ALMACAL III: A combined ALMA and MUSE Survey for Neutral, Molecular, and Ionised Gas in an HI-Absorption-Selected System

Studying the flow of baryons into and out of galaxies is an important part of understanding the evolution of galaxies over time. We present a detailed case study of the environment around an intervening Ly \(\alpha\) absorption line system at \(z_{\rm abs} = 0.633\), seen towards the quasar J0423\(-...

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Bibliographic Details
Published in:arXiv.org 2017-11
Main Authors: Klitsch, A, Peroux, C, Zwaan, M A, Smail, I, Oteo, I, Biggs, A D, Popping, G, Swinbank, A M
Format: Article
Language:English
Subjects:
Absorbers
Absorption
Baryons
Case studies
Continuum radiation
Cosmic dust
Emission
Galactic evolution
Galaxies
Infrared astronomy
Kinematics
Neutral gases
Optical counterparts (astronomy)
Outflow
Quasars
Red shift
Star & galaxy formation
Star formation
Stars & galaxies
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Summary:Studying the flow of baryons into and out of galaxies is an important part of understanding the evolution of galaxies over time. We present a detailed case study of the environment around an intervening Ly \(\alpha\) absorption line system at \(z_{\rm abs} = 0.633\), seen towards the quasar J0423\(-\)0130 (\(z_{\rm QSO} = 0.915\)). We detect with ALMA the \(^{12}\)CO(2--1), \(^{12}\)CO(3--2) and \(1.2\)~mm continuum emission from a galaxy at the redshift of the Ly \(\alpha\) absorber at a projected distance of \(135\) kpc. From the ALMA detections, we infer ISM conditions similar to those in low redshift Luminous Infrared Galaxies. DDT MUSE integral field unit observations reveal the optical counterpart of the \(^{12}\)CO emission line source and three additional emission line galaxies at the absorber redshift, which together form a galaxy group. The \(^{12}\)CO emission line detections originate from the most massive galaxy in this group. While we cannot exclude that we miss a fainter host, we reach a dust-uncorrected star-formation rate (SFR) limit of > \(0.3 \text{M}_{\odot} \text{ yr}^{-1}\) within \(100\) kpc from the sightline to the background quasar. We measure the dust-corrected SFR (ranging from \(3\) to \(50\) M\(_{\odot}\) yr\(^{-1}\)), the morpho-kinematics and the metallicities of the four group galaxies to understand the relation between the group and the neutral gas probed in absorption. We find that the Ly \(\alpha\) absorber traces either an outflow from the most massive galaxy or intra-group gas. This case study illustrates the power of combining ALMA and MUSE to obtain a census of the cool baryons in a bounded structure at intermediate redshift.
ISSN:2331-8422
DOI:10.48550/arxiv.1712.00014