Optical-Ultraviolet Tidal Disruption Events

Sjoert van Velzen; Thomas W.S. Holoien; Francesca Onori; Tiara Hung; Iair Arcavi

doi:10.1007/s11214-020-00753-z

Optical-Ultraviolet Tidal Disruption Events

Sjoert van Velzen, Thomas W.S. Holoien, Francesca Onori, Tiara Hung, Iair Arcavi^*

^*Corresponding author for this work

School of Physics and Astronomy

Research output: Contribution to journal › Review article › peer-review

155 Scopus citations

Abstract

The existence of optical-ultraviolet Tidal Disruption Events (TDEs) could be considered surprising because their electromagnetic output was originally predicted to be dominated by X-ray emission from an accretion disk. Yet over the last decade, the growth of optical transient surveys has led to the identification of a new class of optical transients occurring exclusively in galaxy centers, many of which are considered to be TDEs. Here we review the observed properties of these events, identified based on a shared set of both photometric and spectroscopic properties. We present a homogeneous analysis of 33 sources that we classify as robust TDEs, and which we divide into classes. The criteria used here to classify TDEs will possibly get updated as new samples are collected and potential additional diversity of TDEs is revealed. We also summarize current measurements of the optical-ultraviolet TDE rate, as well as the mass function and luminosity function. Many open questions exist regarding the current sample of events. We anticipate that the search for answers will unlock new insights in a variety of fields, from accretion physics to galaxy evolution.

Original language	English
Article number	124
Journal	Space Science Reviews
Volume	216
Issue number	8
DOIs	https://doi.org/10.1007/s11214-020-00753-z
State	Published - 1 Dec 2020

Funding

Funders	Funder number
H2020 Hemera program
International Space Science Institute
Israeli Council for Higher Education Alon Fellowship
James Arthur Postdoctoral Fellowship
United States - Israel Binational Science Foundation
Horizon 2020 Framework Programme	730970, 852097, 647208
European Research Council
United States-Israel Binational Science Foundation
Israel Science Foundation	2752/19, 2108/18

Keywords

Tidal disruption events: optical
Tidal disruption events: ultraviolet, Bowen fluorescence

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10.1007/s11214-020-00753-z

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title = "Optical-Ultraviolet Tidal Disruption Events",

abstract = "The existence of optical-ultraviolet Tidal Disruption Events (TDEs) could be considered surprising because their electromagnetic output was originally predicted to be dominated by X-ray emission from an accretion disk. Yet over the last decade, the growth of optical transient surveys has led to the identification of a new class of optical transients occurring exclusively in galaxy centers, many of which are considered to be TDEs. Here we review the observed properties of these events, identified based on a shared set of both photometric and spectroscopic properties. We present a homogeneous analysis of 33 sources that we classify as robust TDEs, and which we divide into classes. The criteria used here to classify TDEs will possibly get updated as new samples are collected and potential additional diversity of TDEs is revealed. We also summarize current measurements of the optical-ultraviolet TDE rate, as well as the mass function and luminosity function. Many open questions exist regarding the current sample of events. We anticipate that the search for answers will unlock new insights in a variety of fields, from accretion physics to galaxy evolution.",

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AU - Onori, Francesca

AU - Hung, Tiara

AU - Arcavi, Iair

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N2 - The existence of optical-ultraviolet Tidal Disruption Events (TDEs) could be considered surprising because their electromagnetic output was originally predicted to be dominated by X-ray emission from an accretion disk. Yet over the last decade, the growth of optical transient surveys has led to the identification of a new class of optical transients occurring exclusively in galaxy centers, many of which are considered to be TDEs. Here we review the observed properties of these events, identified based on a shared set of both photometric and spectroscopic properties. We present a homogeneous analysis of 33 sources that we classify as robust TDEs, and which we divide into classes. The criteria used here to classify TDEs will possibly get updated as new samples are collected and potential additional diversity of TDEs is revealed. We also summarize current measurements of the optical-ultraviolet TDE rate, as well as the mass function and luminosity function. Many open questions exist regarding the current sample of events. We anticipate that the search for answers will unlock new insights in a variety of fields, from accretion physics to galaxy evolution.

AB - The existence of optical-ultraviolet Tidal Disruption Events (TDEs) could be considered surprising because their electromagnetic output was originally predicted to be dominated by X-ray emission from an accretion disk. Yet over the last decade, the growth of optical transient surveys has led to the identification of a new class of optical transients occurring exclusively in galaxy centers, many of which are considered to be TDEs. Here we review the observed properties of these events, identified based on a shared set of both photometric and spectroscopic properties. We present a homogeneous analysis of 33 sources that we classify as robust TDEs, and which we divide into classes. The criteria used here to classify TDEs will possibly get updated as new samples are collected and potential additional diversity of TDEs is revealed. We also summarize current measurements of the optical-ultraviolet TDE rate, as well as the mass function and luminosity function. Many open questions exist regarding the current sample of events. We anticipate that the search for answers will unlock new insights in a variety of fields, from accretion physics to galaxy evolution.

KW - Tidal disruption events: optical

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Optical-Ultraviolet Tidal Disruption Events

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Keywords

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