|The hearts of small galaxies may hide a mysterious kind of black hole that has long proved elusive: medium-size black holes with masses between the mass of a few suns and that of millions of suns, a new study finds.|
Over the decades, astronomers have detected many examples of two kinds of black holes: stellar-mass black holes and supermassive black holes. Stellar-mass black holes are up to a few times the sun's mass and are thought to arise when giant stars die and collapse in on themselves, whereas supermassive black holes are millions to billions of times the sun's mass and form the hearts of most, if not all, large galaxies.
Much remains unknown about the origins of supermassive black holes; they seem to have grown extraordinarily fast and appeared early in cosmic history, but researchers don't know exactly how. One theory involves intermediate-mass black holes — those with masses between 100 and 1 million solar masses — that previous research suggested might serve as the middle stages between stellar-mass and supermassive black holes. However, evidence for these missing links remains scant. [The Strangest Black Holes in the Universe]
Now, researchers say they may have detected 10 intermediate-mass black holes in the hearts of galaxies, including five that were previously unknown. These new findings suggest that intermediate-mass black holes may lurk within the centers of many small galaxies, the scientists said.
"Intermediate-mass black holes are ubiquitous in the local universe," study lead author Igor Chilingarian, an astronomer at both the Smithsonian Astrophysical Observatory in Cambridge, Massachusetts, and Moscow State University in Russia, told Space.com.
Black holes of any kind are challenging to spot because, as their name suggests, they are black, making them difficult to see against the blackness of space. One way to detect black holes indirectly is by looking for extraordinarily bright galactic cores. Prior work suggested that these so-called "active galactic nuclei" are likely black holes that unleash vast amounts of energy as gigantic clouds of gas "accrete" or fall into them.
To hunt for intermediate-mass black holes, the new study's researchers first analyzed data on about 1 million galaxies in the Sloan Digital Sky Survey, looking for the kind of light typically seen from accreting black holes. After they detected 305 potential intermediate-mass black holes residing in galactic cores, they searched data from the Chandra, XMM-Newton and Swift orbital X-ray observatories for X-rays that would serve as strong evidence that these candidates were, in fact, intermediate-mass black holes.
"These are very faint sources of X-rays at the centers of galaxies," Avi Loeb, chair of astronomy at Harvard University, told Space.com. "Because they're faint, they can't be seen at great distances, so the researchers had to look at the nearby universe. It's very challenging to see these sources, because there are also stars at the centers of galaxies, and the researchers needed to distinguish these sources from stars all around it. This is why many of these sources were not seen before." Loeb was not involved with the new study.
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