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Intensive X-ray/UVOIR continuum reverberation mapping of the Seyfert AGN MCG+08-11-11

Intensive X-ray/UVOIR continuum reverberation mapping of the Seyfert AGN MCG+08-11-11
Intensive X-ray/UVOIR continuum reverberation mapping of the Seyfert AGN MCG+08-11-11
We present results from intensive (x3 daily), three-month-long X-ray, UV and optical monitoring of the bright Seyfert active galactic nucleus (AGN) MCG+08-11-11 with Swift, supported by optical-infrared ground-based monitoring. The 12 resultant, well-sampled, lightcurves are highly correlated; in particular, the X-ray to UV correlation r_max = 0.85 is, as far as we know, the highest yet recorded in a Seyfert galaxy. The lags increase with wavelength, as expected from reprocessing of central high-energy emission by surrounding material. Our lag spectrum is much shallower than that obtained from an optical monitoring campaign conducted a year earlier when MCG+08-11-11 was approximately 4 times brighter. After filtering out long-term trends in the earlier optical lightcurves we recover shorter lags consistent with our own - demonstrating concurrent reverberation signals from different spatial scales and the luminosity dependence of the measured lags. We use our lag spectrum to test several physical models, finding that disc reprocessing models cannot account for the observed 'excess' lags in the u and r-i-bands that are highly indicative of the Balmer and Paschen continua produced by reprocessing in the broad line region (BLR) gas. The structure seen in both the variable (rms) and lag spectra, and the large time delay between X-ray and UV variations (approximately 2 days) all suggest that the BLR is the dominant reprocessor. The hard X-ray spectrum (Gamma approximately 1.7) and faint, red, UV-optical spectrum both indicate that the Eddington accretion ratio is low: approximately 0.03. The bolometric luminosity then requires that the black hole mass is substantially greater than current reverberation mapping derived estimates.
astro-ph.GA
0035-8711
Kynoch, D.
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McHardy, I.M.
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Cackett, E.M.
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Gelbord, J.
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Santisteban, J.V. Hernández
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Horne, K.
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Miller, J.A.
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Netzer, H.
ac504aae-1f9c-43d4-84cc-d198a29030c5
Done, C.
d05de3dd-71dc-4f37-b2ce-53b5dbff1047
Edelson, R.
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Fausnaugh, M.M.
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Goad, M.R.
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Peterson, B.M.
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Vincentelli, F.M.
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Kynoch, D.
3bcb6986-44e0-413a-a851-6059eb5c808f
McHardy, I.M.
4f215137-9cc4-4a08-982e-772a0b24c17e
Cackett, E.M.
af1d503a-3a9b-4ad7-af57-d527fb65197a
Gelbord, J.
f4d1b8bb-679a-4a5f-906d-109e6bbcdb89
Santisteban, J.V. Hernández
4a217c92-d3c4-44fe-a6d2-5675bb16363d
Horne, K.
53fcebf2-d0a1-453a-b141-6174ac5e4afe
Miller, J.A.
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Netzer, H.
ac504aae-1f9c-43d4-84cc-d198a29030c5
Done, C.
d05de3dd-71dc-4f37-b2ce-53b5dbff1047
Edelson, R.
8d8b7a5d-b3cb-46da-ae3e-1acbd165c043
Fausnaugh, M.M.
fedf9e75-df93-4f1e-80c2-1a978bef130d
Goad, M.R.
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Peterson, B.M.
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Vincentelli, F.M.
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Kynoch, D., McHardy, I.M., Cackett, E.M., Gelbord, J., Santisteban, J.V. Hernández, Horne, K., Miller, J.A., Netzer, H., Done, C., Edelson, R., Fausnaugh, M.M., Goad, M.R., Peterson, B.M. and Vincentelli, F.M. (2026) Intensive X-ray/UVOIR continuum reverberation mapping of the Seyfert AGN MCG+08-11-11. Monthly Notices of the Royal Astronomical Society, 546 (3), [stag025]. (doi:10.1093/mnras/stag025).

Record type: Article

Abstract

We present results from intensive (x3 daily), three-month-long X-ray, UV and optical monitoring of the bright Seyfert active galactic nucleus (AGN) MCG+08-11-11 with Swift, supported by optical-infrared ground-based monitoring. The 12 resultant, well-sampled, lightcurves are highly correlated; in particular, the X-ray to UV correlation r_max = 0.85 is, as far as we know, the highest yet recorded in a Seyfert galaxy. The lags increase with wavelength, as expected from reprocessing of central high-energy emission by surrounding material. Our lag spectrum is much shallower than that obtained from an optical monitoring campaign conducted a year earlier when MCG+08-11-11 was approximately 4 times brighter. After filtering out long-term trends in the earlier optical lightcurves we recover shorter lags consistent with our own - demonstrating concurrent reverberation signals from different spatial scales and the luminosity dependence of the measured lags. We use our lag spectrum to test several physical models, finding that disc reprocessing models cannot account for the observed 'excess' lags in the u and r-i-bands that are highly indicative of the Balmer and Paschen continua produced by reprocessing in the broad line region (BLR) gas. The structure seen in both the variable (rms) and lag spectra, and the large time delay between X-ray and UV variations (approximately 2 days) all suggest that the BLR is the dominant reprocessor. The hard X-ray spectrum (Gamma approximately 1.7) and faint, red, UV-optical spectrum both indicate that the Eddington accretion ratio is low: approximately 0.03. The bolometric luminosity then requires that the black hole mass is substantially greater than current reverberation mapping derived estimates.

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Accepted/In Press date: 17 December 2025
e-pub ahead of print date: 10 January 2026
Published date: 5 February 2026
Keywords: astro-ph.GA

Identifiers

Local EPrints ID: 511775
URI: http://eprints.soton.ac.uk/id/eprint/511775
DOI: doi:10.1093/mnras/stag025
ISSN: 0035-8711
PURE UUID: ec3e63ee-afe3-4eb1-9df7-055aca6dc8ef

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Date deposited: 02 Jun 2026 16:34
Last modified: 02 Jun 2026 16:34

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Contributors

Author: D. Kynoch
Author: I.M. McHardy
Author: E.M. Cackett
Author: J. Gelbord
Author: J.V. Hernández Santisteban
Author: K. Horne
Author: J.A. Miller
Author: H. Netzer
Author: C. Done
Author: R. Edelson
Author: M.M. Fausnaugh
Author: M.R. Goad
Author: B.M. Peterson
Author: F.M. Vincentelli

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