Relativistic reverberation in the accretion flow of a tidal disruption event | |
Article | |
关键词: X-RAY REVERBERATION; ACTIVE GALACTIC NUCLEI; BROAD-LINE REGION; BLACK-HOLE MASS; RADIUS-LUMINOSITY RELATIONSHIP; K-ALPHA REVERBERATION; NARROW-LINE; XMM-NEWTON; IRON K; TIME LAGS; | |
DOI : 10.1038/nature18007 | |
来源: SCIE |
【 摘 要 】
Our current understanding of the curved space-time around supermassive black holes is based on actively accreting black holes, which make up only ten per cent or less of the overall population. X-ray observations of that small fraction reveal strong gravitational redshifts that indicate that many of these black holes are rapidly rotating(1); however, selection biases suggest that these results are not necessarily reflective of the majority of black holes in the Universe(2). Tidal disruption events, where a star orbiting an otherwise dormant black hole gets tidally shredded and accreted onto the black hole(3), can provide a short, unbiased glimpse at the space-time around the other ninety per cent of black holes. Observations of tidal disruptions have hitherto revealed the formation of an accretion disk and the onset of an accretion-powered jet(4-8), but have failed to reveal emission from the inner accretion flow, which enables the measurement of black hole spin. Here we report observations of reverberation(9-12) arising from gravitationally redshifted iron Ka photons reflected off the inner accretion flow in the tidal disruption event Swift J1644+57. From the reverberation timescale, we estimate the mass of the black hole to be a few million solar masses, suggesting an accretion rate of 100 times the Eddington limit or more(13). The detection of reverberation from the relativistic depths of this rare super-Eddington event demonstrates that the X-rays do not arise from the relativistically moving regions of a jet, as previously thought(5,14).
【 授权许可】
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