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Double-peaked Balmer Emission Indicating Prompt Accretion Disk Formation in an X-Ray Faint Tidal Disruption Event

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Double-peaked Balmer Emission Indicating Prompt Accretion Disk Formation in an X-Ray Faint Tidal Disruption Event. / Hung, Tiara; Foley, Ryan J.; Ramirez-Ruiz, Enrico et al.
In: The Astrophysical Journal, Vol. 903, No. 1, 31, 01.11.2020.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Hung, T, Foley, RJ, Ramirez-Ruiz, E, Dai, JL, Auchettl, K, Kilpatrick, CD, Mockler, B, Brown, JS, Coulter, DA, Dimitriadis, G, Holoien, TW-S, Law-Smith, JAP, Piro, AL, Rest, A, Rojas-Bravo, C & Siebert, MR 2020, 'Double-peaked Balmer Emission Indicating Prompt Accretion Disk Formation in an X-Ray Faint Tidal Disruption Event', The Astrophysical Journal, vol. 903, no. 1, 31. https://doi.org/10.3847/1538-4357/abb606

APA

Hung, T., Foley, R. J., Ramirez-Ruiz, E., Dai, J. L., Auchettl, K., Kilpatrick, C. D., Mockler, B., Brown, J. S., Coulter, D. A., Dimitriadis, G., Holoien, T. W.-S., Law-Smith, J. A. P., Piro, A. L., Rest, A., Rojas-Bravo, C., & Siebert, M. R. (2020). Double-peaked Balmer Emission Indicating Prompt Accretion Disk Formation in an X-Ray Faint Tidal Disruption Event. The Astrophysical Journal, 903(1), Article 31. https://doi.org/10.3847/1538-4357/abb606

Vancouver

Hung T, Foley RJ, Ramirez-Ruiz E, Dai JL, Auchettl K, Kilpatrick CD et al. Double-peaked Balmer Emission Indicating Prompt Accretion Disk Formation in an X-Ray Faint Tidal Disruption Event. The Astrophysical Journal. 2020 Nov 1;903(1):31. Epub 2020 Oct 29. doi: 10.3847/1538-4357/abb606

Author

Hung, Tiara ; Foley, Ryan J. ; Ramirez-Ruiz, Enrico et al. / Double-peaked Balmer Emission Indicating Prompt Accretion Disk Formation in an X-Ray Faint Tidal Disruption Event. In: The Astrophysical Journal. 2020 ; Vol. 903, No. 1.

Bibtex

@article{b6bb507481cf4dfe960db844f7915f09,
title = "Double-peaked Balmer Emission Indicating Prompt Accretion Disk Formation in an X-Ray Faint Tidal Disruption Event",
abstract = "We present the multiwavelength analysis of the tidal disruption event (TDE) AT 2018hyz (ASASSN-18zj). From follow-up optical spectroscopy, we detect the first unambiguous case of resolved double-peaked Balmer emission in a TDE. The distinct line profile can be well-modeled by a low eccentricity (e ≈ 0.1) accretion disk extending out to ∼100 Rp and a Gaussian component originating from non-disk clouds, though a bipolar outflow origin cannot be completely ruled out. Our analysis indicates that in AT 2018hyz, disk formation took place promptly after the most-bound debris returned to pericenter, which we estimate to be roughly tens of days before the first detection. Redistribution of angular momentum and mass transport, possibly through shocks, must occur on the observed timescale of about a month to create the large Hα-emitting disk that comprises ≲5% of the initial stellar mass. With these new insights from AT 2018hyz, we infer that circularization is efficient in at least some, if not all optically bright, X-ray faint TDEs. In these efficiently circularized TDEs, the detection of double-peaked emission depends on the disk inclination angle and the relative strength of the disk contribution to the non-disk component, possibly explaining the diversity seen in the current sample.",
author = "Tiara Hung and Foley, {Ryan J.} and Enrico Ramirez-Ruiz and Dai, {Jane L.} and Katie Auchettl and Kilpatrick, {Charles D.} and Brenna Mockler and Brown, {Jonathan S.} and Coulter, {David A.} and Georgios Dimitriadis and Holoien, {Thomas W.-S.} and Law-Smith, {Jamie A. P.} and Piro, {Anthony L.} and Armin Rest and C{\'e}sar Rojas-Bravo and Siebert, {Matthew R.}",
year = "2020",
month = nov,
day = "1",
doi = "10.3847/1538-4357/abb606",
language = "English",
volume = "903",
journal = "The Astrophysical Journal",
issn = "0004-637X",
publisher = "Institute of Physics Publishing",
number = "1",

}

RIS

TY - JOUR

T1 - Double-peaked Balmer Emission Indicating Prompt Accretion Disk Formation in an X-Ray Faint Tidal Disruption Event

AU - Hung, Tiara

AU - Foley, Ryan J.

AU - Ramirez-Ruiz, Enrico

AU - Dai, Jane L.

AU - Auchettl, Katie

AU - Kilpatrick, Charles D.

AU - Mockler, Brenna

AU - Brown, Jonathan S.

AU - Coulter, David A.

AU - Dimitriadis, Georgios

AU - Holoien, Thomas W.-S.

AU - Law-Smith, Jamie A. P.

AU - Piro, Anthony L.

AU - Rest, Armin

AU - Rojas-Bravo, César

AU - Siebert, Matthew R.

PY - 2020/11/1

Y1 - 2020/11/1

N2 - We present the multiwavelength analysis of the tidal disruption event (TDE) AT 2018hyz (ASASSN-18zj). From follow-up optical spectroscopy, we detect the first unambiguous case of resolved double-peaked Balmer emission in a TDE. The distinct line profile can be well-modeled by a low eccentricity (e ≈ 0.1) accretion disk extending out to ∼100 Rp and a Gaussian component originating from non-disk clouds, though a bipolar outflow origin cannot be completely ruled out. Our analysis indicates that in AT 2018hyz, disk formation took place promptly after the most-bound debris returned to pericenter, which we estimate to be roughly tens of days before the first detection. Redistribution of angular momentum and mass transport, possibly through shocks, must occur on the observed timescale of about a month to create the large Hα-emitting disk that comprises ≲5% of the initial stellar mass. With these new insights from AT 2018hyz, we infer that circularization is efficient in at least some, if not all optically bright, X-ray faint TDEs. In these efficiently circularized TDEs, the detection of double-peaked emission depends on the disk inclination angle and the relative strength of the disk contribution to the non-disk component, possibly explaining the diversity seen in the current sample.

AB - We present the multiwavelength analysis of the tidal disruption event (TDE) AT 2018hyz (ASASSN-18zj). From follow-up optical spectroscopy, we detect the first unambiguous case of resolved double-peaked Balmer emission in a TDE. The distinct line profile can be well-modeled by a low eccentricity (e ≈ 0.1) accretion disk extending out to ∼100 Rp and a Gaussian component originating from non-disk clouds, though a bipolar outflow origin cannot be completely ruled out. Our analysis indicates that in AT 2018hyz, disk formation took place promptly after the most-bound debris returned to pericenter, which we estimate to be roughly tens of days before the first detection. Redistribution of angular momentum and mass transport, possibly through shocks, must occur on the observed timescale of about a month to create the large Hα-emitting disk that comprises ≲5% of the initial stellar mass. With these new insights from AT 2018hyz, we infer that circularization is efficient in at least some, if not all optically bright, X-ray faint TDEs. In these efficiently circularized TDEs, the detection of double-peaked emission depends on the disk inclination angle and the relative strength of the disk contribution to the non-disk component, possibly explaining the diversity seen in the current sample.

U2 - 10.3847/1538-4357/abb606

DO - 10.3847/1538-4357/abb606

M3 - Journal article

VL - 903

JO - The Astrophysical Journal

JF - The Astrophysical Journal

SN - 0004-637X

IS - 1

M1 - 31

ER -