Collider Searches for Near-Continuum Dark Matter
Abstract
We study collider constraints on the near-continuum dark matter model, in which the dark sector consists of a tower of closely spaced states with weak-scale masses coupled to the Standard Model through a Z-portal. To capture this structure in a model-agnostic way, we introduce a minimal parameterization that encodes the dominant geometric information with three parameters. Using a custom-built Monte-Carlo tool for near-continuous spectra, we simulate DM-pair production at s=13 TeV and subsequent cascade decays via on/off-shell Z bosons, which yield events with large missing transverse momentum and high jet multiplicity. Recasting the CMS multijet+HT miss analysis of Run-2 data (35.9 fb-1), we derive bounds on the model parameter space. Extrapolating these bounds, we provide High-Luminosity LHC projections (3 ab-1). We also project sensitivities for future electron-positron colliders at s=365 GeV and s=500 GeV, showing substantial improvements over the HL-LHC. The current LHC sensitivity is beginning to approach the theoretically motivated region of the parameter space, while future colliders will be able to comprehensively test this model.
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