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Accretion disc cooling and narrow absorption lines in the tidal disruption event AT 2019dsg

Accretion disc cooling and narrow absorption lines in the tidal disruption event AT 2019dsg
Accretion disc cooling and narrow absorption lines in the tidal disruption event AT 2019dsg
We present the results of a large multiwavelength follow-up campaign of the tidal disruption event (TDE) AT 2019dsg, focusing on low to high resolution optical spectroscopy, X-ray, and radio observations. The galaxy hosts a super massive black hole of mass (5.4±3.2)×106M⊙ and careful analysis finds no evidence for the presence of an active galactic nucleus, instead the TDE host galaxy shows narrow optical emission lines that likely arise from star formation activity. The transient is luminous in the X-rays, radio, UV, and optical. The X-ray emission becomes undetected after ∼100 d, and the radio luminosity density starts to decay at frequencies above 5.4 GHz by ∼160 d. Optical emission line signatures of the TDE are present up to ∼200 d after the light-curve peak. The medium to high resolution spectra show traces of absorption lines that we propose originate in the self-gravitating debris streams. At late times, after ∼200 d, narrow Fe lines appear in the spectra. The TDE was previously classified as N-strong, but after careful subtraction of the host galaxy’s stellar contribution, we find no evidence for these N lines in the TDE spectrum, even though O Bowen lines are detected. The observed properties of the X-ray emission are fully consistent with the detection of the inner regions of a cooling accretion disc. The optical and radio properties are consistent with this central engine seen at a low inclination (i.e. seen from the poles).
1365-2966
792-815
Cannizzaro, G.
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Wevers, T.
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Jonker, P.G.
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Pérez-torres, M.A.
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Moldon, J.
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Mata-sánchez, D.
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Leloudas, G.
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Pasham, D.R.
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Mattila, S.
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Arcavi, I.
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Decker French, K.
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Onori, F.
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Inserra, C.
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Nicholl, M.
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Gromadzki, M.
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Chen, T.W.
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Short, P.
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Gendreau, K.C.
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Arzoumanian, Z.
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Löwenstein, M.
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Remillard, R.
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Roy, R.
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Hiramatsu, D.
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Cannizzaro, G.
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Wevers, T.
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Jonker, P.G.
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Pérez-torres, M.A.
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Moldon, J.
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Mata-sánchez, D.
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Leloudas, G.
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Pasham, D.R.
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Mattila, S.
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Arcavi, I.
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Decker French, K.
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Onori, F.
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Inserra, C.
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Nicholl, M.
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Gromadzki, M.
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Chen, T.W.
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Müller-Bravo, T.E.
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Short, P.
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Anderson, J.P.
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Gendreau, K.C.
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Arzoumanian, Z.
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Löwenstein, M.
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Remillard, R.
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Roy, R.
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Hiramatsu, D.
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Cannizzaro, G., Wevers, T., Jonker, P.G., Pérez-torres, M.A., Moldon, J., Mata-sánchez, D., Leloudas, G., Pasham, D.R., Mattila, S., Arcavi, I., Decker French, K., Onori, F., Inserra, C., Nicholl, M., Gromadzki, M., Chen, T.W., Müller-Bravo, T.E., Short, P., Anderson, J.P., Young, D.R., Gendreau, K.C., Arzoumanian, Z., Löwenstein, M., Remillard, R., Roy, R. and Hiramatsu, D. (2021) Accretion disc cooling and narrow absorption lines in the tidal disruption event AT 2019dsg. Monthly Notices Of The Royal Astronomical Society, 504 (1), 792-815. (doi:10.1093/mnras/stab851).

Record type: Article

Abstract

We present the results of a large multiwavelength follow-up campaign of the tidal disruption event (TDE) AT 2019dsg, focusing on low to high resolution optical spectroscopy, X-ray, and radio observations. The galaxy hosts a super massive black hole of mass (5.4±3.2)×106M⊙ and careful analysis finds no evidence for the presence of an active galactic nucleus, instead the TDE host galaxy shows narrow optical emission lines that likely arise from star formation activity. The transient is luminous in the X-rays, radio, UV, and optical. The X-ray emission becomes undetected after ∼100 d, and the radio luminosity density starts to decay at frequencies above 5.4 GHz by ∼160 d. Optical emission line signatures of the TDE are present up to ∼200 d after the light-curve peak. The medium to high resolution spectra show traces of absorption lines that we propose originate in the self-gravitating debris streams. At late times, after ∼200 d, narrow Fe lines appear in the spectra. The TDE was previously classified as N-strong, but after careful subtraction of the host galaxy’s stellar contribution, we find no evidence for these N lines in the TDE spectrum, even though O Bowen lines are detected. The observed properties of the X-ray emission are fully consistent with the detection of the inner regions of a cooling accretion disc. The optical and radio properties are consistent with this central engine seen at a low inclination (i.e. seen from the poles).

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Accepted/In Press date: 16 March 2021
Published date: 24 April 2021
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Identifiers

Local EPrints ID: 478289
URI: http://eprints.soton.ac.uk/id/eprint/478289
DOI: doi:10.1093/mnras/stab851
ISSN: 1365-2966
PURE UUID: bbe5a6bc-290c-4ad2-9ef7-2ede094c70f1
ORCID for C. Inserra: ORCID iD orcid.org/0000-0002-3968-4409

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Date deposited: 27 Jun 2023 17:15
Last modified: 17 Mar 2024 01:34

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Contributors

Author: G. Cannizzaro
Author: T. Wevers
Author: P.G. Jonker
Author: M.A. Pérez-torres
Author: J. Moldon
Author: D. Mata-sánchez
Author: G. Leloudas
Author: D.R. Pasham
Author: S. Mattila
Author: I. Arcavi
Author: K. Decker French
Author: F. Onori
Author: C. Inserra ORCID iD
Author: M. Nicholl
Author: M. Gromadzki
Author: T.W. Chen
Author: T.E. Müller-Bravo
Author: P. Short
Author: J.P. Anderson
Author: D.R. Young
Author: K.C. Gendreau
Author: Z. Arzoumanian
Author: M. Löwenstein
Author: R. Remillard
Author: R. Roy
Author: D. Hiramatsu

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