Unraveling the Scotogenic Model at Muon Collider
Abstract
The Scotogenic model extends the standard model with three singlet fermion Ni and one inert doublet scalar η to address the common origin of tiny neutrino mass and dark matter. For fermion dark matter N1, a hierarchical Yukawa structure |y1e||y1μ||y1τ|(1) is usually favored to satisfy constraints from lepton flavor violation and relic density. Such large μ-related Yukawa coupling would greatly enhance the pair production of charged scalar η at the muon collider. In this paper, we investigate the dilepton signature of the Scotogenic model at a 14 TeV muon collider. For the dimuon signature μ+μ-+/ -0.65em ET, we find that most viable samples can be probed with 200~fb-1 data. The ditau signature τ+τ-+/ -0.65emET is usually less promising but is important to probe the small |y1μ| region. The mono-photon signature γ+/ -0.65em ET could also probe the compressed mass region M1 Mη. Masses of charged scalar η and dark matter N1 can be further extracted by a binned likelihood fit of the dilepton energy.
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