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Download this video (MP4)
Tour: Black Hole Destroys Star and Goes After Another
(Credit: NASA/CXC/A. Hobart)
[Runtime: 02:47]
With closed-captions (at YouTube)
A massive black hole has torn apart one star and is now using that stellar wreckage to pummel another star or smaller black hole that used to be in the clear. This discovery, made with NASA’s Chandra X-ray Observatory and other telescopes, helps astronomers link two mysteries where there had previously only been hints of a connection.
In 2019, astronomers witnessed the signal of a star that got too close to a black hole and was destroyed by the black hole’s gravitational forces. Once shredded, the star’s remains began circling the black hole in a disk in a type of stellar graveyard.
Over a few years, however, this disk has expanded outward and is now directly in the path of a star, or possibly a stellar-mass black hole, orbiting the massive black hole at a previously safe distance. The orbiting star is now repeatedly crashing through the debris disk, about once every 48 hours, as it circles. When it does, the collision causes bursts of X-rays that astronomers captured with Chandra.
Like a diver repeatedly going into a pool and creating a splash every time she enters the water, the star striking the disk creates a huge ‘splash’ of gas and X-rays. As the star orbits around the black hole, it does this over and over again.
Scientists have documented many cases where an object gets too close to a black hole and gets torn apart in a single burst of light. Astronomers call these “tidal disruption events,” or TDEs. In recent years, astronomers have also discovered a new class of bright flashes from the centers of galaxies, which are detected only in X-rays and repeat many times. These events are also connected to supermassive black holes, but astronomers could not explain what caused the semi-regular bursts of X-rays. They dubbed these “quasi-periodic eruptions,” or QPEs.
This discovery gives astronomers evidence that TDEs and QPEs can be different phases of the same phenomenon. In addition to Chandra, the researchers used NASA’s Hubble Space Telescope, NICER telescope aboard the International Space Station, and the Neil Gehrels Swift Telescope. Astronomers will continue to look for more of these events to learn more about how black holes grow, and to study the prevalence and distances of objects in close orbits around massive black holes.
(Credit: NASA/CXC/A. Hobart)
[Runtime: 02:47]
With closed-captions (at YouTube)
A massive black hole has torn apart one star and is now using that stellar wreckage to pummel another star or smaller black hole that used to be in the clear. This discovery, made with NASA’s Chandra X-ray Observatory and other telescopes, helps astronomers link two mysteries where there had previously only been hints of a connection.
In 2019, astronomers witnessed the signal of a star that got too close to a black hole and was destroyed by the black hole’s gravitational forces. Once shredded, the star’s remains began circling the black hole in a disk in a type of stellar graveyard.
Over a few years, however, this disk has expanded outward and is now directly in the path of a star, or possibly a stellar-mass black hole, orbiting the massive black hole at a previously safe distance. The orbiting star is now repeatedly crashing through the debris disk, about once every 48 hours, as it circles. When it does, the collision causes bursts of X-rays that astronomers captured with Chandra.
Like a diver repeatedly going into a pool and creating a splash every time she enters the water, the star striking the disk creates a huge ‘splash’ of gas and X-rays. As the star orbits around the black hole, it does this over and over again.
Scientists have documented many cases where an object gets too close to a black hole and gets torn apart in a single burst of light. Astronomers call these “tidal disruption events,” or TDEs. In recent years, astronomers have also discovered a new class of bright flashes from the centers of galaxies, which are detected only in X-rays and repeat many times. These events are also connected to supermassive black holes, but astronomers could not explain what caused the semi-regular bursts of X-rays. They dubbed these “quasi-periodic eruptions,” or QPEs.
This discovery gives astronomers evidence that TDEs and QPEs can be different phases of the same phenomenon. In addition to Chandra, the researchers used NASA’s Hubble Space Telescope, NICER telescope aboard the International Space Station, and the Neil Gehrels Swift Telescope. Astronomers will continue to look for more of these events to learn more about how black holes grow, and to study the prevalence and distances of objects in close orbits around massive black holes.
Download this video (MP4)
Quick Look: Black Hole Destroys Star and Goes After Another
(Credit: NASA/CXC/A. Hobart)
[Runtime: 00:45]
With narration (video above with voiceover)
A giant black hole has torn apart a star and now may be going after another one.
The expanding debris field is pummeling an object as it orbits the black hole.
This result links two cosmic mysteries scientists were not sure to be connected.
Astronomers used NASA’s Chandra and other telescopes to make this discovery.
(Credit: NASA/CXC/A. Hobart)
[Runtime: 00:45]
With narration (video above with voiceover)
A giant black hole has torn apart a star and now may be going after another one.
The expanding debris field is pummeling an object as it orbits the black hole.
This result links two cosmic mysteries scientists were not sure to be connected.
Astronomers used NASA’s Chandra and other telescopes to make this discovery.
Download this video (MP4)
Timelapse: X-ray Inset on Optical Background, 30 seconds
(Credit: NASA/CXC/A. Hobart)
[Runtime: 00:30]
This series of images shows Chandra X-ray data of the area around AT2019qiz changing over time from December 9, 2023 at 10:44:59 UTC to December 9, 2023 at 20:09:07 UTC and then to December 10, 2023 at 14:49:06 UTC. Also included is a wide field optical image from Pan-STARRS. Chandra and other telescopes have identified this supermassive black hole that has torn apart one star and is now using that stellar wreckage to pummel another star or smaller black hole.
(Credit: NASA/CXC/A. Hobart)
[Runtime: 00:30]
This series of images shows Chandra X-ray data of the area around AT2019qiz changing over time from December 9, 2023 at 10:44:59 UTC to December 9, 2023 at 20:09:07 UTC and then to December 10, 2023 at 14:49:06 UTC. Also included is a wide field optical image from Pan-STARRS. Chandra and other telescopes have identified this supermassive black hole that has torn apart one star and is now using that stellar wreckage to pummel another star or smaller black hole.
Download this video (MP4)
Timelapse: X-ray Only, 30 seconds
(Credit: NASA/CXC/A. Hobart)
[Runtime: 00:30]
This series of images shows Chandra X-ray data of the area around AT2019qiz changing over time from December 9, 2023 at 10:44:59 UTC to December 9, 2023 at 20:09:07 UTC and then to December 10, 2023 at 14:49:06 UTC. Chandra and other telescopes have identified this supermassive black hole that has torn apart one star and is now using that stellar wreckage to pummel another star or smaller black hole.
(Credit: NASA/CXC/A. Hobart)
[Runtime: 00:30]
This series of images shows Chandra X-ray data of the area around AT2019qiz changing over time from December 9, 2023 at 10:44:59 UTC to December 9, 2023 at 20:09:07 UTC and then to December 10, 2023 at 14:49:06 UTC. Chandra and other telescopes have identified this supermassive black hole that has torn apart one star and is now using that stellar wreckage to pummel another star or smaller black hole.
Download this video (MP4)
Timelapse: X-ray Only, 3 seconds
(Credit: NASA/CXC/A. Hobart)
[Runtime: 00:03]
This series of images shows Chandra X-ray data of the area around AT2019qiz changing over time from December 9, 2023 at 10:44:59 UTC to December 9, 2023 at 20:09:07 UTC and then to December 10, 2023 at 14:49:06 UTC. Chandra and other telescopes have identified this supermassive black hole that has torn apart one star and is now using that stellar wreckage to pummel another star or smaller black hole.
(Credit: NASA/CXC/A. Hobart)
[Runtime: 00:03]
This series of images shows Chandra X-ray data of the area around AT2019qiz changing over time from December 9, 2023 at 10:44:59 UTC to December 9, 2023 at 20:09:07 UTC and then to December 10, 2023 at 14:49:06 UTC. Chandra and other telescopes have identified this supermassive black hole that has torn apart one star and is now using that stellar wreckage to pummel another star or smaller black hole.
Return to: Black Hole Destroys Star, Goes After Another, NASA Missions Find (October 9, 2024)
Revised: October 08, 2024