Explaining the MiniBooNE Anomalous Excess via Leptophilic ALP-Sterile Neutrino Coupling

Abstract

Recently, the MiniBooNE experiment at Fermilab has updated the results with increased data and reported an excess of 560.6 119.6 electronlike events (4.7σ) in the neutrino operation mode. In this paper, we propose a scenario to account for the excess where a Dirac-type sterile neutrino, produced by a charged kaon decay through the neutrino mixing, decays into a leptophilic axionlike particle () and a muon neutrino. The electron-positron pairs produced from the decays can be interpreted as electronlike events provided that their opening angle is sufficiently small. In our framework, we consider the with a mass ma = 20\,MeV and an inverse decay constant ce/fa = 10-2\,GeV-1, allowed by the astrophysical and experimental constraints. Then, after integrating the predicted angular or visible energy spectra of the to obtain the total excess event number, we find that our scenario with sterile neutrino masses within 150\,MeV mN 380 \,MeV (150\,MeV mN 180 \,MeV) and neutrino mixing parameters between 10-10 |Uμ 4|2 10-8 (3× 10-7 |Uμ 4|2 8 ×10-7) can explain the MiniBooNE data.