A NASA telescope reveals a giant black hole jet like never before

Scientists flabbergasted by incredible speed.
By Elisha Sauers  on 
A jet shooting out of a Centaurus A's black hole accretion disk
NASA's Chandra X-ray telescope peers at a jet blasting forth from the central supermassive black hole of Centaurus A, a galaxy 12 million light-years from Earth. Credit: D. Bogensberger et al.

Particles blasting from a supermassive black hole jet appear to be traveling at nearly the speed of light — much faster than scientists had previously clocked them, according to new research.

While most observations of black holes in space are with radio telescopes, a research team used NASA's Chandra X-ray Observatory to study their jets in a new light — literally. What they found with the X-ray telescope was surprising. 

"We've shown a new approach to studying jets, and I think there's a lot of interesting work to be done," said David Bogensberger, lead author of the study, in a statement

Jets blasting out of Centaurus A black hole's accretion disk in opposition directions
In a composite image of the supermassive black hole at the center of the Centaurus A galaxy, jets are seen blasting from the accretion disk in opposite directions. Credit: ESO / WFI / MPIfR / ESO / APEX / A.Weiss et al. / NASA / CXC / CfA /R.Kraft et al.

Black holes were little more than a theory 50 years ago — a kooky mathematical solution to a physics problem — and even astronomers at the top of their field weren't entirely convinced they existed. 

Today, not only are supermassive black holes accepted science, they're getting their pictures taken by a collection of enormous, synced-up radio dishes on Earth. Supermassive black holes, millions to billions of times more massive than the sun, are thought to lurk at the center of virtually all large galaxies.

What we know is this: Falling into a black hole is an automatic death sentence. Any cosmic stuff that wanders too close reaches a point of no return. But scientists have observed something weird at the edge of black holes' accretion disks, the ring of rapidly spinning material around the hole, like the swirl of water around a bathtub drain: A tiny amount of that stuff can suddenly get rerouted

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When that happens, high-energy particles can get flung outward as a pair of jets, blasting in opposite directions, though astronomers haven't figured out exactly how they work. Jets give out prominent radio emissions, but have also been observed to be surprisingly bright in X-rays, too. 

An artist's rendering of the Chandra X-ray Observatory flying through space with stars and cosmic gas in the background.
NASA's Chandra X-ray Observatory spacecraft launched in 1999. Credit: NASA's Marshall Space Flight Center illustration

So Bogensberger, a postdoctoral fellow at the University of Michigan, decided to look at the black hole at the center of Centaurus A, one of the brightest galaxies in the sky, about 12 million light-years from Earth, in X-rays. For reference, one light-year is nearly 6 trillion miles. 

Using data already captured by the space observatory between 2000 and 2022, Bogensberger developed a computer algorithm to track bright lumps within the jets that astronomers call knots. Following knots during a set timeframe is a way to measure the speed.  

After tracking one knot in particular, the team found it traveling at least 94 percent the speed of light. That was significantly faster than what scientists had seen in radio waves, with a knot from the same black hole jet, moving at 80 percent the speed of light. The paper has been published in The Astrophysical Journal

Not only did the team discover faster clumps in the X-ray band, but the data also showed that the fastest knots weren't the ones closest to the black hole, as was seen in radio waves. Instead, the fastest knots were those around the mid-region of the jets. 

What does all of that mean? The answer is a big shrug emoji right now, but Bogensberger intends to use his method to collect more data observing the jets of other supermassive black holes.

"A key to understanding what’s going on in the jet could be understanding how different wavelength bands trace different parts of the environment," he said. "Now we have that possibility."

Topics NASA

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Elisha Sauers

Elisha Sauers writes about space for Mashable, taking deep dives into NASA's moon and Mars missions, chatting up astronauts and history-making discoverers, and jetting above the clouds. Through 17 years of reporting, she's covered a variety of topics, including health, business, and government, with a penchant for public records requests. She previously worked for The Virginian-Pilot in Norfolk, Virginia, and The Capital in Annapolis, Maryland. Her work has earned numerous state awards, including the Virginia Press Association's top honor, Best in Show, and national recognition for narrative storytelling. For each year she has covered space, Sauers has won National Headliner Awards, including first place for her Sex in Space series. Send space tips and story ideas to [email protected] or text 443-684-2489. Follow her on X at @elishasauers.


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