Impact of conversion-driven processes on singlet-doublet Majorana dark matter relic

Abstract

The singlet-doublet dark matter model offers a rich framework for exploring the nature of dark matter (DM) through its unique fermion structure. In this model, the important parameters are the singlet-doublet mass splitting ΔM, the singlet-doublet mixing angle θ, and the DM mass M DM. If the DM is assumed to be of Dirac nature, then the annihilation, co-annihilation, and conversion driven processes combined allow a range of parameter space: 100~ GeV M DM750 GeV and 10-6θ0.04 for ΔM>1 GeV. While the nature of DM, either Dirac or Majorana, is not known, in this work, we assume the singlet-doublet DM to be of Majorana type and find that the relic density and direct detection can be satisfied over a larger parameter space. In particular, the allowed ranges of DM mass and θ are 100~ GeV M DM1750 GeV and 2×10-7θ0.45 for ΔM>1 GeV.