Heavy singlet fermionic dark matter with Z4 symmetry

Abstract

We revisited the singlet fermionic dark matter model in this work, where a Majorana fermion χ carrying Z4 charge is assumed as the DM candidate. A new singlet scalar S0 with a non-zero vacuum expectation value is also introduced to the SM so that χ can obtain mass after spontaneous symmetry breaking. We focus on the secluded DM region for the model, where interactions between DM and SM particles can be negligible. We have a new Higgs h2 in the model, and the mixing angle of h2 with the SM Higgs will play an important role in determining DM production, depending on the mass hierarchy between the new Higgs mass and the DM mass. We study DM relic density as a function of the model's four free parameters and estimate the viable parameter space under DM relic density constraint as well as direct detection constraint. We focus on the heavy DM mass region, and our analysis indicates that the mixing angle does not necessarily need to be very small in the secluded dark matter scenario, which offers potential for probing such models in future collider experiments.