Electroweak Observables in Neutrino-Electron Scattering from a Muon Storage Ring

Abstract

We investigate the sensitivity of a companion neutrino detector situated in the plane of a high-energy, high-intensity muon storage ring to elastic μ and e scattering on electrons (E). Assuming a muon collider with center-of-mass energies of up to 10~TeV, we report sensitivity to the weak couplings gV and gA up to around 0.05% relative error, and sensitivity to the weak mixing angle in the momentum transfer Q ∈ [10-2, 2]~GeV range up to around 0.03% relative error. E measurements with high-energy muon storage rings allow one to directly interrogate the momentum-transfer regime associated with the NuTeV anomaly. This level of precision allows unique sensitivity to the momentum-dependence of 2θW. We estimate that with the neutrinos from a Eμ = 1.5~TeV (or higher) muon collider, the hypothesis that 2θW does not ``run'' can be safely ruled out.

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