Type-II Seesaw Mechanism for Dirac Neutrinos and its Implications on Neff and Lepton Flavor Violation in a 3-3-1 model
Abstract
In this study, we implement the type-II seesaw mechanism for Dirac neutrino masses within the framework of a 3-3-1 model. To this end, we introduce a scalar sextet and impose both lepton number conservation and invariance under a discrete Z2 symmetry in the Lagrangian. This mechanism naturally generates small Dirac neutrino masses by allowing the soft breaking of the Z2 symmetry through a unique term in the scalar potential, while preserving lepton number. Specifically, we explore the realization of this model at low-energy scales. Regarding flavor implications, we analyze its contributions to the rare decay processes μ e γ and μ e ee. In the cosmological context, we analyze the influence of right-handed neutrinos on the effective number of neutrino species, Neff, through interactions mediated by the Z boson. Our findings establish a lower bound of mZ > 4.4 TeV, which slightly exceeds the current lower limit set by the Large Hadron Collider (LHC).
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