No evidence for p- or d-wave dark matter annihilation from local large-scale structure

If dark matter annihilates into standard model particles with a cross-section which is velocity dependent, then Local Group dwarf galaxies will not be the best place to search for the resulting gamma ray emission. A greater flux would be produced by more distant and massive halos, with larger veloci...

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Veröffentlicht in:	arXiv.org 2023-04
Hauptverfasser:	Kostić, Andrija, Bartlett, Deaglan J, Desmond, Harry
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Sprache:	eng
Schlagworte:	Algorithms Constraints Cross-sections Dark matter Dispersions Dwarf galaxies Galactic halos Gamma emission Gamma rays Large scale structure of the universe Local group (astronomy) Reconstruction Standard model (particle physics) Velocity
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description	If dark matter annihilates into standard model particles with a cross-section which is velocity dependent, then Local Group dwarf galaxies will not be the best place to search for the resulting gamma ray emission. A greater flux would be produced by more distant and massive halos, with larger velocity dispersions. We construct full-sky predictions for the gamma-ray emission from galaxy- and cluster-mass halos within $\sim 200 \, {\mathrm{Mpc}}$ using a suite of constrained $N$-body simulations (CSiBORG) based on the Bayesian Origin Reconstruction from Galaxies algorithm. Comparing to observations from the Fermi Large Area Telescope and marginalising over reconstruction uncertainties and other astrophysical contributions to the flux, we obtain constraints on the cross-section which are two (seven) orders of magnitude tighter than those obtained from dwarf spheroidals for $p$-wave ($d$-wave) annihilation. We find no evidence for either type of annihilation from dark matter particles with masses in the range $m_\chi = 2-500 \, {\mathrm{GeV}}/c^2$, for any channel. As an example, for annihilations producing bottom quarks with $m_\chi = 10 \, {\mathrm{GeV}}/c^2$, we find $a_{1} < 2.4 \times 10^{-21} \, {\mathrm{cm^3 s^{-1}}}$ and $a_{2} < 3.0 \times 10^{-18} \, {\mathrm{cm^3 s^{-1}}}$ at 95% confidence, where the product of the cross-section, $\sigma$, and relative particle velocity, $v$, is given by $\sigma v = a_\ell (v/c)^{2\ell}$ and $\ell=1, 2$ for $p$-, $d$-wave annihilation, respectively. Our bounds, although failing to exclude the thermal relic cross-section for velocity-dependent annihilation channels, are among the tightest to date.
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As an example, for annihilations producing bottom quarks with $m_\chi = 10 \, {\mathrm{GeV}}/c^2$, we find $a_{1} < 2.4 \times 10^{-21} \, {\mathrm{cm^3 s^{-1}}}$ and $a_{2} < 3.0 \times 10^{-18} \, {\mathrm{cm^3 s^{-1}}}$ at 95% confidence, where the product of the cross-section, $\sigma$, and relative particle velocity, $v$, is given by $\sigma v = a_\ell (v/c)^{2\ell}$ and $\ell=1, 2$ for $p$-, $d$-wave annihilation, respectively. 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subjects	Algorithms Constraints Cross-sections Dark matter Dispersions Dwarf galaxies Galactic halos Gamma emission Gamma rays Large scale structure of the universe Local group (astronomy) Reconstruction Standard model (particle physics) Velocity
title	No evidence for p- or d-wave dark matter annihilation from local large-scale structure
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