μ and τ elastic scattering in Borexino
Abstract
We perform a detailed study of neutrino-electron elastic scattering using the mono-energetic 7Be neutrinos in Borexino, with an emphasis on exploring the differences between the contributions of e, μ, and τ. We find that current data are capable of measuring these components such that the contributions from μ and τ cannot be zero, although distinguishing between them is challenging -- the differences stemming from Standard Model radiative corrections are insufficient without significantly more precise measurements. In studying these components, we compare predicted neutrino-electron scattering event rates within the Standard Model (accounting for neutrino oscillations), as well as going beyond the Standard Model in two ways. We allow for non-unitary evolution to modify neutrino oscillations, and find that with a larger exposure (30x), Borexino may provide relevant information for constraining non-unitarity, and that JUNO may be able to accomplish this with its data collection of 7Be neutrinos. We also consider novel μ- and τ-electron scattering from a gauged U(1)Lμ - Lτ model, showing consistency with previous analyses of Borexino and this scenario, but also demonstrating the impact of uncertainties on Standard Model mixing parameters on these results.
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