Secluded U(1) below the weak scale

Abstract

A secluded U(1) sector with weak admixture to photons, O(10-2-10-3), and the scale of the breaking below 1 GeV represents a natural yet poorly constrained extension of the Standard Model. We analyze g-2 of muons and electrons together with other precision QED data, as well as radiative decays of strange particles to constrain mass--mixing angle (mV-) parameter space. We point out that mV = 214 MeV and 2 > 3× 10-5 can be consistent with the hypothesis of HyperCP collaboration, that seeks to explain the anomalous energy distribution of muon pairs in the + p μ+μ- process by a resonance, without direct contradiction to the existing data on radiative kaon decays. The same parameters lead to O( few × 10-9) upward correction to the anomalous magnetic moment of the muon, possibly relaxing some tension between experimental value and theoretical determinations of g-2. The ultra-fine energy resolution scan of e+e- μ+μ- cross section and dedicated analysis of lepton spectra from K+ π+ e+e- decays should be able to provide a conclusive test of this hypothesis and improve the constraints on the model.