Nucleon electromagnetic form factors at large momentum from Lattice QCD

Abstract

Proton and neutron electric and magnetic form factors are the primary characteristics of their spatial structure and have been studied extensively over the past half-century. At large values of the momentum transfer Q2 they should reveal transition from nonperturbative to perturbative QCD dynamics as well as effects of quark orbital angular momenta and diquark correlations. Currently, these form factors are being measured at JLab at momentum transfer up to Q2=18 GeV2 for the proton and up to 14 GeV2 for the neutron. We report preliminary results of our lattice calculations of these form factors, including GE and GM nucleon form factors with momenta up to Q2=8 GeV2, pion masses down to the almost-physical mπ=170 MeV, several lattice spacings down to a=0.073 fm, and high O(105) statistics. Specifically, we study individual form factors, the GE/GM ratios, and flavor dependence of contributions to the form factors. We observe qualitative agreement of our ab initio theory calculations with experiment. Comparison of our calculations and upcoming JLab experimental results will be an important test of nonperturbative QCD methods in the almost-perturbative regime.

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