Neutrino experiments probe hadrophilic light dark matter
Yohei Ema, Filippo Sala, Ryosuke Sato
Abstract
We use Super-K data to place new strong limits on interactions of sub-GeV Dark Matter (DM) with nuclei, that rely on the DM flux inevitably induced by cosmic-ray upscatterings. We derive analogous sensitivities at Hyper-K and DUNE and compare them with others, e.g. at JUNO. Using simplified models, we find that our proposal tests genuinely new parameter space, allowed both by theoretical consistency and by other direct detection experiments, cosmology, meson decays and our recast of monojet. Our results thus motivate and shape a new physics case for any large volume detector sensitive to nuclear recoils.
Topics & Concepts
PhysicsDark matterNeutrinoCosmologyParticle physicsConsistency (knowledge bases)Parameter spaceCOSMIC cancer databaseFlux (metallurgy)DetectorPhysics beyond the Standard ModelCosmic rayNuclear physicsAstrophysicsOpticsGeometryStatisticsMaterials scienceMathematicsMetallurgyDark Matter and Cosmic PhenomenaParticle physics theoretical and experimental studiesCosmology and Gravitation Theories