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Opening a New Window onto the Universe with IceCube

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arxiv 1805.11112 v1 pith:M775TJSB submitted 2018-05-28 astro-ph.HE hep-ph

Opening a New Window onto the Universe with IceCube

classification astro-ph.HE hep-ph
keywords neutrinosdetectorsicecubecosmicdetectorenergyhigh-energyrole
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Weakly interacting neutrinos are ideal astronomical messengers because they travel through space without deflection by magnetic fields and, essentially, without absorption. Their weak interaction also makes them notoriously difficult to detect, with observation of high-energy neutrinos from distant sources requiring kilometer-scale detectors. The IceCube project transformed a cubic kilometer of natural Antarctic ice at the geographic South Pole into a Cherenkov detector. It discovered a flux of cosmic neutrinos in the energy range from 10 TeV to 10 PeV, predominantly extragalactic in origin. Their corresponding energy density is close to that of high-energy photons detected by gamma-ray satellites and ultra-high-energy cosmic rays observed with large surface detectors. Neutrinos are therefore ubiquitous in the nonthermal universe, suggesting a more significant role of protons (nuclei) relative to electrons than previously anticipated. Thus, anticipating an essential role for multimessenger astronomy, IceCube is planning significant upgrades of the present instrument as well as a next-generation detector. Similar detectors are under construction in the Mediterranean Sea and Lake Baikal.

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  1. Potential Dark Matter Signals at Neutrino Telescopes

    hep-ph 2019-07 unverdicted novelty 4.0

    Combined IceCube and ANTARES data show a low-energy neutrino excess whose sky distribution is compared to expectations from dark matter annihilation or decay.