Dark Matter at the Pseudoscalar Higgs Resonance in the pMSSM and SUSY GUTs

Abstract

We study dark matter at the MSSM pseudoscalar Higgs resonance (A-funnel), which is one of the few remaining MSSM thermal dark matter candidates in the 100-1000 GeV range safe from direct detection constraints. To illustrate the various factors at play, this study is performed in two contrasting set-ups: a bottom-up phenomenological MSSM (pMSSM) approach that allows significant freedom, and the top-down, highly constrained Yukawa unified SO(10) GUT model. In the pMSSM, for μ > 0, the entire parameter space lies above the coherent neutrino background and mostly within reach of XENON1T and LZ, while blind spots exist at mA\,> \, 800\,GeV for μ < 0; the strongest constraints come from A/H → τ τ searches at the LHC. For Yukawa unified models, the confluence of Bs → μ+ μ- constraints, fits to the bottom quark and Higgs masses, and gluino mass bounds from the LHC result in a prediction: realizing the pseudoscalar resonance requires gaugino mass non-universality, with a mass ratio that is determined to within a small range.