New Sensitivity to Solar WIMP Annihilation using Low-Energy Neutrinos

Carsten Rott; Jennifer Siegal-Gaskins; John F. Beacom

arxiv: 1208.0827 · v2 · pith:QSO6SA7Knew · submitted 2012-08-03 · 🌌 astro-ph.HE · hep-ph· nucl-th

New Sensitivity to Solar WIMP Annihilation using Low-Energy Neutrinos

Carsten Rott , Jennifer Siegal-Gaskins , John F. Beacom This is my paper

classification 🌌 astro-ph.HE hep-phnucl-th

keywords neutrinosfinallow-energypionssensitivitysolarstatesannihilate

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Dark matter particles captured by the Sun through scattering may annihilate and produce neutrinos, which escape. Current searches are for the few high-energy neutrinos produced in the prompt decays of some final states. We show that interactions in the solar medium lead to a large number of pions for nearly all final states. Positive pions and muons decay at rest, producing low-energy neutrinos with known spectra, including nuebar through neutrino mixing. We demonstrate that Super-Kamiokande can thereby provide a new probe of the spin-dependent WIMP-proton cross section. Compared to other methods, the sensitivity is competitive and the uncertainties are complementary.

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Super-Kamiokande Strongly Constrains Leptophilic Dark Matter Capture in the Sun
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Super-Kamiokande data constrains the DM-electron scattering cross-section for leptophilic dark matter to ~4e-41 cm2 below 100 GeV, exceeding direct detection by over an order of magnitude.