Journal of High Energy Physics (Jul 2023)
Phenomenology of the simplest linear seesaw mechanism
Abstract
Abstract The linear seesaw mechanism provides a simple way to generate neutrino masses. In addition to Standard Model particles, it includes quasi-Dirac leptons as neutrino mass mediators, and a leptophilic scalar doublet seeding small neutrino masses. Here we review its associated physics, including restrictions from theory and phenomenology. The model yields potentially detectable μ → eγ rates as well as distinctive signatures in the production and decay of heavy neutrinos (N i ) and the charged Higgs boson (H ± ) arising from the second scalar doublet. We have found that production processes such as e + e − → NN, e − γ → NH − and e + e − → H + H − followed by the decay chain H ± → ℓ i ± N $$ {H}^{\pm}\to {\ell}_i^{\pm }N $$ , N → ℓ j ± W ∓ $$ N\to {\ell}_j^{\pm }{W}^{\mp } $$ leads to striking lepton number violation signatures at high energies which may probe the Majorana nature of neutrinos.
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