Probing a left-right symmetric model from a displaced shower at the CMS muon system
Abstract
We study the potential collider discovery for the right-handed neutrinos (RHNs) in the minimal left-right symmetric model (LRSM). In this model, the RHNs can be either produced from the right-handed gauge boson WR, or the scalar triplet decays. The RHNs can subsequently decay via the heavy WR, making them potentially long-lived. In looking for such long-lived RHNs, a search for displaced shower at CMS muon system is reinterpreted for either the processes, pp → WR → N or pp → → N N. From the former process, we exclude MWR 3.6 TeV using current CMS data, or 8.0 TeV at the future HL-LHC. For the pp → → N N process, HL-LHC is able to probe much larger parameter space as long as the proper decay length of the RHNs, 0.01 m L0 1 m. This implies that the displaced shower searches are able to explore the parameter space of the LRSM which have not been excluded yet.
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