Gravitational Wave Probe of Singlet-Doublet Dark Matter Induced Radiative Neutrino Mass

Abstract

We investigate an one loop radiative neutrino mass model, where the loop particles, notably a singlet fermion (χ), a doublet fermion (Ψ) and three generations of singlet scalars (ϕi, i=\1,2,3\) are assumed to be odd under an additional Z2-symmetry. In this setup, the singlet fermion mixes with the neutral component of the doublet to give rise singlet-doublet Majorana dark matter. The addition of Z2 odd scalars in the model provides rich phenomenological implications. We find that the quartic interaction terms between the SM Higgs and ϕis play a significant role in modifying the scalar potential to have a first-order phase transition (FOPT) leading to observable gravitational waves (GWs) spectra. We also examine the non-trivial role played by the singlet-doublet fermion DM and the scalars in loop-induced neutrino mass, (g-2)μ, and lepton flavor violation. We find that the model is predictive due to the combined constraints and can be verified at different terrestrial experiments.