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Lurking 600 million light-years away, within the inky black depths between stars, there is an invisible monster gulping down any wayward star that plummets toward it. The black hole revealed its presence in a newly identified tidal disruption event (TDE) where a hapless star was ripped apart and swallowed in a spectacular burst of radiation. These disruption events are powerful probes of black hole physics, revealing the conditions necessary for launching jets and winds when a black hole is in the midst of consuming a star, and are seen as bright objects by telescopes.<\/p>\n
The new TDE, called AT2024tvd, allowed astronomers to pinpoint a wandering supermassive black hole using the NASA\/ESA\u00a0Hubble Space Telescope, with similar supporting observations from NASA\u2019s Chandra X-Ray Observatory, and the NRAO Very Large Array telescope that also showed that the black hole is offset from the center of the galaxy.<\/p>\n
Surprisingly, this one million-solar-mass black hole doesn\u2019t reside exactly in the center of the host galaxy, where supermassive black holes are typically found, and actively gobble up surrounding material. Out of approximately 100 TDE events recorded by optical sky surveys so far, this is the first time an offset TDE has been identified. The rest are associated with the central black holes of galaxies.<\/p>\n
In fact, at the center of the host galaxy there is a different supermassive black hole weighing 100 million times the mass of the Sun. Hubble\u2019s optical precision shows the TDE was only 2,600 light-years from the more massive black hole at the galaxy\u2019s center. That\u2019s just one-tenth the distance between our Sun and the Milky Way\u2019s central supermassive black hole.<\/p>\n
Above is a NASA\/ESA Hubble Space Telescope image of the galaxy located that is host to the roaming supermassive black hole. The TDE appears as an isolated blue point source of ultraviolet light, while the galaxy is colored orange in visible light. The source is one of the first examples of a TDE significantly offset from the host galaxy\u2019s core by 2,600 light years \u2013 where an even more massive active black resides. Hubble\u2019s precise angular resolution clearly shows this offset and confirms independent observations made with NASA\u2019s Chandra X-ray observatory. The Hubble data was captured on 16 January 2025, with Hubble\u2019s WFC3 detector in UV and visible light wavelengths.<\/p>\n
The paper will be published in an upcoming issue of the\u00a0Astrophysical Journal Letters<\/i>.<\/p>\n
[Image description<\/i>: A fuzzy orange-yellow oval occupies the middle fourth of the image. It extends from 10 o\u2019clock to 4 o\u2019clock. A bright white spot is located within the oval but offset to the upper left from the core. An additional smaller, grainy, orange disk is located at lower right. A couple of additional orange points are in the frame. The background of space is black.]<\/p>\n<\/p><\/div>\n<\/p><\/div>\n