Neutrino mass hierarchy from the discrete dark matter model

Abstract

We explore a possible explanation for the hierarchy in scale between the atmospheric and solar neutrino mass differences ( m231 , and m221) through the presence of two distinct neutrino mass mechanisms from tree- and one-loop-level contributions. We demonstrate that the ingredients needed to explain this hierarchy are present in the minimal discrete dark matter model [arXiv:2301.10811]. This scenario is characterized by adding new RH neutrinos and scalar SU(2) doublets to the Standard Model as triplet representations of an A4 flavour symmetry. The A4 symmetry breaking, which occurs at the electroweak scale, leads to a residual Z2 symmetry responsible for the dark matter stability and dictates the neutrino phenomenology. We show that CP breaking in the scalar potential is needed to fit the neutrino mixing angles.