Chandra Evidence for AGN Feedback in the Spiral Galaxy NGC 6764
Chandra Evidence for AGN Feedback in the Spiral Galaxy NGC 6764
We report the Chandra detection of X-ray emission spatially coincident with the kiloparsec-scale radio bubbles in the nearby (DL ~ 31 Mpc) AGN-starburst galaxy NGC 6764. The X-ray emission originates in hot gas (kT ~ 0.75 keV), which may either be contained within the radio bubbles, or in a shell of hot gas surrounding them. We consider three models for the origin of the hot gas: (1) a starburst-driven galactic wind, (2) shocked gas associated with the expanding radio bubbles, and (3) gas heated and entrained into the bubbles by jet/ISM interactions in the inner AGN outflow. We rule out a galactic wind based on significant differences from known galactic wind systems. The tight correspondence between the brightest X-ray emission and the radio emission in the inner outflow from the Seyfert nucleus, as well as a correlation between X-ray and radio spectral features suggestive of shocks and particle acceleration, lead us to favor the third model; however, we cannot firmly rule out a model in which the bubbles are driving large-scale shocks into the galaxy ISM. In either AGN-driven heating scenario, the total energy stored in the hot gas is high, ~1056 ergs, comparable to the energetic impact of low-power radio galaxies such as Centaurus A, and will have a dramatic impact on the galaxy and its surroundings.
190
Croston, J.H.
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Hardcastle, M.J.
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Kharb, P.
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Kraft, R.P.
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Hota, A.
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20 November 2008
Croston, J.H.
b10aa3fb-620e-4ec2-93e5-8594748d4822
Hardcastle, M.J.
23b43806-5ee7-46e3-b29b-98f7442dd263
Kharb, P.
3c137335-5e0e-40f4-b09b-cb330656d98a
Kraft, R.P.
9b3235bb-bc6e-4014-98e6-97a4c28238c3
Hota, A.
78b3afba-04df-43e8-89ae-cad979ef59f1
Croston, J.H., Hardcastle, M.J., Kharb, P., Kraft, R.P. and Hota, A.
(2008)
Chandra Evidence for AGN Feedback in the Spiral Galaxy NGC 6764.
Astrophysical Journal, 688 (1), .
(doi:10.1086/592268).
Abstract
We report the Chandra detection of X-ray emission spatially coincident with the kiloparsec-scale radio bubbles in the nearby (DL ~ 31 Mpc) AGN-starburst galaxy NGC 6764. The X-ray emission originates in hot gas (kT ~ 0.75 keV), which may either be contained within the radio bubbles, or in a shell of hot gas surrounding them. We consider three models for the origin of the hot gas: (1) a starburst-driven galactic wind, (2) shocked gas associated with the expanding radio bubbles, and (3) gas heated and entrained into the bubbles by jet/ISM interactions in the inner AGN outflow. We rule out a galactic wind based on significant differences from known galactic wind systems. The tight correspondence between the brightest X-ray emission and the radio emission in the inner outflow from the Seyfert nucleus, as well as a correlation between X-ray and radio spectral features suggestive of shocks and particle acceleration, lead us to favor the third model; however, we cannot firmly rule out a model in which the bubbles are driving large-scale shocks into the galaxy ISM. In either AGN-driven heating scenario, the total energy stored in the hot gas is high, ~1056 ergs, comparable to the energetic impact of low-power radio galaxies such as Centaurus A, and will have a dramatic impact on the galaxy and its surroundings.
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Published date: 20 November 2008
Identifiers
Local EPrints ID: 151975
URI: http://eprints.soton.ac.uk/id/eprint/151975
ISSN: 0004-637X
PURE UUID: 6196d668-88fc-45bc-806b-d223b3dbbc7c
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Date deposited: 20 May 2010 13:38
Last modified: 14 Mar 2024 01:21
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Author:
J.H. Croston
Author:
M.J. Hardcastle
Author:
P. Kharb
Author:
R.P. Kraft
Author:
A. Hota
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