Electroweak Radiative Corrections To Polarized Mller Scattering Asymmetries
Abstract
One loop electroweak radiative corrections to left-right parity violating Mller scattering (e-e- e-e-) asymmetries are presented. They reduce the standard model (tree level) prediction by 40 3 \% where the main shift and uncertainty stem from hadronic vacuum polarization loops. A similar reduction also occurs for the electron-electron atomic parity violating interaction. That effect can be attributed to an increase of 2θW(q2) by 3\% in running from q2=mZ2 to 0. The sensitivity of the asymmetry to ``new physics'' is also discussed.
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