LHC Mono-W/Z Signatures as a Probe for Dark Matter Explanations of Astrophysical Excesses

Abstract

The inert two-Higgs doublet model (IDM) is a compelling framework for weakly interacting massive particles (WIMPs) linked to electroweak symmetry breaking. It can account for both the Galactic Center gamma-ray excess (GCE) and the AMS-02 antiproton anomaly while also satisfying relic density and direct detection constraints for dark matter (DM) masses in the 55-75 GeV range. Three specific DM annihilation channels can be identified: Higgs resonance, SA co-annihilation, and SS WW annihilation. Among these, the DM mass range of 70-75 GeV with dominant SS WW annihilation has received less attention in collider searches. To validate this parameter space, we combine LHC searches for mono-W/Z signatures. In particular, we develop a channel-separation strategy to disentangle the contributions of charged mass splitting () and neutral mass splitting (0) in the inert scalar sector at the LHC. Our results indicate that most of the parameter space consistent with these astrophysical anomalies in the SS WW annihilation regime will be testable at the High-Luminosity LHC. Specifically, from the leptonic channel we obtain a 2σ exclusion limit of 80 0 260 GeV, while the hadronic channel yields 30 0 150 GeV and 70 230 GeV for mS = 70 GeV.