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A<sc>bstract</sc> Direct detection is a powerful means of searching for particle physics evidence of dark matter (DM) heavier than about a GeV with š¯’Ŗ(kiloton) volume, low-threshold detectors. In many scenarios, some fraction of the DM may be boosted to large velocities enhancing and generally modifying possible detection signatures. We investigate the scenario where 100% of the DM is boosted at the Earth due to new attractive long-range forces. This leads to two main improvements in detection capabilities: (1) the large boost allows for detectable signatures of DM well below a GeV at large-volume neutrino detectors, such as DUNE, Super-K, Hyper-K, and JUNO, as possible DM detectors, and (2) the flux at the Earthā€™s surface is enhanced by a focusing effect. In addition, the model leads to a significant anisotropy in the signal with the DM flowing dominantly vertically at the Earthā€™s surface instead of the typical approximately isotropic DM signal. We develop the theory behind this model and also calculate realistic constraints using a detailed GENIE simulation of the signal inside detectors.
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Baum, Sebastian; Stengel, Patrick; Abe, Natsue; Acevedo, Javier F.; Araujo, Gabriela R.; Asahara, Yoshihiro; Avignone, Frank; Balogh, Levente; Baudis, Laura; Boukhtouchen, Yilda; et al (, Physics of the Dark Universe)
