Lepton parity dark matter and naturally unstable domain walls

Abstract

We propose a simple and predictive setup that connects neutrino masses, dark matter (DM), and gravitational waves. A minimal lepton parity DM scenario is considered where the residual symmetry (-1)L from the type I seesaw acts as the dark parity D=(-1)L+2j, ensuring DM stability without imposing any new symmetry. A singlet Majorana fermion S with even lepton parity serves as the DM candidate, interacting via a real scalar σ which is also even lepton parity. The scalar potential possesses an accidental Z2 symmetry, whose spontaneous breaking gives rise to unstable domain walls (DW) in the presence of explicit Z2 breaking terms allowed by the lepton parity. The subsequent DW annihilation generates a stochastic gravitational wave (GW) background potentially observable at different GW experiments.