Researchers using the Chandra X-ray Observatory have identified four large cavities in the galaxy cluster RBS 797, possibly created by two supermassive black holes.
These observations could indicate a rare instance of dual black holes in active phases or a single black hole with rapidly changing jet directions.
Discovery of Unusual Galactic Phenomena
Scientists have found four enormous cavities, or bubbles, at the center of a galaxy cluster using NASA’s Chandra X-ray Observatory. This unusual set of features may have been caused by eruptions from two supermassive black holes closely orbiting each other.
Galaxy clusters are the largest structures in the universe held together by gravity. They are a mixture of hundreds or even thousands of individual galaxies, enormous amounts of hot gas, and unseen dark matter. The hot gas that pervades clusters contains much more mass than the galaxies themselves, and glows brightly in X-ray light that Chandra detects. An enormous galaxy is usually found at the center of a cluster.
Deep Observations of RBS 797
A new Chandra study of the galaxy cluster known as RBS 797, located about 3.9 billion light-years from Earth, uncovered two separate pairs of cavities extending away from the center of the cluster.
These types of cavities have been seen before in other galaxy clusters. Scientists think they are the result of eruptions from regions near a supermassive black hole in the middle of the massive central galaxy. As matter flies away from the black hole as jets in opposing directions, it blows cavities in the hot gas. The revelation in RBS 797 is that there are two sets of jets directed perpendicular to each other.
Mysterious Cavity Formation
“We think we know what a pair of cavities represents, but what is going on when a galaxy cluster has two pairs in very different directions?” said Francesco Ubertosi of the University of Bologna in Italy, who led the Chandra study.
Astronomers previously observed the pair of cavities in the east-west direction in RBS 797, but the pair in the north-south direction was only detected in a new, much longer Chandra observation. The deeper image uses almost five days of Chandra observing time, compared to about 14 hours for the original observation. The National Science Foundation’s Karl G. Jansky Very Large Array had already observed evidence for two pairs of jets as radio emission, which line up with the cavities.
The Role of Dual Supermassive Black Holes
How was this quartet of cavities created? The most likely answer, according to Ubertosi and his colleagues, is that RBS 797 contains a pair of supermassive black holes that have launched jets in perpendicular directions at almost the same time.
“Our best idea is that one pair of supermassive black holes has led to a pair of a pair of cavities,” said Myriam Gitti, a co-author also of the University of Bologna. “While we think supermassive black holes can form binary systems, it is extremely rare that both of them are observed in an active phase — in this sense the discovery of two close active black holes inflating cavities in RBS 797 is extraordinary.”
Speculations and Further Research
Indeed, previously a radio observation with the European VLBI Network (EVN) discovered two radio point sources separated by only about 250 light-years in RBS 797. If both sources are supermassive black holes, they are among the closest pair ever detected. The two black holes should continue to spiral toward each other, generating huge amounts of gravitational waves, and eventually merge.
Alternative Theories on Cavity Origins
There is another possible explanation for the four cavities seen in RBS 797. This scenario involves only one supermassive black hole — with jets that somehow manage to flip around in direction quite quickly. Analysis of the Chandra data shows that the age difference for the east-west and north-south cavities is less than 10 million years.
“If there is only one black hole responsible for these four cavities, then we will have to trace the history of its activity. Key aspects are how the jets’ orientation changed quickly, and whether this is related to the galaxy cluster environment or to the physics of the black hole itself — or even a combination of both,” said Fabrizio Brighenti, a University of Bologna co-author.
A paper describing these results appears in The Astrophysical Journal Letters.
For more on this research, see Astronomers Spy Quartet of Enormous Cavities From Giant Black Holes.
Reference: “The deepest Chandra view of RBS 797: evidence for two pairs of equidistant X-ray cavities” by Francesco Ubertosi, Myriam Gitti, Fabrizio Brighenti, Gianfranco Brunetti, Michael McDonald, Paul Nulsen, Brian McNamara, Scott Randall, William Forman, Megan Donahue, Alessandro Ignesti, Massimo Gaspari, Stefano Ettori, Luigina Feretti, Elizabeth L. Blanton, Christine Jones, Michael S. Calzadilla, 16 December 2021, The Astrophysical Journal Letters.
DOI: 10.3847/2041-8213/ac374c
arXiv: 2111.03679
NASA’s Marshall Space Flight Center manages the Chandra program. The Smithsonian Astrophysical Observatory’s Chandra X-ray Center controls science from Cambridge Massachusetts and flight operations from Burlington, Massachusetts.
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