An X-ray survey of the 2Jy sample. I: is there an accretion mode dichotomy in radio-loud AGN?
An X-ray survey of the 2Jy sample. I: is there an accretion mode dichotomy in radio-loud AGN?
We carry out a systematic study of the X-ray emission from the active nuclei of the 0.02 < z < 0.7 2 Jy sample, using Chandra and XMM–Newton observations. We combine our results with those from mid-infrared, optical emission-line and radio observations, and add them to those of the 3CRR sources. We show that the low-excitation objects in our samples show signs of radiatively inefficient accretion. We study the effect of the jet-related emission on the various luminosities, confirming that it is the main source of soft X-ray emission for our sources. We also find strong correlations between the accretion-related luminosities, and identify several sources whose optical classification is incompatible with their accretion properties. We derive the bolometric and jet kinetic luminosities for the samples and find a difference in the total Eddington rate between the low- and high-excitation populations, with the former peaking at ?1 per?cent and the latter at ?20 per?cent Eddington. Our results are consistent with a simple Eddington switch when the effects of environment on radio luminosity and black hole mass calculations are considered. The apparent independence of jet kinetic power and radiative luminosity in the high-excitation population in our plots supports a model in which jet production and radiatively efficient accretion are not strongly correlated in high-excitation objects, though they have a common underlying mechanism.
269-297
Mingo, B.
72d66265-6364-4146-b6fb-992139f4bc98
Hardcastle, M.J.
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Croston, J.H.
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Dicken, D.
fe1f3704-cc69-4442-b794-a110a0bc79d3
Evans, D.A.
1396b080-18d5-43e7-8108-343c1518a39f
Morganti, R.
c7a8d138-2007-465a-bf3c-d6768d027c09
Tadhunter, C.
44ccfd92-057a-42d5-9974-5bb410e83942
1 May 2014
Mingo, B.
72d66265-6364-4146-b6fb-992139f4bc98
Hardcastle, M.J.
23b43806-5ee7-46e3-b29b-98f7442dd263
Croston, J.H.
b10aa3fb-620e-4ec2-93e5-8594748d4822
Dicken, D.
fe1f3704-cc69-4442-b794-a110a0bc79d3
Evans, D.A.
1396b080-18d5-43e7-8108-343c1518a39f
Morganti, R.
c7a8d138-2007-465a-bf3c-d6768d027c09
Tadhunter, C.
44ccfd92-057a-42d5-9974-5bb410e83942
Mingo, B., Hardcastle, M.J., Croston, J.H., Dicken, D., Evans, D.A., Morganti, R. and Tadhunter, C.
(2014)
An X-ray survey of the 2Jy sample. I: is there an accretion mode dichotomy in radio-loud AGN?
Monthly Notices of the Royal Astronomical Society, 440 (1), .
(doi:10.1093/mnras/stu263).
Abstract
We carry out a systematic study of the X-ray emission from the active nuclei of the 0.02 < z < 0.7 2 Jy sample, using Chandra and XMM–Newton observations. We combine our results with those from mid-infrared, optical emission-line and radio observations, and add them to those of the 3CRR sources. We show that the low-excitation objects in our samples show signs of radiatively inefficient accretion. We study the effect of the jet-related emission on the various luminosities, confirming that it is the main source of soft X-ray emission for our sources. We also find strong correlations between the accretion-related luminosities, and identify several sources whose optical classification is incompatible with their accretion properties. We derive the bolometric and jet kinetic luminosities for the samples and find a difference in the total Eddington rate between the low- and high-excitation populations, with the former peaking at ?1 per?cent and the latter at ?20 per?cent Eddington. Our results are consistent with a simple Eddington switch when the effects of environment on radio luminosity and black hole mass calculations are considered. The apparent independence of jet kinetic power and radiative luminosity in the high-excitation population in our plots supports a model in which jet production and radiatively efficient accretion are not strongly correlated in high-excitation objects, though they have a common underlying mechanism.
Text
mingo_accepted.pdf
- Accepted Manuscript
More information
Accepted/In Press date: 7 February 2014
e-pub ahead of print date: 10 March 2014
Published date: 1 May 2014
Organisations:
Astronomy Group
Identifiers
Local EPrints ID: 393516
URI: http://eprints.soton.ac.uk/id/eprint/393516
ISSN: 1365-2966
PURE UUID: 225176c5-ab58-4c7c-b807-ee86471ec940
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Date deposited: 28 Apr 2016 11:12
Last modified: 15 Mar 2024 00:02
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Contributors
Author:
B. Mingo
Author:
M.J. Hardcastle
Author:
J.H. Croston
Author:
D. Dicken
Author:
D.A. Evans
Author:
R. Morganti
Author:
C. Tadhunter
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