Seesaw Portal to Super Heavy Dark Matter with Z3 Symmetry

Abstract

Right-handed neutrinos N are introduced to explain the origin of the tiny neutrino masses via the seesaw mechanism. Required by relatively large Yukawa coupling and leptogenesis, masses of right-handed neutrinos are beyond 109 GeV. Such heavy right-handed neutrino can mediate the production of super heavy dark matter via the freeze-in mechanism. In the minimal Z2 symmetric model, the right-hand neutrino portal interaction is yN φ N with the dark scalar φ. One drawback of the Z2 symmetric model is that the mass ordering mN>mφ with long-lived φ is almost ruled out by Big Bang Nucleosynthesis. In this paper, we propose that by extending the dark symmetry to Z3, one additional interaction y φ c is further allowed. In this way, the new decay mode φ would lead to the dark scalar φ being short-lived even with a feeble y, thus it is allowed by the cosmological constraints. The phenomenology of the Z3 symmetric super heavy dark matter model is also studied in this paper.