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Constraints on warm dark matter from UV luminosity functions of high-<i>z</i> galaxies with Bayesian model comparison

Anton Rudakovskyi, Andrei Mesinger, Denys Savchenko, Nicolas Gillet

2021Monthly Notices of the Royal Astronomical Society35 citationsDOIOpen Access PDF

Abstract

ABSTRACT The number density of small dark matter (DM) haloes hosting faint high-redshift galaxies is sensitive to the DM free-streaming properties. However, constraining these DM properties is complicated by degeneracies with the uncertain baryonic physics governing star formation. In this work, we use a flexible astrophysical model and a Bayesian inference framework to analyse ultraviolet (UV) luminosity functions (LFs) at z = 6–8. We vary the complexity of the astrophysical galaxy model (single versus double power law for the stellar – halo mass relation) as well as the matter power spectrum [cold DM versus thermal relic warm DM (WDM)], comparing their Bayesian evidences. Adopting a conservatively wide prior range for the WDM particle mass, we show that the UV LFs at z = 6–8 only weakly favour cold DM over WDM. We find that particle masses of ≲ 2 keV are rejected at a 95 per cent credible level in all models that have a WDM-like power spectrum cutoff. This bound should increase to ∼2.5 keV with the James Webb Space Telescope (JWST).

Topics & Concepts

PhysicsAstrophysicsGalaxyDark matterRedshiftLuminosityGalaxy formation and evolutionMatter power spectrumCold dark matterHaloLuminosity functionSpectral densityAstronomyStatisticsMathematicsGalaxies: Formation, Evolution, PhenomenaDark Matter and Cosmic PhenomenaCosmology and Gravitation Theories
Constraints on warm dark matter from UV luminosity functions of high-<i>z</i> galaxies with Bayesian model comparison | Litcius