Measuring the Low-Energy Weak Mixing Angle with Supernova Neutrinos

Abstract

The weak mixing angle θW is a fundamental parameter in the electroweak theory with a value running according to the energy scale, and its precision measurement in the low-energy regime is still ongoing. We propose a method to measure the low-energy 2θW by taking advantage of Argo, a future ton-scale liquid argon dark matter detector, and the neutrino flux from a nearby core-collapse supernova (CCSN). We evaluate the expected precision of this measurement through the coherent elastic neutrino-nucleus scattering (CE) channel. We show that Argo is potentially capable of achieving a few percent determination of 2θW, at the momentum transfer of q 20 MeV, in the observation of a CCSN within 3 kpc from the Earth. Such a measurement is valuable for both the precision test of the electroweak theory and searching for new physics beyond the standard model in the neutrino sector.

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