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Can we measure the accretion efficiency of active galactic nuclei?

Can we measure the accretion efficiency of active galactic nuclei?
Can we measure the accretion efficiency of active galactic nuclei?
The accretion efficiency for individual black holes is very difficult to determine accurately. There are many factors that can influence each step of the calculation, such as the dust and host galaxy contribution to the observed luminosity, the black hole mass and more importantly the uncertainties on the bolometric luminosity measurement. Ideally, we would measure the active galactic nuclei (AGNs) emission at every wavelength, remove the host galaxy and dust, reconstruct the AGN spectral energy distribution and integrate them to determine the intrinsic emission and the accretion rate. In reality, this is not possible due to observational limitations and our own galaxy line-of-sight obscuration. We have then to infer the bolometric luminosity from spectral measurements made in discontinuous wavebands and at different epochs. In this paper, we tackle this issue by exploring different methods to determine the bolometric luminosity. We first explore the trend of accretion efficiency with black hole mass (ε∝M ~0.5) found in recent work by Davis & Laor and discuss why this is most likely an artefact of the parameter space covered by their Palomar-Green quasar sample. We then target small samples of AGNs at different redshifts, luminosities and black hole masses to investigate the possible methods to calculate the accretion efficiency. For these sources we are able to determine the mass accretion rate and, with some assumptions, the accretion efficiency distributions. Even though we select the sources for which we are able to determine the parameters more accurately, there are still factors affecting the measurements that are hard to constrain. We suggest methods to overcome these problems based on contemporaneous multiwavelength data measurements and specifically targeted observations for AGNs in different black hole mass ranges.
Accretion, accretion discs, Black hole physics, Galaxies: active, Galaxies: nuclei, Quasars: general
1365-2966
2529-2544
Raimundo, S. I.
e409d9d3-17e8-4049-ad29-43ada60b24e2
Fabian, A. C.
b9bef0bc-2ecd-49dc-ab2b-954cabea88ba
Vasudevan, R. V.
b66861df-8fa6-498e-8651-9b68a71118b9
Gandhi, P.
5bc3b5af-42b0-4dd8-8f1f-f74048d4d4a9
Wu, Jianfeng
0a4b93f1-916d-40f5-8a28-33f080178526
Raimundo, S. I.
e409d9d3-17e8-4049-ad29-43ada60b24e2
Fabian, A. C.
b9bef0bc-2ecd-49dc-ab2b-954cabea88ba
Vasudevan, R. V.
b66861df-8fa6-498e-8651-9b68a71118b9
Gandhi, P.
5bc3b5af-42b0-4dd8-8f1f-f74048d4d4a9
Wu, Jianfeng
0a4b93f1-916d-40f5-8a28-33f080178526

Raimundo, S. I., Fabian, A. C., Vasudevan, R. V., Gandhi, P. and Wu, Jianfeng (2012) Can we measure the accretion efficiency of active galactic nuclei? Monthly Notices Of The Royal Astronomical Society, 419 (3), 2529-2544. (doi:10.1111/j.1365-2966.2011.19904.x).

Record type: Article

Abstract

The accretion efficiency for individual black holes is very difficult to determine accurately. There are many factors that can influence each step of the calculation, such as the dust and host galaxy contribution to the observed luminosity, the black hole mass and more importantly the uncertainties on the bolometric luminosity measurement. Ideally, we would measure the active galactic nuclei (AGNs) emission at every wavelength, remove the host galaxy and dust, reconstruct the AGN spectral energy distribution and integrate them to determine the intrinsic emission and the accretion rate. In reality, this is not possible due to observational limitations and our own galaxy line-of-sight obscuration. We have then to infer the bolometric luminosity from spectral measurements made in discontinuous wavebands and at different epochs. In this paper, we tackle this issue by exploring different methods to determine the bolometric luminosity. We first explore the trend of accretion efficiency with black hole mass (ε∝M ~0.5) found in recent work by Davis & Laor and discuss why this is most likely an artefact of the parameter space covered by their Palomar-Green quasar sample. We then target small samples of AGNs at different redshifts, luminosities and black hole masses to investigate the possible methods to calculate the accretion efficiency. For these sources we are able to determine the mass accretion rate and, with some assumptions, the accretion efficiency distributions. Even though we select the sources for which we are able to determine the parameters more accurately, there are still factors affecting the measurements that are hard to constrain. We suggest methods to overcome these problems based on contemporaneous multiwavelength data measurements and specifically targeted observations for AGNs in different black hole mass ranges.

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More information

Accepted/In Press date: 27 September 2011
Published date: 4 January 2012
Additional Information: Copyright: 2011 The Authors. Monthly Notices of the Royal Astronomical Society @c 2011 RAS
Keywords: Accretion, accretion discs, Black hole physics, Galaxies: active, Galaxies: nuclei, Quasars: general

Identifiers

Local EPrints ID: 475840
URI: http://eprints.soton.ac.uk/id/eprint/475840
ISSN: 1365-2966
PURE UUID: 1afea295-438e-452d-aa7d-d6ea1a91efa2
ORCID for S. I. Raimundo: ORCID iD orcid.org/0000-0002-6248-398X
ORCID for P. Gandhi: ORCID iD orcid.org/0000-0003-3105-2615

Catalogue record

Date deposited: 29 Mar 2023 16:38
Last modified: 17 Mar 2024 04:03

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Contributors

Author: S. I. Raimundo ORCID iD
Author: A. C. Fabian
Author: R. V. Vasudevan
Author: P. Gandhi ORCID iD
Author: Jianfeng Wu

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