Neutrinoless double beta decay and Sterile dark matter in extended left right symmetric model

TL;DR

This paper explores an extended left-right symmetric model incorporating sterile neutrinos, analyzing neutrino phenomenology, sterile dark matter, and neutrinoless double beta decay within a flavor symmetry framework.

Contribution

It introduces a novel flavor symmetry-based extension of the LRSM with sterile fermions and studies its implications for neutrino physics and dark matter.

Findings

Neutrinoless double beta decay predictions consistent with current limits.

Sterile neutrino dark matter candidates identified within the model.

Enhanced understanding of neutrino mass generation mechanisms.

Abstract

We have studied a flavor symmetry-based extended left-right symmetric model(LRSM) with a dominant type-II seesaw mechanism and have explored the associated neutrino phenomenology. The particle content of the model includes usual quarks, and leptons along with additional sterile fermion per generation in the fermion sector while the scalar content contains Higgs doublets and scalar bidoublet. Realization of this extension of LRSM has been done by using $A_{4}\times Z_{4}$ discrete symmetries. In this work, we have also included the study of sterile neutrino dark matter(DM) phenomenology along with neutrinoless double beta decay within the framework.