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W3022300980 abstract "We reanalyse the prospects for upcoming Ultra-High Energy Cosmic Ray experiments in connection with the phenomenology of Super-heavy Dark Matter. We identify a set of observables well suited to reveal a possible anisotropy in the High Energy Cosmic Ray flux induced by the decays of these particles, and quantify their performance via Monte Carlo simulations that mimic the outcome of near-future and next-generation experiments. The spherical and circular dipoles are able to tell isotropic and anisotropic fluxes apart at a confidence level as large as 4σ or 5σ, depending on the Dark Matter profile. The forward-to-backward flux ratio yields a comparable result for relatively large opening angles of about 40°, but it is less performing once a very large number of events is considered. We also find that an actual experiment employing these observables and collecting 300 events at 60 EeV would have a 50% chance of excluding isotropy against Super-heavy Dark Matter at a significance of at least 3σ." @default.
W3022300980 created "2020-05-13" @default.
W3022300980 creator A5021526049 @default.
W3022300980 creator A5091479170 @default.
W3022300980 date "2017-07-01" @default.
W3022300980 modified "2023-10-14" @default.
W3022300980 title "Ultra High Energy Cosmic Rays & Super-heavy Dark Matter" @default.
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W3022300980 doi "https://doi.org/10.1016/j.astropartphys.2017.04.005" @default.
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