Nucleon axial-vector form factor and radius from radiatively-corrected antineutrino scattering data

Abstract

The nucleon axial-vector form factor, GA, is critical to determine the electroweak interactions of leptons with nucleons. Important examples of processes influenced by GA are elastic (anti)neutrino-nucleon scattering and muon capture by the proton. Sparse experimental data results in a large uncertainty on the momentum dependence of GA and has motivated the consideration of new experimental probes and first-principles lattice quantum chromodynamics (QCD) evaluations. The comparison of new and precise theoretical predictions for GA with future experimental data necessitates the application of radiative corrections to experimentally-observable processes. We apply these corrections in the extraction of GA and the associated axial-vector radius from the recent MINERvA antineutrino-hydrogen data, compare the effects from radiative corrections to other uncertainties in neutrino scattering experiments, and discuss the comparison of lattice QCD evaluations to experimental measurements.