An Axial-Vector Leptophilic Fifth Force Sourced by Solar Neutrinos

Abstract

We investigate long-range, purely leptophilic axial-vector interactions mediated by a light gauge boson A' that couples to charged leptons and, by weak symmetry, to left-handed neutrinos. We analyze two realizations, a minimal effective model with muon-only couplings and an anomaly-free axial U(1)' with inter-generation cancellations. In both cases, the solar neutrino flux acts as an extended current that sources a macroscopic A' field at Earth, with spatial components aligned along the Sun-Earth direction. This field produces a distinctive signature in storage-ring measurements of the muon anomalous magnetic moment, (g-2)μ, namely a diurnal, sign-changing contribution that is positive during daytime and negative at night, superimposed on a time-independent positive offset. We obtain bounds g' O(10-19) in both model frameworks for a light, effectively massless mediator. For completeness, we map the solar-neutrino-sourced potential to electron spin-sensor experiments and find g' O(10-22) in the electron channel.

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