Publication Date:
2015-07-25
Description:
We argue that the ‘changing look’ active galactic nucleus (AGN) recently reported by LaMassa et al. could be a luminous flare produced by the tidal disruption of a supersolar mass star passing just a few gravitational radii outside the event horizon of a ~10 8 M nuclear black hole. This flare occurred in a massive, star-forming galaxy at redshift z = 0.312, robustly characterized thanks to repeated late-time photometric and spectroscopic observations. By taking difference photometry of the well-sampled multiyear Sloan Digital Sky Survey (SDSS) Stripe-82 light curve, we are able to probe the evolution of the nuclear spectrum over the course of the outburst. The tidal disruption event (TDE) interpretation is consistent with the very rapid rise and the decay time of the flare, which displays an evolution consistent with the well-known t –5/3 behaviour (with a clear superimposed re-brightening flare). Our analysis places constraints on the physical properties of the TDE, such as the putative disrupted star's mass and orbital parameters, as well as the size and temperature of the emitting material. The properties of the broad and narrow emission lines observed in two epochs of SDSS spectra provide further constraints on the circum-nuclear structure, and could be indicative that the system hosted a moderate-luminosity AGN as recently as a few 10 4 yr ago, and is likely undergoing residual accretion as late as 10 yr after peak, as seen from the broad Hα emission line. We discuss the complex interplay between TDEs and gas accretion episodes in galactic nuclei, highlighting the implications for future TDE searches and for estimates of their intrinsic rates.
Print ISSN:
0035-8711
Electronic ISSN:
1365-2966
Topics:
Physics
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