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Forbidden dark matter annihilations into Standard Model particles

Raffaele Tito D’Agnolo, Di Liu, Joshua T. Ruderman, Po-Jen Wang

2021Journal of High Energy Physics34 citationsDOIOpen Access PDF

Abstract

A bstract We present kinematically forbidden dark matter annihilations into Standard Model leptons. This mechanism precisely selects the dark matter mass that gives the observed relic abundance. This is qualitatively different from existing models of thermal dark matter, where fixing the relic density typically leaves open orders of magnitude of viable dark matter masses. Forbidden annihilations require the dark matter to be close in mass to the particles that dominate its annihilation rate. We show examples where the dark matter mass is close to the muon mass, the tau mass, or the average of the tau and muon masses. We find that most of the relevant parameter space can be covered by the next generation of proposed beam-dump experiments and future high-luminosity electron positron colliders. Forbidden dark matter predicts large couplings to the Standard Model that can explain the observed value of ( g − 2) μ .

Topics & Concepts

PhysicsDark matterParticle physicsAnnihilationMuonStandard Model (mathematical formulation)Parameter spaceLight dark matterScalar field dark matterPhysics beyond the Standard ModelWarm dark matterWeakly interacting massive particlesDark fluidMixed dark matterPositronHot dark matterMassive particleNuclear physicsElementary particleHidden sectorThermalParticle (ecology)ElectronFermionSpace (punctuation)Baryonic dark matterDark Matter and Cosmic PhenomenaParticle physics theoretical and experimental studiesComputational Physics and Python Applications
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