Spectral ageing in the lobes of FR-II radio galaxies: new methods of analysis for broad-band radio data
Spectral ageing in the lobes of FR-II radio galaxies: new methods of analysis for broad-band radio data
The broad-bandwidth capabilities of next generation telescopes such as the Jansky Very Large Array (JVLA) mean that the spectrum of any given source varies significantly within the bandwidth of any given observation. Detailed spectral analysis taking this variation into account is set to become standard practice when dealing with any new broad-band radio observations; it is therefore vital that methods are developed to handle this new type of data. In this paper, we present the Broadband Radio Astronomy ToolS (brats) software package and, use it to carry out detailed analysis of JVLA observations of three powerful radio galaxies. We compare two of the most widely used models of spectral ageing, the Kardashev–Pacholczyk and Jaffe–Perola models and also results of the more complex, but potentially more realistic, Tribble model. We find that the Tribble model provides both a good fit to observations as well as providing a physically realistic description of the source. We present the first high-resolution spectral maps of our sources and find that the best-fitting injection indices across all models take higher values than have previously been assumed. We present characteristic hotspot advance speeds and make comparison to those derived from dynamical ages, confirming the previously known discrepancy in speed remains present when determined at high spectral resolutions. We show that some previously common assumptions made in determining spectral ages with narrow-band radio telescopes may not always hold and strongly suggest that these are accounted for in future investigations.
acceleration of particles, radiation mechanisms: non-thermal, methods: data analysis, galaxies: active
galaxies: jets, radio continuum: galaxies
3353-3375
Harwood, J. J.
60420142-8884-47c6-8993-b0f8796cadb4
Hardcastle, M. J.
43e73b1a-9ff1-479c-b9d2-5a730f1bdc8e
Croston, J. H.
b10aa3fb-620e-4ec2-93e5-8594748d4822
Goodger, J. L.
b6bb85c2-585f-4934-b0a8-6f5495d03a54
11 November 2013
Harwood, J. J.
60420142-8884-47c6-8993-b0f8796cadb4
Hardcastle, M. J.
43e73b1a-9ff1-479c-b9d2-5a730f1bdc8e
Croston, J. H.
b10aa3fb-620e-4ec2-93e5-8594748d4822
Goodger, J. L.
b6bb85c2-585f-4934-b0a8-6f5495d03a54
Harwood, J. J., Hardcastle, M. J., Croston, J. H. and Goodger, J. L.
(2013)
Spectral ageing in the lobes of FR-II radio galaxies: new methods of analysis for broad-band radio data.
Monthly Notices of the Royal Astronomical Society, 435 (4), .
(doi:10.1093/mnras/stt1526).
Abstract
The broad-bandwidth capabilities of next generation telescopes such as the Jansky Very Large Array (JVLA) mean that the spectrum of any given source varies significantly within the bandwidth of any given observation. Detailed spectral analysis taking this variation into account is set to become standard practice when dealing with any new broad-band radio observations; it is therefore vital that methods are developed to handle this new type of data. In this paper, we present the Broadband Radio Astronomy ToolS (brats) software package and, use it to carry out detailed analysis of JVLA observations of three powerful radio galaxies. We compare two of the most widely used models of spectral ageing, the Kardashev–Pacholczyk and Jaffe–Perola models and also results of the more complex, but potentially more realistic, Tribble model. We find that the Tribble model provides both a good fit to observations as well as providing a physically realistic description of the source. We present the first high-resolution spectral maps of our sources and find that the best-fitting injection indices across all models take higher values than have previously been assumed. We present characteristic hotspot advance speeds and make comparison to those derived from dynamical ages, confirming the previously known discrepancy in speed remains present when determined at high spectral resolutions. We show that some previously common assumptions made in determining spectral ages with narrow-band radio telescopes may not always hold and strongly suggest that these are accounted for in future investigations.
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e-pub ahead of print date: 12 September 2013
Published date: 11 November 2013
Keywords:
acceleration of particles, radiation mechanisms: non-thermal, methods: data analysis, galaxies: active
galaxies: jets, radio continuum: galaxies
Organisations:
Physics & Astronomy
Identifiers
Local EPrints ID: 369363
URI: http://eprints.soton.ac.uk/id/eprint/369363
ISSN: 1365-2966
PURE UUID: 0f888574-b125-49ee-9080-a5b79fecd6c5
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Date deposited: 24 Sep 2014 13:39
Last modified: 14 Mar 2024 18:01
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Contributors
Author:
J. J. Harwood
Author:
M. J. Hardcastle
Author:
J. H. Croston
Author:
J. L. Goodger
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