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First detection of the outer edge of an AGN accretion disc: very fast multiband optical variability of NGC 4395 with GTC/HiPERCAM and LT/IO:O

First detection of the outer edge of an AGN accretion disc: very fast multiband optical variability of NGC 4395 with GTC/HiPERCAM and LT/IO:O
First detection of the outer edge of an AGN accretion disc: very fast multiband optical variability of NGC 4395 with GTC/HiPERCAM and LT/IO:O

We present fast (∼200 s sampling) ugriz photometry of the low -mass AGN NGC 4395 with the Liverpool Telescope, followed by very fast (3 s sampling) us, gs, rs, is, and zs simultaneous monitoring with HiPERCAM on the 10.4m GTC. These observations provide the fastest ever AGN multiband photometry and very precise lag measurements. Unlike in all other AGN, gs lags us by a large amount, consistent with disc reprocessing but not with reprocessing in the broad-line region (BLR). There is very little increase in lag with wavelength at long wavelengths, indicating an outer edge (Rout) to the reprocessor. We have compared truncated disc reprocessing models to the combined HiPERCAM and previous X-ray/UV lags. For the normally accepted mass of 3.6 × 105M·, we obtain reasonable agreement with zero spin, Rout ∼1700Rg and the done physically motivated temperature-dependent disc colour-correction factor (fcol). A smaller mass of 4 × 104M· can only be accommodated if fcol=2.4, which is probably unrealistically high. Disc self gravity is probably unimportant in this low-mass AGN but an obscuring wind may provide an edge. For the small mass, the dust sublimation radius is similar to Rout so the wind could be dusty. However, for the more likely large mass, the sublimation radius is further out so the optically thick base of a line-driven gaseous wind is more likely. The inner edge of the BLR is close to Rout in both cases. These observations provide the first good evidence for a truncated AGN disc and caution that truncation should be included in reverberation lag modelling.

galaxies: Seyfert, galaxies: active, galaxies: individual: NGC 4395, galaxies: photometry
1365-2966
3366-3382
McHardy, I.M.
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Beard, M.
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Breedt, E.
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Knapen, J.H.
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Vincentelli, F.M.
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Veresvarska, M.
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Dhillon, V.S.
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Marsh, T. R.
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Littlefair, S.P.
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Horne, K.
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Glew, R.
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Goad, M.R.
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Kammoun, E.
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Emmanoulopoulos, D.
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McHardy, I.M.
4f215137-9cc4-4a08-982e-772a0b24c17e
Beard, M.
9743e0a5-2d24-43c5-956b-209b398459c7
Breedt, E.
493f36cd-3e81-451e-95ae-1eefef10c935
Knapen, J.H.
e7240261-f2a3-4ea6-9613-3563b6387f67
Vincentelli, F.M.
6059e516-6e7a-4d18-afa4-c5b68a3b207a
Veresvarska, M.
a4766578-49e7-48a9-95f2-19d8562aa1de
Dhillon, V.S.
0e5197d0-da5e-471a-8ec8-160fb5cb8273
Marsh, T. R.
47b29152-afe3-46a4-b64c-330f03443ff1
Littlefair, S.P.
d831fa9b-f1f5-4e14-b3fa-0e7fa6f5b365
Horne, K.
ffcda7c7-9cd8-4043-be08-c5db52b80e71
Glew, R.
25632196-3a00-4eda-8d0a-cda513af2eb0
Goad, M.R.
98d06542-81a7-4d7b-a0a5-c79079b9c662
Kammoun, E.
6fa7cac3-806a-4eca-a27a-39d0ab742401
Emmanoulopoulos, D.
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McHardy, I.M., Beard, M., Breedt, E., Knapen, J.H., Vincentelli, F.M., Veresvarska, M., Dhillon, V.S., Marsh, T. R., Littlefair, S.P., Horne, K., Glew, R., Goad, M.R., Kammoun, E. and Emmanoulopoulos, D. (2023) First detection of the outer edge of an AGN accretion disc: very fast multiband optical variability of NGC 4395 with GTC/HiPERCAM and LT/IO:O. Monthly Notices of the Royal Astronomical Society, 519 (3), 3366-3382. (doi:10.1093/mnras/stac3651).

Record type: Article

Abstract

We present fast (∼200 s sampling) ugriz photometry of the low -mass AGN NGC 4395 with the Liverpool Telescope, followed by very fast (3 s sampling) us, gs, rs, is, and zs simultaneous monitoring with HiPERCAM on the 10.4m GTC. These observations provide the fastest ever AGN multiband photometry and very precise lag measurements. Unlike in all other AGN, gs lags us by a large amount, consistent with disc reprocessing but not with reprocessing in the broad-line region (BLR). There is very little increase in lag with wavelength at long wavelengths, indicating an outer edge (Rout) to the reprocessor. We have compared truncated disc reprocessing models to the combined HiPERCAM and previous X-ray/UV lags. For the normally accepted mass of 3.6 × 105M·, we obtain reasonable agreement with zero spin, Rout ∼1700Rg and the done physically motivated temperature-dependent disc colour-correction factor (fcol). A smaller mass of 4 × 104M· can only be accommodated if fcol=2.4, which is probably unrealistically high. Disc self gravity is probably unimportant in this low-mass AGN but an obscuring wind may provide an edge. For the small mass, the dust sublimation radius is similar to Rout so the wind could be dusty. However, for the more likely large mass, the sublimation radius is further out so the optically thick base of a line-driven gaseous wind is more likely. The inner edge of the BLR is close to Rout in both cases. These observations provide the first good evidence for a truncated AGN disc and caution that truncation should be included in reverberation lag modelling.

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Accepted/In Press date: 4 December 2022
e-pub ahead of print date: 9 January 2023
Published date: 1 March 2023
Additional Information: Funding: IMcH and FMV thank STFC for support under grant ST/J001600/1 and EB thanks STFC for support under grantST/S000623/1. TRM thanked STFC for support under grant ST/T000406/1. MB and MV thank STFC for studentships under numbers ST/S505705/1 and ST/W507428/1, respectively. For the purupose of open access, the authors have applied a creative commons attribution (CC BY) licence to any author-accepted manuscript version arising.
Keywords: galaxies: Seyfert, galaxies: active, galaxies: individual: NGC 4395, galaxies: photometry

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Local EPrints ID: 476875
URI: http://eprints.soton.ac.uk/id/eprint/476875
ISSN: 1365-2966
PURE UUID: ea1d7056-fc2d-4302-a6c2-7428e07e39e0

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Date deposited: 18 May 2023 16:53
Last modified: 16 Oct 2024 16:37

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Contributors

Author: I.M. McHardy
Author: M. Beard
Author: E. Breedt
Author: J.H. Knapen
Author: F.M. Vincentelli
Author: M. Veresvarska
Author: V.S. Dhillon
Author: T. R. Marsh
Author: S.P. Littlefair
Author: K. Horne
Author: R. Glew
Author: M.R. Goad
Author: E. Kammoun
Author: D. Emmanoulopoulos

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