Leptonic CP asymmetry and heavy neutrino searches in seesaw scenario

Abstract

We investigate the prospects for probing heavy Majorana neutrinos in the type-I seesaw framework at the 14 TeV LHC. In this scenario, the light-heavy neutrino mixing enables the production of heavy neutrinos in association with charged leptons, followed by decays into dilepton plus dijet final states. We perform a detector-level cut-based analysis of both same-sign (SS) and opposite-sign (OS) dilepton channels and investigate the sensitivity as a function of the ratio Rll of SS to OS events. We derive projected constraints on the light-heavy neutrino mixing as a function of the heavy-neutrino mass. For Rll 1, the sensitivity at 140~fb-1 improves upon current LHC bounds by about one order of magnitude for MN 60-80~GeV, with a further order of magnitude improvement expected at the HL-LHC with 3~ab-1. The sensitivity decreases substantially for smaller Rll. We show that, for 50~GeV MN 100~GeV, the collider reach is strongly correlated with Rll and the associated CP asymmetry, providing additional motivation for future measurements of Rll and heavy-neutrino oscillations at colliders.