Searches for heavy neutrinos at a 3 TeV CLIC in fat jet final states
Abstract
Heavy Majorana neutrinos (N) are predicted in many models of physics beyond the Standard Model. In this work, we explore the production and detection prospects of TeV-scale heavy neutrinos (mN 1 TeV) at a future 3 TeV Compact Linear Collider (CLIC). We focus on two distinct decay topologies: (i) N W with hadronic W boson decay, leading to a final state with one charged lepton and a hadronic fat-jet JW; and (ii) N h with subsequent Higgs decay h bb, yielding a Higgs-tagged fat-jet Jh and ET. Based on comprehensive detector-level simulations and background analysis, we present both 2σ exclusion limits and 5σ discovery reaches in the mN-|V N|2 plane. We further extract 95\% confidence level upper limits on the mixing parameter |V N|2, and perform a detailed comparison with existing constraints from direct searches at future colliders and indirect global fits. Our findings demonstrate that a 3 TeV CLIC can improve the sensitivity to |V N|2 by about two orders of magnitude compared to the projected reaches of future hadron colliders, while remaining competitive with other CLIC search channels.
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