Litcius/Paper detail

A dark seesaw solution to low energy anomalies: MiniBooNE, the muon (g − 2), and BaBar

Asli M. Abdullahi, Matheus Hostert, Silvia Pascoli

2021Physics Letters B65 citationsDOIOpen Access PDF

Abstract

A recent update from MiniBooNE has strengthened the observed 4.8σ excess of e-like events. Motivated by this and other notable deviations from standard model predictions, such as the muon (g−2), we propose a solution to low energy anomalies through a dark neutrino sector. The model is renormalizable and can also explain light neutrino masses with an anomaly-free and dark U(1)′ gauge symmetry broken at the GeV scale. Large kinetic mixing leads to s-channel production of heavy neutral leptons at e+e− colliders, where we point out and explain a ≳2σ excess observed in the BaBar monophoton data. Our model is also compatible with anomalous e-like events seen at old accelerator experiments, as well as with an excess of double vertex signatures observed at CCFR.

Topics & Concepts

MiniBooNEPhysicsParticle physicsMuonNeutrinoSeesaw molecular geometryLeptonStandard Model (mathematical formulation)Anomaly (physics)Nuclear physicsSterile neutrinoGauge (firearms)ElectronNeutrino oscillationCondensed matter physicsHistoryArchaeologyParticle physics theoretical and experimental studiesDark Matter and Cosmic PhenomenaNeutrino Physics Research