Early Results from the Qweak Experiment

A subset of results from the recently completed Jefferson Lab Qweak experiment are reported. This experiment, sensitive to physics beyond the Standard Model, exploits the small parity-violating asymmetry in elastic scattering to provide the first determination of the proton’s weak charge . The experiment employed a 180 μ A longitudinally polarized 1.16 GeV electron beam on a 35 cm long liquid hydrogen target. Scattered electrons in the angular range 6° θ 2 = 0.025 GeV 2 were detected in eight Cerenkov detectors arrayed symmetrically around the beam axis. The goals of the experiment were to provide a measure of to 4.2% (combined statisstatistical and systematic error), which implies a measure of sin 2 ( θ w ) at the level of 0.3%, and to help constrain the vector weak quark charges C 1 u and C 1 d . The experimental method is described, with particular focus on the challenges associated with the world’s highest power LH 2 target. The new constraints on C 1 u and C 1 d provided by the subset of the experiment’s data analyzed to date will also be shown, together with the extracted weak charge of the neutron.