Structure formation models weaken limits on WIMP dark matter from dwarf spheroidal galaxies

Shin'Ichiro Ando; Alex Geringer-Sameth; Nagisa Hiroshima; Sebastian Hoof; Roberto Trotta; Matthew G. Walker

doi:10.1103/PhysRevD.102.061302

Structure formation models weaken limits on WIMP dark matter from dwarf spheroidal galaxies

Shin'Ichiro Ando, Alex Geringer-Sameth, Nagisa Hiroshima, Sebastian Hoof, Roberto Trotta, Matthew G. Walker

Department of Physics

Research output: Contribution to journal › Article › peer-review

37 Scopus citations

Abstract

Dwarf spheroidal galaxies that form in halo substructures provide stringent constraints on dark matter annihilation. Many ultrafaint dwarfs discovered with modern surveys contribute significantly to these constraints. At present, because of the lack of abundant stellar kinematic data for the ultrafaints, noninformative prior assumptions are usually made for the parameters of the density profiles. Based on semianalytic models of dark matter subhalos and their connection to satellite galaxies, we present more informative and realistic satellite priors. We show that our satellite priors lead to constraints on the annihilation rate that are between a factor of 2 and a factor of 7 weaker than under noninformative priors. As a result, the thermal relic cross section can at best only be excluded (with 95% probability) for dark matter masses of ≲40 GeV from dwarf spheroidal data, assuming annihilation into bb¯.

Original language	English
Article number	061302
Journal	Physical Review D
Volume	102
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevD.102.061302
State	Published - 2020/09

ASJC Scopus subject areas

Nuclear and High Energy Physics

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10.1103/PhysRevD.102.061302

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title = "Structure formation models weaken limits on WIMP dark matter from dwarf spheroidal galaxies",

abstract = "Dwarf spheroidal galaxies that form in halo substructures provide stringent constraints on dark matter annihilation. Many ultrafaint dwarfs discovered with modern surveys contribute significantly to these constraints. At present, because of the lack of abundant stellar kinematic data for the ultrafaints, noninformative prior assumptions are usually made for the parameters of the density profiles. Based on semianalytic models of dark matter subhalos and their connection to satellite galaxies, we present more informative and realistic satellite priors. We show that our satellite priors lead to constraints on the annihilation rate that are between a factor of 2 and a factor of 7 weaker than under noninformative priors. As a result, the thermal relic cross section can at best only be excluded (with 95% probability) for dark matter masses of ≲40 GeV from dwarf spheroidal data, assuming annihilation into bb¯.",

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AU - Ando, Shin'Ichiro

AU - Geringer-Sameth, Alex

AU - Hiroshima, Nagisa

AU - Hoof, Sebastian

AU - Trotta, Roberto

AU - Walker, Matthew G.

PY - 2020/9

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N2 - Dwarf spheroidal galaxies that form in halo substructures provide stringent constraints on dark matter annihilation. Many ultrafaint dwarfs discovered with modern surveys contribute significantly to these constraints. At present, because of the lack of abundant stellar kinematic data for the ultrafaints, noninformative prior assumptions are usually made for the parameters of the density profiles. Based on semianalytic models of dark matter subhalos and their connection to satellite galaxies, we present more informative and realistic satellite priors. We show that our satellite priors lead to constraints on the annihilation rate that are between a factor of 2 and a factor of 7 weaker than under noninformative priors. As a result, the thermal relic cross section can at best only be excluded (with 95% probability) for dark matter masses of ≲40 GeV from dwarf spheroidal data, assuming annihilation into bb¯.

AB - Dwarf spheroidal galaxies that form in halo substructures provide stringent constraints on dark matter annihilation. Many ultrafaint dwarfs discovered with modern surveys contribute significantly to these constraints. At present, because of the lack of abundant stellar kinematic data for the ultrafaints, noninformative prior assumptions are usually made for the parameters of the density profiles. Based on semianalytic models of dark matter subhalos and their connection to satellite galaxies, we present more informative and realistic satellite priors. We show that our satellite priors lead to constraints on the annihilation rate that are between a factor of 2 and a factor of 7 weaker than under noninformative priors. As a result, the thermal relic cross section can at best only be excluded (with 95% probability) for dark matter masses of ≲40 GeV from dwarf spheroidal data, assuming annihilation into bb¯.

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Structure formation models weaken limits on WIMP dark matter from dwarf spheroidal galaxies

Abstract

ASJC Scopus subject areas

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