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The impact of a young radio galaxy: clues from the cosmic ray electron population

The impact of a young radio galaxy: clues from the cosmic ray electron population
The impact of a young radio galaxy: clues from the cosmic ray electron population
In the framework of hierarchical structure formation, active galactic nuclei (AGN) feedback shapes the galaxy luminosity function. Low luminosity, galaxy-scale double radio sources are ideal targets to investigate the interplay between AGN feedback and star formation. We use Very Large Array and BIMA millimetre-wave array observations to study the radio continuum emission of NGC 3801 between 1.4 and 112.4 GHz. We find a prominent spectral break at ~10 GHz, where the spectrum steepens as expected from cosmic ray electron (CRe) ageing. Using the equipartition magnetic field and fitting JP models locally, we create a spatially resolved map of the spectral age of the CRe population. The spectral age of τint = 2.0 ± 0.2 Myr agrees within a factor of 2 with the dynamical age of the expanding X-ray emitting shells. The spectral age varies only little across the lobes, requiring an effective mixing process of the CRe such as a convective backflow of magnetized plasma. The jet termination points have a slightly younger CRe spectral age, hinting at in situ CRe re-acceleration. Our findings support the scenario where the supersonically expanding radio lobes heat the interstellar medium (ISM) of NGC 3801 via shock waves, and, as their energy is comparable to the energy of the ISM, are clearly able to influence the galaxy's further evolution.
radiation mechanisms: non-thermal, cosmic rays, galaxies: individual: NGC 3801, galaxies: jets, quasars: general radio continuum: galaxies
1365-2966
1364-1380
Heesen, V.
b8b21826-1b25-493c-9f2a-9b0428dd1713
Croston, J. H.
b10aa3fb-620e-4ec2-93e5-8594748d4822
Harwood, J. J.
60420142-8884-47c6-8993-b0f8796cadb4
Hardcastle, M. J.
43e73b1a-9ff1-479c-b9d2-5a730f1bdc8e
Hota, A.
78b3afba-04df-43e8-89ae-cad979ef59f1
Heesen, V.
b8b21826-1b25-493c-9f2a-9b0428dd1713
Croston, J. H.
b10aa3fb-620e-4ec2-93e5-8594748d4822
Harwood, J. J.
60420142-8884-47c6-8993-b0f8796cadb4
Hardcastle, M. J.
43e73b1a-9ff1-479c-b9d2-5a730f1bdc8e
Hota, A.
78b3afba-04df-43e8-89ae-cad979ef59f1

Heesen, V., Croston, J. H., Harwood, J. J., Hardcastle, M. J. and Hota, A. (2014) The impact of a young radio galaxy: clues from the cosmic ray electron population. Monthly Notices of the Royal Astronomical Society, 439 (2), 1364-1380. (doi:10.1093/mnras/stu043).

Record type: Article

Abstract

In the framework of hierarchical structure formation, active galactic nuclei (AGN) feedback shapes the galaxy luminosity function. Low luminosity, galaxy-scale double radio sources are ideal targets to investigate the interplay between AGN feedback and star formation. We use Very Large Array and BIMA millimetre-wave array observations to study the radio continuum emission of NGC 3801 between 1.4 and 112.4 GHz. We find a prominent spectral break at ~10 GHz, where the spectrum steepens as expected from cosmic ray electron (CRe) ageing. Using the equipartition magnetic field and fitting JP models locally, we create a spatially resolved map of the spectral age of the CRe population. The spectral age of τint = 2.0 ± 0.2 Myr agrees within a factor of 2 with the dynamical age of the expanding X-ray emitting shells. The spectral age varies only little across the lobes, requiring an effective mixing process of the CRe such as a convective backflow of magnetized plasma. The jet termination points have a slightly younger CRe spectral age, hinting at in situ CRe re-acceleration. Our findings support the scenario where the supersonically expanding radio lobes heat the interstellar medium (ISM) of NGC 3801 via shock waves, and, as their energy is comparable to the energy of the ISM, are clearly able to influence the galaxy's further evolution.

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e-pub ahead of print date: 7 February 2014
Published date: 1 April 2014
Keywords: radiation mechanisms: non-thermal, cosmic rays, galaxies: individual: NGC 3801, galaxies: jets, quasars: general radio continuum: galaxies
Organisations: Physics & Astronomy
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Identifiers

Local EPrints ID: 369400
URI: http://eprints.soton.ac.uk/id/eprint/369400
DOI: doi:10.1093/mnras/stu043
ISSN: 1365-2966
PURE UUID: 7f0d2a76-1029-412f-a25f-ab20db5ca3f8

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Date deposited: 25 Sep 2014 11:49
Last modified: 14 Mar 2024 18:02

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Contributors

Author: V. Heesen
Author: J. H. Croston
Author: J. J. Harwood
Author: M. J. Hardcastle
Author: A. Hota

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