calculation is done on ensembles with three different lattice spacings a=\0.08, 0.09, 0.11\ fm. By employing distillation and momentum smearing for proton external states, we extract the bare matrix elements of the topological current Kμ using 5-HYP smeared Coulomb gauge fixing configurations. Furthermore, we apply a non-perturbative RI/MOM renormalization scheme augmented by the Cluster Decomposition Error Reduction (CDER) technique to determine the renormalization constants of Kμ. The results obtained from different components Kt,i (with i being the direction of proton momentum or polarization) are consistent with Lorentz covariance within uncertainties. After extrapolating to the continuum limit, G is found to be G = 0.231(17)sta.(44)sym. at the MS scale μ2=10\ GeV2, which constitutes approximately 46(9)\% of the proton spin.
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