Litcius/Paper detail

Rapid late-time X-ray brightening of the tidal disruption event OGLE16aaa

Jari J. E. Kajava, Margherita Giustini, Richard D. Saxton, Giovanni Miniutti

2020Astronomy and Astrophysics49 citationsDOIOpen Access PDF

Abstract

Stars that pass too close to a super-massive black hole may be disrupted by strong tidal forces. OGLE16aaa is one such tidal disruption event (TDE) which rapidly brightened and peaked in the optical/UV bands in early 2016 and subsequently decayed over the rest of the year. OGLE16aaa was detected in an XMM-Newton X-ray observation on June 9, 2016 with a flux slightly below the Swift /XRT upper limits obtained during the optical light curve peak. Between June 16–21, 2016, Swift /XRT also detected OGLE16aaa and based on the stacked spectrum, we could infer that the X-ray luminosity had jumped up by more than a factor of ten in just one week. No brightening signal was seen in the simultaneous optical/UV data to cause the X-ray luminosity to exceed the optical/UV one. A further XMM-Newton observation on November 30, 2016 showed that almost a year after the optical/UV peak, the X-ray emission was still at an elevated level, while the optical/UV flux decay had already leveled off to values comparable to those of the host galaxy. In all X-ray observations, the spectra were nicely modeled with a 50–70 eV thermal component with no intrinsic absorption, with a weak X-ray tail seen only in the November 30 XMM-Newton observation. The late-time X-ray behavior of OGLE16aaa strongly resembles the tidal disruption events ASASSN-15oi and AT2019azh. We were able to pinpoint the time delay between the initial optical TDE onset and the X-ray brightening to 182 ± 5 days, which may possibly represent the timescale between the initial circularization of the disrupted star around the super-massive black hole and the subsequent delayed accretion. Alternatively, the delayed X-ray brightening could be related to a rapid clearing of a thick envelope that covers the central X-ray engine during the first six months.

Topics & Concepts

PhysicsAstrophysicsLight curveLuminosityFlux (metallurgy)Event (particle physics)Spectral lineAstronomyEmission spectrumThermalTidal forceThermal emissionLight emissionSpectral slopeBlack hole (networking)Spectral analysisAstrophysical Phenomena and ObservationsAstronomy and Astrophysical ResearchGalaxies: Formation, Evolution, Phenomena