The University of Southampton
University of Southampton Institutional Repository

Dust reverberation mapping and light-curve modelling of Zw229-015

Dust reverberation mapping and light-curve modelling of Zw229-015
Dust reverberation mapping and light-curve modelling of Zw229-015
Multiwavelength variability studies of active galactic nuclei can be used to probe their inner regions that are not directly resolvable. Dust reverberation mapping (DRM) estimates the size of the dust emitting region by measuring the delays between the infrared (IR) response to variability in the optical light curves. We measure DRM lags of Zw229-015 between optical ground-based and Kepler light curves and concurrent IR Spitzer 3.6 and 4.5 µm light curves from 2010 to 2015, finding an overall mean rest-frame lag of 18.3 ± 4.5 d. Each combination of optical and IR light curve returns lags that are consistent with each other within 1σ, which implies that the different wavelengths are dominated by the same hot dust emission. The lags measured for Zw229-015 are found to be consistently smaller than predictions using the lag–luminosity relationship. Also, the overall IR response to the optical emission actually depends on the geometry and structure of the dust emitting region as well, so we use Markov chain Monte Carlo modelling to simulate the dust distribution to further estimate these structural and geometrical properties. We find that a large increase in flux between the 2011–2012 observation seasons, which is more dramatic in the IR light curve, is not well simulated by a single dust component. When excluding this increase in flux, the modelling consistently suggests that the dust is distributed in an extended flat disc, and finds a mean inclination angle of 49+3−13 deg.
galaxies: active, galaxies: Seyfert, quasars: individual: Zw229-015
1365-2966
4898-4915
Guise, E.
e2a5b480-3d2b-4ded-b5cc-b99d7a1e684e
Honig, S. F.
d6d3ab91-d910-4843-acb1-94b9a3b69ed9
Gorjian, V
fb0ab0a4-9f55-4a60-ace6-5d9ef811644b
Barth, A. J.
cf260687-a42f-4afe-9de2-88a8893ded81
Almeyda, T.
4c79d019-6f06-46fc-803c-741a128c9c85
Pei, L.
16867c12-38f0-4b03-8e67-ed8609853021
Cenko, S. B.
e7a32a77-161f-4df3-8563-1b3fd474410b
Edelson, R.
d2d130b6-1d4f-4fca-900f-26bc018a5b34
Filippenko, A., V
76d14187-e168-44cf-9db7-c5c2102c268b
Joner, M. D.
6ff9caee-dcd9-4706-af73-f09c918e988b
Laney, C. D.
9b65617b-21fe-479a-a3e8-d93ded248ea0
Li, W.
88ed7c90-48f0-4f7f-9703-6bb40b54da69
Malkan, M. A.
242b58b6-b6c1-467b-977a-5c5ac9376a8a
Nguyen, M. L.
847e20f7-6599-4981-83e5-b9fe289d0ffa
Zheng, W.
ed47723a-d8eb-4a12-b2bb-ce5104a90cb5
Guise, E.
e2a5b480-3d2b-4ded-b5cc-b99d7a1e684e
Honig, S. F.
d6d3ab91-d910-4843-acb1-94b9a3b69ed9
Gorjian, V
fb0ab0a4-9f55-4a60-ace6-5d9ef811644b
Barth, A. J.
cf260687-a42f-4afe-9de2-88a8893ded81
Almeyda, T.
4c79d019-6f06-46fc-803c-741a128c9c85
Pei, L.
16867c12-38f0-4b03-8e67-ed8609853021
Cenko, S. B.
e7a32a77-161f-4df3-8563-1b3fd474410b
Edelson, R.
d2d130b6-1d4f-4fca-900f-26bc018a5b34
Filippenko, A., V
76d14187-e168-44cf-9db7-c5c2102c268b
Joner, M. D.
6ff9caee-dcd9-4706-af73-f09c918e988b
Laney, C. D.
9b65617b-21fe-479a-a3e8-d93ded248ea0
Li, W.
88ed7c90-48f0-4f7f-9703-6bb40b54da69
Malkan, M. A.
242b58b6-b6c1-467b-977a-5c5ac9376a8a
Nguyen, M. L.
847e20f7-6599-4981-83e5-b9fe289d0ffa
Zheng, W.
ed47723a-d8eb-4a12-b2bb-ce5104a90cb5

Guise, E., Honig, S. F., Gorjian, V, Barth, A. J., Almeyda, T., Pei, L., Cenko, S. B., Edelson, R., Filippenko, A., V, Joner, M. D., Laney, C. D., Li, W., Malkan, M. A., Nguyen, M. L. and Zheng, W. (2022) Dust reverberation mapping and light-curve modelling of Zw229-015. Monthly Notices Of The Royal Astronomical Society, 516 (4), 4898-4915. (doi:10.1093/mnras/stac2529).

Record type: Article

Abstract

Multiwavelength variability studies of active galactic nuclei can be used to probe their inner regions that are not directly resolvable. Dust reverberation mapping (DRM) estimates the size of the dust emitting region by measuring the delays between the infrared (IR) response to variability in the optical light curves. We measure DRM lags of Zw229-015 between optical ground-based and Kepler light curves and concurrent IR Spitzer 3.6 and 4.5 µm light curves from 2010 to 2015, finding an overall mean rest-frame lag of 18.3 ± 4.5 d. Each combination of optical and IR light curve returns lags that are consistent with each other within 1σ, which implies that the different wavelengths are dominated by the same hot dust emission. The lags measured for Zw229-015 are found to be consistently smaller than predictions using the lag–luminosity relationship. Also, the overall IR response to the optical emission actually depends on the geometry and structure of the dust emitting region as well, so we use Markov chain Monte Carlo modelling to simulate the dust distribution to further estimate these structural and geometrical properties. We find that a large increase in flux between the 2011–2012 observation seasons, which is more dramatic in the IR light curve, is not well simulated by a single dust component. When excluding this increase in flux, the modelling consistently suggests that the dust is distributed in an extended flat disc, and finds a mean inclination angle of 49+3−13 deg.

Text
stac2529 - Version of Record
Available under License Other.
Download (2MB)

More information

Accepted/In Press date: 25 August 2022
Published date: 24 September 2022
Keywords: galaxies: active, galaxies: Seyfert, quasars: individual: Zw229-015

Identifiers

Local EPrints ID: 472320
URI: http://eprints.soton.ac.uk/id/eprint/472320
ISSN: 1365-2966
PURE UUID: e61b66ea-206a-4956-b9ff-e4759cdd967b
ORCID for E. Guise: ORCID iD orcid.org/0000-0002-5957-6202

Catalogue record

Date deposited: 01 Dec 2022 17:39
Last modified: 16 Mar 2024 23:07

Export record

Altmetrics

Contributors

Author: E. Guise ORCID iD
Author: S. F. Honig
Author: V Gorjian
Author: A. J. Barth
Author: T. Almeyda
Author: L. Pei
Author: S. B. Cenko
Author: R. Edelson
Author: A., V Filippenko
Author: M. D. Joner
Author: C. D. Laney
Author: W. Li
Author: M. A. Malkan
Author: M. L. Nguyen
Author: W. Zheng

Download statistics

Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.

View more statistics

Atom RSS 1.0 RSS 2.0

Contact ePrints Soton: eprints@soton.ac.uk

ePrints Soton supports OAI 2.0 with a base URL of http://eprints.soton.ac.uk/cgi/oai2

This repository has been built using EPrints software, developed at the University of Southampton, but available to everyone to use.

We use cookies to ensure that we give you the best experience on our website. If you continue without changing your settings, we will assume that you are happy to receive cookies on the University of Southampton website.

×