Lepton Flavor Violation in the Inert Scalar Model with Higher Representations

Abstract

We investigate the lepton flavor violation (LFV) in the inert scalar model with higher representations. We generalize the inert doublet model with right handed neutrino by using higher scalar and fermion representation of SU(2)L. As the generalized model and the inert doublet model have the same parameter space, we compare the rates of μ→ eγ, μ→ eee and μ-e conversion in nuclei in the doublet and its immediate extension, the quartet model. We show that the corresponding rates are larger in the case of higher representation compared to the Inert doublet for the same region of parameter space. This implies that such extended models are more constrained by current LFV bounds and will have better prospects in future experiments.