Driving massive molecular gas flows in central cluster galaxies with AGN feedback

Driving massive molecular gas flows in central cluster galaxies with AGN feedback

We present an analysis of new and archival ALMA observations of molecular gas in 12 central cluster galaxies. We examine emerging trends in molecular filament morphology and gas velocities to understand their origins. Molecular gas masses in these systems span $10^9 {--}10^{11} {\rm \, M_{\odot }}$,...

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Bibliographic Details
Published in:Monthly notices of the Royal Astronomical Society Vol. 490; no. 3; pp. 3025 - 3045
Main Authors: Russell, H R, McNamara, B R, Fabian, A C, Nulsen, P E J, Combes, F, Edge, A C, Madar, M, Olivares, V, Salomé, P, Vantyghem, A N
Format: Journal Article
Language:English
Published: Oxford University Press (OUP): Policy P - Oxford Open Option A 01-12-2019
Subjects:
Astrophysics
Physics
galaxies: jets
galaxies: active
galaxies: evolution
galaxies: clusters: intracluster medium
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Summary:We present an analysis of new and archival ALMA observations of molecular gas in 12 central cluster galaxies. We examine emerging trends in molecular filament morphology and gas velocities to understand their origins. Molecular gas masses in these systems span $10^9 {--}10^{11} {\rm \, M_{\odot }}$, far more than most gas-rich galaxies. ALMA images reveal a distribution of morphologies from filamentary to disc-dominated structures. Circumnuclear discs on kiloparsec scales appear rare. In most systems, half to nearly all of the molecular gas lies in filamentary structures with masses of a few $\times 10^{8{\text{--}}10}{\rm \, M_{\odot }}$ that extend radially several to several tens of kpc. In nearly all cases the molecular gas velocities lie far below stellar velocity dispersions, indicating youth, transience, or both. Filament bulk velocities lie far below the galaxy’s escape and free-fall speeds indicating they are bound and being decelerated. Most extended molecular filaments surround or lie beneath radio bubbles inflated by the central active galactic nuclei (AGNs). Smooth velocity gradients found along the filaments are consistent with gas flowing along streamlines surrounding these bubbles. Evidence suggests most of the molecular clouds formed from low entropy X-ray gas that became thermally unstable and cooled when lifted by the buoyant bubbles. Uplifted gas will stall and fall back to the galaxy in a circulating flow. The distribution in morphologies from filament to disc-dominated sources therefore implies slowly evolving molecular structures driven by the episodic activity of the AGNs.
ISSN:0035-8711
1365-2966
DOI:10.1093/mnras/stz2719