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A lensed radio jet at milli-arcsecond resolution – II. Constraints on fuzzy dark matter from an extended gravitational arc

Devon Powell, Simona Vegetti, J. P. McKean, Simon D. M. White, Elisa G. M. Ferreira, Simon May, Cristiana Spingola

2023Monthly Notices of the Royal Astronomical Society Letters63 citationsDOIOpen Access PDF

Abstract

ABSTRACT Using a single gravitational lens system observed at ≲ 5 mas resolution with very long baseline interferometry, we place a lower bound on the mass of the fuzzy dark matter (FDM) particle, ruling out mχ ≤ 4.4 × 10−21 eV with a 20:1 posterior odds ratio relative to a smooth lens model. We generalize our result to non-scalar and multiple-field models, such as vector FDM, with mχ,vec > 1.4 × 10−21 eV. Due to the extended source structure and high angular resolution of the observation, our analysis is directly sensitive to the presence of granule structures in the main dark matter halo of the lens, which is the most generic prediction of FDM theories. A model based on well-understood physics of ultra-light dark matter fields in a gravitational potential well makes our result robust to a wide range of assumed dark matter fractions and velocity dispersions in the lens galaxy. Our result is competitive with other lower bounds on mχ from past analyses, which rely on intermediate modelling of structure formation and/or baryonic effects. Higher resolution observations taken at 10–100 GHz could improve our constraints by up to two orders of magnitude in the future.

Topics & Concepts

PhysicsDark matterAstrophysicsGravitational lensHaloDark matter haloGalaxyCold dark matterVery-long-baseline interferometryRedshiftGalaxies: Formation, Evolution, PhenomenaDark Matter and Cosmic PhenomenaRadio Astronomy Observations and Technology
A lensed radio jet at milli-arcsecond resolution – II. Constraints on fuzzy dark matter from an extended gravitational arc | Litcius