Abstract
We discuss phenomenological aspects of models whose scalar sector is extended by an isospin doublet scalar and a complex singlet scalar as an effective theory of supersymmetric models with mixed sneutrinos. In such models, the lighter of the mixed neutral scalars can become a viable dark matter (DM) candidate by imposing a global U(1) symmetry. We find that the thermal WIMP scenario is consistent with the cosmological DM abundance when the mass of the scalar is half of that of the discovered Higgs boson or larger than around 100 GeV. We also point out that, with an additional isospin singlet Majorana fermion mediator, even the mass of the scalar WIMP less than around 5 GeV is compatible with the observed DM abundance. We show that such cosmologically allowed regions can be explored at future collider experiments and DM detections.
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