The MiniBooNE anomaly and heavy neutrino decay

Abstract

The anomaly in the low energy distribution of quasi-elastic neutrino events reported by the MiniBooNE collaboration is discussed. We show that the observed excess of electron-like events could originate from the production and decay of a heavy neutrino (h) in the MiniBooNE detector. The h is created by mixing in μ neutral-current interactions and decays radiatively into γ due to a transition magnetic moment between the h and a light neutrino . The energy measured in the detector arises from the subsequent conversion of the decay photon into a pair within the detector volume. The analysis of the energy and angular distributions of the excess events suggests that the h has a mass around 500 MeV and the lifetime τ_h 10-9 s. Existing experimental data are found to be consistent with a mixing strength between the h and the μ of |Uμ h|2 (1-4)× 10-3 and a h transition magnetic moment of μtr (1- 6)× 10-9 μB. Finally, we discuss the reason why no significant excess of low energy events has been observed in the recent antineutrino data.