Dark Matter and Electroweak Symmetry Breaking from SO(10)

Abstract

We consider a minimal model of GUT scalar dark matter (DM) stabilized by the discrete gauge matter parity PX that arises from breaking of SO(10). The dark sector comprises the complex singlet S and the inert doublet H2. GUT scale parameters are evaluated to the electroweak scale via Renormalization Group Equations (RGEs). Experimental and theoretical constraints limit the DM mass to the 80 GeV to 2 TeV range. The EW symmetry breaking is radiative and can occur via RGE running and 1-loop matching corrections from integrating out DM. Because the next-to-lightest scalar is almost degenerate with DM, it gives a background free displaced decay vertex at the LHC.