Constraining Magnetic Fields in the Circumgalactic Medium

Abstract

We study the properties of magnetic fields in the circumgalactic medium (CGM) of z<1 galaxies by correlating Faraday rotation measures of 1,000 high-redshift radio sources with the foreground galaxy number density estimated from the DESI Legacy Imaging Surveys. This method enables us to extract signals of rotation measures contributed by intervening gas around multiple galaxies. Our results show that there is no detectable correlation between the distribution of rotation measures and the number of foreground galaxies, contrary to several previous results. Utilizing the non-detection signals, we estimate 3σ upper limits to the rotation measures from the CGM of 20 \ rad/m2 within~50 kpc and 10 \ rad / m2 at separations of 100 kpc. By adopting a column density distribution of ionized gas obtained from absorption line measurements, we further estimate the strengths of coherent magnetic fields parallel to the line of sight of < 2 \ μ G in the CGM. We show that the estimated upper limits of rotation measures and magnetic field strengths are sufficient to constrain outputs of recent galaxy magneto-hydrodynamic simulations. Finally, we discuss possible causes for the inconsistency between our results and previous works.