2018
DOI: 10.1103/physrevd.98.023016
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GeV-scale thermal WIMPs: Not even slightly ruled out

Abstract: Weakly interacting massive particles (WIMPs) have long reigned as one of the leading classes of dark matter candidates. The observed dark matter abundance can be naturally obtained by freezeout of weakscale dark matter annihilations in the early Universe. This "thermal WIMP" scenario makes direct predictions for the total annihilation cross section that can be tested in present-day experiments. While the dark matter mass constraint can be as high as m χ ≳ 100 GeV for particular annihilation channels, the const… Show more

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Cited by 181 publications
(210 citation statements)
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References 176 publications
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“…[85]. Since the annihilation process through the vector mediator is an s-wave process, severe bounds from the CMB rule out DM masses below O(10) GeV [86] and a combined analysis of indirect detection experiments leads to O(20) GeV [87].…”
Section: Relic Densitymentioning
confidence: 99%
“…[85]. Since the annihilation process through the vector mediator is an s-wave process, severe bounds from the CMB rule out DM masses below O(10) GeV [86] and a combined analysis of indirect detection experiments leads to O(20) GeV [87].…”
Section: Relic Densitymentioning
confidence: 99%
“…where m f is the mass of the final states. The (dominant) pwave DM annihilation is therefore not constrained by current observations [109,111]. The observed value of the DM relic density is obtained then through [110] Ω h 2 x f 1.07 × 10 9 GeV −1 g where M Pl is the Planck mass and x f ≡ m DM /T f is the usual ratio between the DM mass and the temperature at the freezeout, which can be taken to be x f = 20.…”
Section: Constraints From Observations and Experimentsmentioning
confidence: 99%
“…For even lighter dark matter masses, in the MeV range, electron recoil experiments can be more relevant but their sensitivity is also rather modest [15][16][17][18][19]. Interestingly, for indirect detection even in the canonical tens-of-GeV range, the perceived stringent constraints are only for annihilations to specific channels and the less model-dependent constraints are not very stringent [20]. Obviously, the annihilations to neutrinos are much harder to probe.…”
Section: Introductionmentioning
confidence: 99%