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Echo mapping of the black hole accretion flow in NGC 7469

Echo mapping of the black hole accretion flow in NGC 7469
Echo mapping of the black hole accretion flow in NGC 7469
Reverberation mapping (RM) can measure black hole accretion disc sizes and radial structure through observable light traveltime lags that should increase with wavelength as τ ∝ λ4/3 due to the disc’s T ∝ r−3/4 temperature profile. Our 250-d RM campaign on NGC 7469 combines sub-day cadence 7-band photometry from the Las Cumbres Observatory robotic telescopes and weekly X-ray and UVOT data from Swift. By fitting these light curves, we measure the spectral energy distribution (SED) of the variable accretion disc, and inter-band lags of just 1.5 d across the UV to optical range. The disc SED is close to theexpected fν ∝ ν1/3, and the lags are consistent with τ ∝ λ4/3, but three times larger than expected. We consider several possiblemodifications to standard disc assumptions. First, for a 9 × 106 M® black hole and two possible spins a* = (0, 1), we fit theX-ray-ultraviolet (UV)-optical SED with a compact relativistic corona at height Hx ∼ (46, 27) Rg irradiating a flat disc with accretion rate m.Edd ∼ (0.23, 0.24) inclined to the line of sight by i < 20◦. To fit the lags as well as the SED, this model requires a low spin a* ≈ 0 and boosts disc colour temperatures by a factor fcol ≈ 1.8, which shifts reprocessed light to shorter wavelengths. Our Bowl model with fcol = 1 neglects relativity near the black hole, but fits the UV-optical lags and SEDs using a flat disc with m˙ Edd < 0.06 and a steep outer rim at Rout/c ∼ 5 − 10 d with H/R < 1 per cent. This rim occurs near the 103K dust sublimation temperature in the disc atmosphere, supporting models that invoke dust opacity to thicken the disc and launch failed radiatively driven dusty outflows at the inner edge of the broad line region (BLR). Finally, the disc lags and SEDs exhibit a significant excess in the u and r bands, suggesting Balmer continuum and Hα emission, respectively, from the BLR.
astro-ph.GA, astro-ph.HE, galaxies: Seyfert, galaxies: active, accretion, accretion discs, galaxies: individual: NGC 7469
1365-2966
642-661
Prince, Raj
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Santisteban, Juan V. Hernández
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Horne, Keith
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Gelbord, J.
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McHardy, Ian
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Edelson, R.
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Onken, C.A.
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Donnan, F.R.
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Vestergaard, M.
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Kaspi, S.
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Winkler, H.
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Cackett, E.M.
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Landt, H.
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Barth, A.J.
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Treu, T.
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Valenti, S.
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Lira, P.
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Chelouche, D.
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Colmenero, E. Romero
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Goad, M.R.
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Gonzalez-Buitrago, D.H.
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Kara, E.
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Villforth, C.
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et al.
Prince, Raj
75a5101e-9d44-492b-8db0-feb384065863
Santisteban, Juan V. Hernández
3151e4ed-bac9-4292-bfd2-6f010dedc041
Horne, Keith
67bd3fb6-0bfb-414f-82bb-6620ebcfc5b4
Gelbord, J.
f4d1b8bb-679a-4a5f-906d-109e6bbcdb89
McHardy, Ian
4f215137-9cc4-4a08-982e-772a0b24c17e
Edelson, R.
36bc0b64-bc74-4148-9ce9-fa9e1cd5259e
Onken, C.A.
0915cd93-3ee5-4f45-90ba-af671d66e02c
Donnan, F.R.
4f6503dc-d58b-4c76-9317-f297b0073a09
Vestergaard, M.
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Kaspi, S.
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Winkler, H.
2f07736b-589e-4bf9-9793-ae9c6843e5e1
Cackett, E.M.
af1d503a-3a9b-4ad7-af57-d527fb65197a
Landt, H.
b0692ed3-0e7a-4eed-a00a-c05892a61e8e
Barth, A.J.
c929f342-d67f-4a54-9553-acc5f1fa526f
Treu, T.
7daa520c-9c82-4e17-999f-f4ecde29c32c
Valenti, S.
6af4c84f-1b0a-4516-92da-0460464df8a1
Lira, P.
f209900c-34b4-4225-b87a-d53855819b7f
Chelouche, D.
c068749a-b85c-4de5-813f-6a955b5a523f
Colmenero, E. Romero
14bc29ac-0588-43bf-8572-aeef5c8b81aa
Goad, M.R.
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Gonzalez-Buitrago, D.H.
d84c681b-338f-4202-80dd-9f607ef294f5
Kara, E.
f3b4b213-079d-4a73-a86b-c8c19e060977
Villforth, C.
6853642c-f699-429a-bfb5-dc5c485f5934

Prince, Raj, Santisteban, Juan V. Hernández and Horne, Keith , et al. (2025) Echo mapping of the black hole accretion flow in NGC 7469. Monthly Notices of the Royal Astronomical Society, 541 (1), 642-661. (doi:10.1093/mnras/staf983).

Record type: Article

Abstract

Reverberation mapping (RM) can measure black hole accretion disc sizes and radial structure through observable light traveltime lags that should increase with wavelength as τ ∝ λ4/3 due to the disc’s T ∝ r−3/4 temperature profile. Our 250-d RM campaign on NGC 7469 combines sub-day cadence 7-band photometry from the Las Cumbres Observatory robotic telescopes and weekly X-ray and UVOT data from Swift. By fitting these light curves, we measure the spectral energy distribution (SED) of the variable accretion disc, and inter-band lags of just 1.5 d across the UV to optical range. The disc SED is close to theexpected fν ∝ ν1/3, and the lags are consistent with τ ∝ λ4/3, but three times larger than expected. We consider several possiblemodifications to standard disc assumptions. First, for a 9 × 106 M® black hole and two possible spins a* = (0, 1), we fit theX-ray-ultraviolet (UV)-optical SED with a compact relativistic corona at height Hx ∼ (46, 27) Rg irradiating a flat disc with accretion rate m.Edd ∼ (0.23, 0.24) inclined to the line of sight by i < 20◦. To fit the lags as well as the SED, this model requires a low spin a* ≈ 0 and boosts disc colour temperatures by a factor fcol ≈ 1.8, which shifts reprocessed light to shorter wavelengths. Our Bowl model with fcol = 1 neglects relativity near the black hole, but fits the UV-optical lags and SEDs using a flat disc with m˙ Edd < 0.06 and a steep outer rim at Rout/c ∼ 5 − 10 d with H/R < 1 per cent. This rim occurs near the 103K dust sublimation temperature in the disc atmosphere, supporting models that invoke dust opacity to thicken the disc and launch failed radiatively driven dusty outflows at the inner edge of the broad line region (BLR). Finally, the disc lags and SEDs exhibit a significant excess in the u and r bands, suggesting Balmer continuum and Hα emission, respectively, from the BLR.

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2506.06731v1 - Author's Original
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More information

Accepted/In Press date: 2 June 2025
e-pub ahead of print date: 16 June 2025
Published date: 4 July 2025
Keywords: astro-ph.GA, astro-ph.HE, galaxies: Seyfert, galaxies: active, accretion, accretion discs, galaxies: individual: NGC 7469

Identifiers

Local EPrints ID: 503726
URI: http://eprints.soton.ac.uk/id/eprint/503726
DOI: doi:10.1093/mnras/staf983
ISSN: 1365-2966
PURE UUID: b28510d2-7d3d-4266-b273-142fc72b7758

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Date deposited: 12 Aug 2025 16:34
Last modified: 30 Sep 2025 17:23

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Contributors

Author: Raj Prince
Author: Juan V. Hernández Santisteban
Author: Keith Horne
Author: J. Gelbord
Author: Ian McHardy
Author: R. Edelson
Author: C.A. Onken
Author: F.R. Donnan
Author: M. Vestergaard
Author: S. Kaspi
Author: H. Winkler
Author: E.M. Cackett
Author: H. Landt
Author: A.J. Barth
Author: T. Treu
Author: S. Valenti
Author: P. Lira
Author: D. Chelouche
Author: E. Romero Colmenero
Author: M.R. Goad
Author: D.H. Gonzalez-Buitrago
Author: E. Kara
Author: C. Villforth
Corporate Author: et al.

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