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Post Info TOPIC: 3XMM J150052.0+015452


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RE: 3XMM J150052.0+015452
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Title: A likely decade-long sustained tidal disruption event
Author: Dacheng Lin, James Guillochon, S. Komossa, Enrico Ramirez-Ruiz, Jimmy A. Irwin, W. Peter Maksym, Dirk Grupe, Olivier Godet, Natalie A. Webb, Didier Barret, B. Ashley Zauderer, Pierre-Alain Duc, Eleazar R. Carrasco, Stephen D. J. Gwyn

Multiwavelength flares from tidal disruption and accretion of stars can be used to find and study otherwise dormant massive black holes in galactic nuclei. Previous well-monitored candidate flares are short-lived, with most emission confined to within ~1 year. Here we report the discovery of a well observed super-long (>11 years) luminous soft X-ray flare from the nuclear region of a dwarf starburst galaxy. After an apparently fast rise within ~4 months a decade ago, the X-ray luminosity, though showing a weak trend of decay, has been persistently high at around the Eddington limit (when the radiation pressure balances the gravitational force). The X-ray spectra are generally soft (steeply declining towards higher energies) and can be described with Comptonized emission from an optically thick low-temperature corona, a super-Eddington accretion signature often observed in accreting stellar-mass black holes. Dramatic spectral softening was also caught in one recent observation, implying either a temporary transition from the super-Eddington accretion state to the standard thermal state or the presence of a transient highly blueshifted (~0.36c) warm absorber. All these properties in concert suggest a tidal disruption event of an unusually long super-Eddington accretion phase that has never been observed before.

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Posts: 131433
Date:
XJ1500+0154
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A Tour of XJ1500+0154

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Posts: 131433
Date:
3XMM J150052.0+015452
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XJ1500+0154: Black Hole Meal Sets Record for Length and Size

A trio of X-ray observatories has captured a remarkable event in their data: a decade-long binge by a black hole almost two billion light years away. This discovery was made using data from NASA's Chandra X-ray Observatory, Swift Observatory, and ESA's XMM-Newton.
The source was not detected in a Chandra observation on April 2, 2005, but was detected in an XMM-Newton observation on July 23, 2005, and reached peak brightness in a Chandra observation on June 5, 2008. These observations show that the source became at least 100 times brighter in X-rays. Since then, Chandra, Swift, and XMM-Newton have observed it multiple times.

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