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Quasi-periodic eruptions as Lense-Thirring precession of super-Eddington flows

Quasi-periodic eruptions as Lense-Thirring precession of super-Eddington flows
Quasi-periodic eruptions as Lense-Thirring precession of super-Eddington flows

Quasi-periodic eruptions (QPEs) are a recently identified class of X-ray transient associated with tidal disruption events by supermassive black holes, and for which there are multiple possible explanations. In this paper, we present a simple model which requires the black hole be spinning, be misaligned with the accretion flow (both conditions of which are almost certainly met), and that the accretion rate is a few times the Eddington limit. We speculate that the resulting Lense–Thirring torques force the disc and entrained outflows to precess, leading to increased X-ray flux when the wind-cone is oriented at lower inclinations to the observer. We test the range of parameters for which this model could explain the period and brightness of the QPE events discovered thus far, and make qualitative comparisons between the observed X-ray spectra and light curves to those extracted from general relativistic radiation magnetohydrodynamic simulations. Overall, we find some areas of promising concordance, and identify challenges related to the details of current simulations.

X-rays: galaxies, accretion, accretion discs, black hole, galaxies: active, neutron star mergers, relativistic processes
1365-2966
1688-1702
Middleton, Matthew
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Gurpide, A.
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Kwan, T.M.
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Dai, L.
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Arcodia, R.
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Chakraborty, J.
c62e895f-5395-40fd-93f3-e067af9b8a51
Dauser, T.
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Fragile, P.C.
498628bc-53fd-4094-b60a-69faf2b698c9
Ingram, A.
184f76b3-fd00-482a-a903-50ad8c079292
Miniutti, G.
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Pinto, C.
1fefcc68-c4e4-49a4-b761-c585f3dd596e
Kosec, P.
95b1a0d3-b1c6-4824-abec-b46c57b6e153
Middleton, Matthew
f91b89d9-fd2e-42ec-aa99-1249f08a52ad
Gurpide, A.
97591ff3-cd37-41e9-8dd1-a818fa382092
Kwan, T.M.
498dc9d0-7c9e-42a4-9466-ff697e1a0147
Dai, L.
a2ab07e9-d96c-4672-b2e8-06a9687d71a2
Arcodia, R.
24945f7f-319a-46dd-9200-3d72459dfa9a
Chakraborty, J.
c62e895f-5395-40fd-93f3-e067af9b8a51
Dauser, T.
e14de518-51e7-4be6-943a-65ad8a6f470f
Fragile, P.C.
498628bc-53fd-4094-b60a-69faf2b698c9
Ingram, A.
184f76b3-fd00-482a-a903-50ad8c079292
Miniutti, G.
99a8888c-5809-4220-8a92-2c0d7ba0dd00
Pinto, C.
1fefcc68-c4e4-49a4-b761-c585f3dd596e
Kosec, P.
95b1a0d3-b1c6-4824-abec-b46c57b6e153

Middleton, Matthew, Gurpide, A., Kwan, T.M., Dai, L., Arcodia, R., Chakraborty, J., Dauser, T., Fragile, P.C., Ingram, A., Miniutti, G., Pinto, C. and Kosec, P. (2025) Quasi-periodic eruptions as Lense-Thirring precession of super-Eddington flows. Monthly Notices of the Royal Astronomical Society, 537 (2), 1688-1702. (doi:10.1093/mnras/staf052).

Record type: Article

Abstract

Quasi-periodic eruptions (QPEs) are a recently identified class of X-ray transient associated with tidal disruption events by supermassive black holes, and for which there are multiple possible explanations. In this paper, we present a simple model which requires the black hole be spinning, be misaligned with the accretion flow (both conditions of which are almost certainly met), and that the accretion rate is a few times the Eddington limit. We speculate that the resulting Lense–Thirring torques force the disc and entrained outflows to precess, leading to increased X-ray flux when the wind-cone is oriented at lower inclinations to the observer. We test the range of parameters for which this model could explain the period and brightness of the QPE events discovered thus far, and make qualitative comparisons between the observed X-ray spectra and light curves to those extracted from general relativistic radiation magnetohydrodynamic simulations. Overall, we find some areas of promising concordance, and identify challenges related to the details of current simulations.

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Accepted/In Press date: 24 December 2024
e-pub ahead of print date: 10 January 2025
Published date: 4 February 2025
Keywords: X-rays: galaxies, accretion, accretion discs, black hole, galaxies: active, neutron star mergers, relativistic processes

Identifiers

Local EPrints ID: 502679
URI: http://eprints.soton.ac.uk/id/eprint/502679
DOI: doi:10.1093/mnras/staf052
ISSN: 1365-2966
PURE UUID: 20b07d0a-97eb-490a-97ef-f924e05c5414

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Date deposited: 04 Jul 2025 16:37
Last modified: 21 Aug 2025 04:53

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Contributors

Author: Matthew Middleton
Author: A. Gurpide
Author: T.M. Kwan
Author: L. Dai
Author: R. Arcodia
Author: J. Chakraborty
Author: T. Dauser
Author: P.C. Fragile
Author: A. Ingram
Author: G. Miniutti
Author: C. Pinto
Author: P. Kosec

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