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Molecular gas in<i>z</i>∼ 6 quasar host galaxies

Roberto Decarli, Antonio Pensabene, Bram Venemans, Fabian Walter, Eduardo Bañados, F. Bertoldi, C. L. Carilli, P. Cox, Xiaohui Fan, Emanuele Paolo Farina, Carl Ferkinhoff, Brent Groves, Jianan Li, Chiara Mazzucchelli, R. Neri, Dominik A. Riechers, Bade Uzgil, Feige Wang, Ran Wang, Axel Weiss, J. M. Winters, Jinyi Yang

2022Astronomy and Astrophysics46 citationsDOIOpen Access PDF

Abstract

We investigate the molecular gas content of z ∼ 6 quasar host galaxies using the Institut de Radioastronomie Millimétrique Northern Extended Millimeter Array. We targeted the 3 mm dust continuum, and the line emission from CO(6–5), CO(7–6), and [C I ] 2−1 in ten infrared–luminous quasars that have been previously studied in their 1 mm dust continuum and [C II ] line emission. We detected CO(7–6) at various degrees of significance in all the targeted sources, thus doubling the number of such detections in z ∼ 6 quasars. The 3 mm to 1 mm flux density ratios are consistent with a modified black body spectrum with a dust temperature T dust ∼ 47 K and an optical depth τ ν = 0.2 at the [C II ] frequency. Our study provides us with four independent ways to estimate the molecular gas mass, M H2 , in the targeted quasars. This allows us to set constraints on various parameters used in the derivation of molecular gas mass estimates, such as the mass per luminosity ratios α CO and α [CII] , the gas-to-dust mass ratio δ g/d , and the carbon abundance [C]/H 2 . Leveraging either on the dust, CO, [C I ], or [C II ] emission yields mass estimates of the entire sample in the range M H2 ∼ 10 10 –10 11 M ⊙ . We compared the observed luminosities of dust, [C II ], [C I ], and CO(7–6) with predictions from photo-dissociation and X-ray dominated regions. We find that the former provide better model fits to our data, assuming that the bulk of the emission arises from dense ( n H &gt; 10 4 cm −3 ) clouds with a column density N H ∼ 10 23 cm −2 , exposed to a radiation field with an intensity of G 0 ∼ 10 3 (in Habing units). Our analysis reiterates the presence of massive reservoirs of molecular gas fueling star formation and nuclear accretion in z ∼ 6 quasar host galaxies. It also highlights the power of combined 3 mm and 1 mm observations for quantitative studies of the dense gas content in massive galaxies at cosmic dawn.

Topics & Concepts

QuasarAstrophysicsPhysicsGalaxyAtomic carbonMillimeterMass ratioLuminosityDissociation (chemistry)Analytical Chemistry (journal)ChemistryHydrogenPhysical chemistryQuantum mechanicsChromatographyGalaxies: Formation, Evolution, PhenomenaAstrophysics and Star Formation StudiesCombustion and flame dynamics
Molecular gas in<i>z</i>∼ 6 quasar host galaxies | Litcius