2015
DOI: 10.1103/physrevd.91.083535
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Comprehensive search for dark matter annihilation in dwarf galaxies

Abstract: We present a new formalism designed to discover dark matter annihilation occurring in the Milky Way's dwarf galaxies. The statistical framework extracts all available information in the data by simultaneously combining observations of all the dwarf galaxies and incorporating the impact of particle physics properties, the distribution of dark matter in the dwarfs, and the detector response. The method performs maximally powerful frequentist searches and produces confidence limits on particle physics parameters.… Show more

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Cited by 170 publications
(221 citation statements)
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“…For gamma-ray energies (and thus dark matter masses) below approximately a TeV, the Fermi Gamma-Ray Space Telescope (FGST) provides the best bounds at present [80][81][82][83]. In particular in this paper we will use the bounds set by the FGST in Ref.…”
Section: B Indirect Detectionmentioning
confidence: 99%
“…For gamma-ray energies (and thus dark matter masses) below approximately a TeV, the Fermi Gamma-Ray Space Telescope (FGST) provides the best bounds at present [80][81][82][83]. In particular in this paper we will use the bounds set by the FGST in Ref.…”
Section: B Indirect Detectionmentioning
confidence: 99%
“…For m S 3 < 20 GeV, the predicted annihilation rate for the τ + τ − final-state is in some tension with upper limits inferred from searches for DM signals in diffuse gamma-ray data from the Fermi Large Area Telescope observations of dwarf spheroidal satellite galaxies of the Milky Way [62][63][64].…”
Section: Effective Dm-lepton Interactionsmentioning
confidence: 99%
“…Until now, for the heavier dark matter mass range, these upper limits are the strictest limits based on observations by ground-based air Cherenkov telescopes. At lower energies, the Large Area Telescope of the Fermi satellite (Fermi-LAT) was able to provide σv < 1.2 × 10 −26 cm 3 s −1 below O(100) GeV particle masses annihilating into bb based on the observational results of several dSphs (Charbonnier et al 2011;Cholis & Salucci 2012;Geringer-Sameth et al 2015a;Ackermann et al 2015). Most recently, MAGIC collaboration (2016) performed a joint analysis of γ-ray data from the MAGIC and Fermi-LAT to obtain severer limits on dark matter candidates, and they improved on the previous upper limits by up to factor of ∼ 2 in the low mass range.…”
Section: Introductionmentioning
confidence: 99%