Progress On Neutrino-Proton Neutral-Current Scattering In MicroBooNE

Abstract

The MicroBooNE Experiment at the Fermi National Accelerator Laboratory, an 89-ton active mass liquid argon time projection chamber, affords a unique opportunity to observe low-Q2 neutral-current neutrino-proton scattering events. Neutral-current neutrino-proton scattering at Q2 < 1 GeV2 is dominated by the proton's axial form factor, which can be written as a combination of contributions from the up, down, and strange quarks: GA(Q2) = 12[-GAu(Q2)+GAd(Q2)+GAs(Q2)]. The contribution from up and down quarks has been established in past charged-current measurements. The contribution from strange quarks at low Q2 remains unmeasured; this is of great interest since the strange quark contribution to the proton spin can be determined from the low-Q2 behavior: S = GAs(Q2=0). MicroBooNE began operating in the Booster Neutrino Beam in October 2015. I will present the status in observing isolated proton tracks in the MicroBooNE detector as a signature for neutral-current neutrino-proton events. The sensitivity of the MicroBooNE experiment for measuring the strange quark contribution to the proton spin will be discussed.