From gamma ray line signals of dark matter to the LHC

Abstract

We explore the relationship between astrophysical gamma-ray signals and LHC signatures for a class of phenomenologically successful secluded dark matter models, motivated by recent evidence for a ~130 GeV gamma-ray line. We consider in detail scenarios in which interactions between the dark sector and the standard model are mediated by a vev-less scalar field φ, transforming as an N-plet (N > 3) under SU(2)L. Since some of the component fields of φ carry large electric charges, loop induced dark matter annihilation to γ γ and γ Z can be enhanced without the need for non-perturbatively large couplings, and without overproduction of continuum gamma-rays from other final states. We discuss prospects for other experimental tests, including dark matter-nucleon scattering and production of φ at the LHC, where future searches for anomalous charged tracks may be sensitive. The first LHC hints could come from the Higgs sector, where loop corrections involving φ lead to significantly modified h to γ γ and h to γ Z branching ratios.