JWST/NIRSpec and MIRI observations of an expanding, jet-driven bubble of warm H 2 in the radio galaxy 3C 326 N

JWST/NIRSpec and MIRI observations of an expanding, jet-driven bubble of warm H 2 in the radio galaxy 3C 326 N

The physical link between AGN activity and the suppression of star formation in their host galaxies is one of the major open questions of the AGN feedback scenario. The Spitzer space mission revealed a subset of powerful nearby radio galaxies with unusually bright line emission from warm ( T ≥ 100 K...

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Veröffentlicht in:Astronomy and astrophysics (Berlin) 2024-09, Vol.689, p.A314
Hauptverfasser: Leftley, J. H., Nesvadba, N. P. H., Bicknell, G. V., Janssen, R. M. J., Mukherjee, D., Petrov, R., Shende, M. B., Zovaro, H. R. M.
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container_title Astronomy and astrophysics (Berlin)
container_volume 689
creator Leftley, J. H.
Nesvadba, N. P. H.
Bicknell, G. V.
Janssen, R. M. J.
Mukherjee, D.
Petrov, R.
Shende, M. B.
Zovaro, H. R. M.
description The physical link between AGN activity and the suppression of star formation in their host galaxies is one of the major open questions of the AGN feedback scenario. The Spitzer space mission revealed a subset of powerful nearby radio galaxies with unusually bright line emission from warm ( T ≥ 100 K) molecular hydrogen, while typical star-formation tracers such as polycyclic aromatic hydrocarbons (PAHs) or a dust continuum have been exceptionally faint or undetected. Here, we present JWST NIRSpec and MIRI MRS IFU observations of one of the best studied galaxies of this class, 3C 326 N at z = 0.09. We identified a total of 19 lines of the S, O, and Q series of ro-vibrational H 2 emission with NIRSpec at a 0.11″ spatial resolution, probing a small quantity (1.4 × 10 4 M ⊙ ) of gas at temperatures of T ∼ 1000 K. We also mapped the rotational mid-infrared lines of H 2 0–0 S(3), S(5), and S(6) at a spatial resolution of 0.4″ with MIRI/MRS, probing most of the 2 × 10 9 M ⊙ of warm H 2 in this galaxy. The CO band heads show a stellar component consistent with a ‘slow-rotator’ that is typical of a massive (3 × 10 11 M ⊙ ) galaxy, offering a reliable systemic redshift of z = 0.08979 ± 0.0003. The extended line emission shows a bipolar bubble expanding through the molecular disk at velocities of up to 380 km s −1 , delineated by several bright clumps along the northern outer rim, potentially coming from gas fragmentation. Throughout the disk, H 2 is very broadly dispersed, with an FWHM of ∼100 − 1300 km s −1 and complex, dual-component Gaussian line profiles. The extended [FeII] λ 1.644 and Pa α follow the same morphology, however, [NeIII] λ 15.56 is more symmetric about the nucleus. We show that most of the gas (with the exception of [NeIII] λ 15.56) is predominantly heated by shocks driven by the radio jets into the gas, both for the ro-vibrational and rotational H 2 lines. In addition, the accompanying line broadening is sufficient to suppress star formation in the molecular gas. We also compared the morphology and kinematics of the rotational and ro-vibrational lines, finding the latter to be a good proxy to the global morphology and kinematic properties of the former in strongly turbulent environments. This demonstrates the potential of using the higher frequency ro-vibrational lines in studying turbulent molecular gas. Provided they are bright enough, they would allow us to examine turbulence in galaxies during the early phases of cosmic history, while most ro
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We identified a total of 19 lines of the S, O, and Q series of ro-vibrational H 2 emission with NIRSpec at a 0.11″ spatial resolution, probing a small quantity (1.4 × 10 4 M ⊙ ) of gas at temperatures of T ∼ 1000 K. We also mapped the rotational mid-infrared lines of H 2 0–0 S(3), S(5), and S(6) at a spatial resolution of 0.4″ with MIRI/MRS, probing most of the 2 × 10 9 M ⊙ of warm H 2 in this galaxy. The CO band heads show a stellar component consistent with a ‘slow-rotator’ that is typical of a massive (3 × 10 11 M ⊙ ) galaxy, offering a reliable systemic redshift of z = 0.08979 ± 0.0003. The extended line emission shows a bipolar bubble expanding through the molecular disk at velocities of up to 380 km s −1 , delineated by several bright clumps along the northern outer rim, potentially coming from gas fragmentation. Throughout the disk, H 2 is very broadly dispersed, with an FWHM of ∼100 − 1300 km s −1 and complex, dual-component Gaussian line profiles. The extended [FeII] λ 1.644 and Pa α follow the same morphology, however, [NeIII] λ 15.56 is more symmetric about the nucleus. We show that most of the gas (with the exception of [NeIII] λ 15.56) is predominantly heated by shocks driven by the radio jets into the gas, both for the ro-vibrational and rotational H 2 lines. In addition, the accompanying line broadening is sufficient to suppress star formation in the molecular gas. We also compared the morphology and kinematics of the rotational and ro-vibrational lines, finding the latter to be a good proxy to the global morphology and kinematic properties of the former in strongly turbulent environments. This demonstrates the potential of using the higher frequency ro-vibrational lines in studying turbulent molecular gas. 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Throughout the disk, H 2 is very broadly dispersed, with an FWHM of ∼100 − 1300 km s −1 and complex, dual-component Gaussian line profiles. The extended [FeII] λ 1.644 and Pa α follow the same morphology, however, [NeIII] λ 15.56 is more symmetric about the nucleus. We show that most of the gas (with the exception of [NeIII] λ 15.56) is predominantly heated by shocks driven by the radio jets into the gas, both for the ro-vibrational and rotational H 2 lines. In addition, the accompanying line broadening is sufficient to suppress star formation in the molecular gas. We also compared the morphology and kinematics of the rotational and ro-vibrational lines, finding the latter to be a good proxy to the global morphology and kinematic properties of the former in strongly turbulent environments. This demonstrates the potential of using the higher frequency ro-vibrational lines in studying turbulent molecular gas. 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title JWST/NIRSpec and MIRI observations of an expanding, jet-driven bubble of warm H 2 in the radio galaxy 3C 326 N
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