Stargazing just got more fascinating Astronomers have spotted the most distant black hole in Xrays marking a groundbreaking discovery.

Astronomers have discovered the most distant black hole yet seen in X-rays, using NASA telescopes. The black hole is at an early stage of growth that had never been witnessed before, where its mᴀss is similar to that of its host galaxy.

This result may explain how some of the first supermᴀssive black holes in the universe formed.

By combining data from NASA’s Chandra X-ray Observatory and NASA’s James Webb Space Telescope, a team of researchers was able to find the telltale signature of a growing black hole just 470 million years after the big bang.

“We needed Webb to find this remarkably distant galaxy and Chandra to find its supermᴀssive black hole,” said Akos Bogdan of the Center for Astrophysics | Harvard & Smithsonian (CfA) who leads a new paper available on the arXiv preprint server and slated for publication in the journal Nature Astronomy describing these results. “We also took advantage of a cosmic magnifying glᴀss that boosted the amount of light we detected.” This magnifying effect is known as gravitational lensing.

Bogdan and his team found the black hole in a galaxy named UHZ1 in the direction of the galaxy cluster Abell 2744, located 3.5 billion light-years from Earth. Webb data, however, has revealed the galaxy is much more distant than the cluster, at 13.2 billion light-years from Earth, when the universe was only 3% of its current age.

Then over two weeks of observations with Chandra showed the presence of intense, superheated, X-ray emitting gas in this galaxy—a trademark for a growing supermᴀssive black hole. The light from the galaxy and the X-rays from gas around its supermᴀssive black hole are magnified by about a factor of four by intervening matter in Abell 2744 (due to gravitational lensing), enhancing the infrared signal detected by Webb and allowing Chandra to detect the faint X-ray source.

Formation of a Heavy Seed Black Hole from Direct Collapse of a Mᴀssive Cloud of Gas (Credit: NASA/STScI/Leah Hustak)

This discovery is important for understanding how some supermᴀssive black holes can reach colossal mᴀsses soon after the big bang. Do they form directly from the collapse of mᴀssive clouds of gas, creating black holes weighing between about 10,000 and 100,000 suns? Or do they come from explosions of the first stars that create black holes weighing only between about 10 and 100 suns?

“There are physical limits on how quickly black holes can grow once they’ve formed, but ones that are born more mᴀssive have a head start. It’s like planting a sapling, which takes less time to grow into a full-size tree than if you started with only a seed,” said Andy Goulding of Princeton University. Goulding is a co-author of the Nature Astronomy paper and lead author of a new paper in The Astrophysical Journal Letters that reports the galaxy’s distance and mᴀss using a spectrum from Webb.

Bogdan’s team has found strong evidence that the newly discovered black hole was born mᴀssive. Its mᴀss is estimated to fall between 10 and 100 million suns, based on the brightness and energy of the X-rays. This mᴀss range is similar to that of all the stars in the galaxy where it lives, which is in stark contrast to black holes in the centers of galaxies in the nearby universe that usually contain only about a tenth of a percent of the mᴀss of their host galaxy’s stars.

The large mᴀss of the black hole at a young age, plus the amount of X-rays it produces and the brightness of the galaxy detected by Webb, all agree with theoretical predictions in 2017 by co-author Priyamvada Natarajan of Yale University for an “Outsize Black Hole” that directly formed from the collapse of a huge cloud of gas.

“We think that this is the first detection of an ‘Outsize Black Hole’ and the best evidence yet obtained that some black holes form from mᴀssive clouds of gas,” said Natarajan. “For the first time we are seeing a brief stage where a supermᴀssive black hole weighs about as much as the stars in its galaxy, before it falls behind.”

The researchers plan to use this and other results pouring in from Webb and those combining data from other telescopes to fill out a larger picture of the early universe.

This image contains the most distant black hole ever detected in X-rays, a result that may explain how some of the first supermᴀssive black holes in the universe formed. As we report in our press release, this discovery was made using X-rays from NASA’s Chandra X-ray Observatory (purple) and infrared data from NASA’s James Webb Space Telescope (red, green, blue). The extremely distant black hole is located in the galaxy UHZ1 in the direction of the galaxy cluster Abell 2744. The galaxy cluster is about 3.5 billion light-years from Earth. Webb data, however, reveal that UHZ1 is much farther away than Abell 2744. At some 13.2 billion light-years away, UHZ1 is seen when the universe was only 3% of its current age. Credit: Chandra X-ray Center

NASA’s Hubble Space Telescope previously showed that light from distant galaxies is highly magnified by matter in the intervening galaxy cluster, providing part of the motivation for the Webb and Chandra observations described here.

The paper describing the results by Bogdan’s team appears in Nature Astronomy, and a preprint is available online. In addition to those listed above, the authors include Orsolya Kovacs (Masaryk University, Czech Republic), Grant Tremblay (CfA), Urmila Chadayammuri (CfA), Marta Volonteri (Insтιтut d’Astrophysique de Paris, France), Ralph Kraft (CfA), William Forman (CfA), Chrisine Jones (CfA), Eugene Churazov (Max Planck Insтιтute for Astrophysics, Germany), and Irina Zhuravleva (University of Chicago).

The Webb data used in both papers is part of a survey called the Ultradeep Nirspec and nirCam ObserVations before the Epoch of Reionization (UNCOVER). The paper led by UNCOVER team member Andy Goulding appears in the Astrophysical Journal Letters. The co-authors include other UNCOVER team members, plus Bogdan and Natarajan. A detailed interpretation paper that compares observed properties of UHZ1 with theoretical models for Outsize Black Hole Galaxies is forthcoming.

References:

Akos Bogdan et al, Evidence for heavy seed origin of early supermᴀssive black holes from a z~10 X-ray quasar, Nature Astronomy (2023). DOI: 10.1038/s41550-023-02111-9, On arXiv (2023). DOI: 10.48550/arxiv.2305.15458

Andy D. Goulding et al, UNCOVER: The Growth of the First Mᴀssive Black Holes from JWST/NIRSpec—Spectroscopic Redshift Confirmation of an X-Ray Luminous AGN at z = 10.1, The Astrophysical Journal Letters (2023). DOI: 10.3847/2041-8213/acf7c5

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