Search for heavy Majorana neutrinos at muon-proton colliders via lepton-number-violating signals

Abstract

We propose a novel search strategy for heavy Majorana neutrinos based on the lepton-number-violating process μ-p jN j(+W-) at future muon-proton (μp) colliders equipped with 1 TeV muon beams and 7 TeV proton beams, yielding a center-of-mass energy of approximately 5.3 TeV. For heavy neutrinos with masses in the range 200~GeV mN 1000~GeV, this analysis targets the decay chain N +W- +jj, producing a characteristic final state consisting of one charged lepton and three well-resolved jets. For TeV-scale Majorana neutrinos, the W boson is highly boosted, such that its hadronic decay products coalesce into a prominent fat-jet (J) signature. We conduct comprehensive signal and background analyses that account for realistic detector effects to assess the search sensitivity. We derive the projected 2σ exclusion limits on the neutrino mixing parameter |V N|2 based on two typical integrated luminosity scenarios of 100~fb-1 and 1~ab-1. The results demonstrate that the proposed search strategy can achieve constraints substantially superior to the existing bounds from the LHC and other high-energy colliders. This study demonstrates that future μp colliders can provide competitive sensitivity for probing heavy Majorana neutrinos over the mass range 200~GeV ≤ mN ≤ 3000~GeV.