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Evidence of extended cold molecular gas and dust haloes around z ~ 2.3 extremely red quasars with ALMA

Jan Scholtz, R. Maiolino, Gareth C. Jones, Stefano Carniani

2023Monthly Notices of the Royal Astronomical Society20 citationsDOIOpen Access PDF

Abstract

ABSTRACT Large-scale outflows are believed to be an important mechanism in the evolution of galaxies. We can determine the impact of these outflows by studying either current galaxy outflows and their effect in the galaxy or by studying the effect of past outflows on the gas surrounding the galaxy. In this work, we examine the CO(7−6), [C i] ($^{3} \rm P_{1} \rightarrow {\rm ^3 P}_{0}$), H2O 211–202, and dust continuum emission of 15 extremely red quasars at z ∼ 2.3 using ALMA. By investigating the radial surface brightness profiles of both the individual sources and the stacked emission, we detect extended cold gas and dust emission on scales of ∼14 kpc in CO(7−6), [C i](2−1), and dust continuum. This is the first time that the presence of a large amount of molecular gas was detected on large, circumgalactic medium scales around quasar host galaxies using [C i] extended emission. We estimate the dust and molecular gas mass of these haloes to be 107.6 and 1010.6 M⊙, indicating significant dust and molecular gas reservoirs around these extreme quasars. By estimating the time-scale at which this gas can reach these distances by molecular gas outflows (7–32 Myr), we conclude that these haloes are a relic of past AGN or starburst activity, rather than an effect of the current episode of extreme quasar activity.

Topics & Concepts

PhysicsAstrophysicsQuasarGalaxySurface brightnessAstronomyGalaxies: Formation, Evolution, PhenomenaAstrophysics and Star Formation Studies
Evidence of extended cold molecular gas and dust haloes around z ~ 2.3 extremely red quasars with ALMA | Litcius