SIMBAD references

2022A&A...666A...6W - Astronomy and Astrophysics, volume 666A, 6 (2022/10-1)

An elliptical accretion disk following the tidal disruption event AT 2020zso.

WEVERS T., NICHOLL M., GUOLO M., CHARALAMPOPOULOS P., GROMADZKI M., REYNOLDS T.M., KANKARE E., LELOUDAS G., ANDERSON J.P., ARCAVI I., CANNIZZARO G., CHEN T.-W., IHANEC N., INSERRA C., GUTIERREZ C.P., JONKER P.G., LAWRENCE A., MAGEE M.R., MULLER-BRAVO T.E., ONORI F., RIDLEY E., SCHULZE S., SHORT P., HIRAMATSU D., NEWSOME M., TERWEL J.H., YANG S. and YOUNG D.

Abstract (from CDS):


Aims. The modelling of spectroscopic observations of tidal disruption events (TDEs) to date suggests that the newly formed accretion disks are mostly quasi-circular. In this work we study the transient event AT 2020zso, hosted by an active galactic nucleus (AGN; as inferred from narrow emission line diagnostics), with the aim of characterising the properties of its newly formed accretion flow.
Methods. We classify AT 2020zso as a TDE based on the blackbody evolution inferred from UV/optical photometric observations and spectral line content and evolution. We identify transient, double-peaked Bowen (N III), He I, He II, and Hα emission lines. We model medium-resolution optical spectroscopy of the He II (after careful de-blending of the N III contribution) and Hα lines during the rise, peak, and early decline of the light curve using relativistic, elliptical accretion disk models.
Results. We find that the spectral evolution before the peak can be explained by optical depth effects consistent with an outflowing, optically thick Eddington envelope. Around the peak, the envelope reaches its maximum extent (approximately 1015 cm, or ∼3000-6000 gravitational radii for an inferred black hole mass of 5-10 × 105M) and becomes optically thin. The Hα and He II emission lines at and after the peak can be reproduced with a highly inclined (i = 85 ± 5 degrees), highly elliptical (e = 0.97 ± 0.01), and relatively compact (Rin = several 100 Rg and Rout = several 1000 Rg) accretion disk.
Conclusions. Overall, the line profiles suggest a highly elliptical geometry for the new accretion flow, consistent with theoretical expectations of newly formed TDE disks. We quantitatively confirm, for the first time, the high inclination nature of a Bowen (and X-ray dim) TDE, consistent with the unification picture of TDEs, where the inclination largely determines the observational appearance. Rapid line profile variations rule out the binary supermassive black hole hypothesis as the origin of the eccentricity; these results thus provide a direct link between a TDE in an AGN and the eccentric accretion disk. We illustrate for the first time how optical spectroscopy can be used to constrain the black hole spin, through (the lack of) disk precession signatures (changes in inferred inclination). We constrain the disk alignment timescale to > 15 days in AT2020zso, which rules out high black hole spin values (a < 0.8) for MBH ∼ 106M and disk viscosity α ≳ 0.1.

Abstract Copyright: © T. Wevers et al. 2022

Journal keyword(s): accretion - accretion disks - galaxies: active - quasars: supermassive black holes

Simbad objects: 14

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