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The supermassive black hole in the center of our Milky Way galaxy is about 4 million times our sun\u2019s mass. But the black hole embedded in quasar H1821+643 \u2013 3.4 billion light-years away \u2013 is some 4 billion<\/em> times our sun\u2019s mass. As the closest quasar known within a galaxy cluster, H1821+643 was the focus of a new study performed in both X-rays and radio. Astronomers collaborated, using the Earth-orbiting Chandra X-ray Observatory and the Very Large Telescope, or VLT, in Chile. And, on March 21, 2024, upon releasing the results of their study, they called the black hole in H1821+643 an underachiever.<\/em><\/p>\n They said that, although this giant black hole is responsible for high levels of radiation and powerful jets, it\u2019s not affecting its surroundings as greatly as many of its black hole counterparts in other galaxies.<\/p>\n The international team of researchers published their peer-reviewed findings in the Monthly Notices of the Royal Astronomical Society<\/em> on January 27, 2024.<\/p>\n We\u2019re in the midst of our once-year funding-raising campaign. Join our community of passionate astronomy enthusiasts and help us continue to bring you the latest astronomy news and insights! Donate today.<\/p>\n Quasars are extremely bright, up to 1,000 times brighter than our home galaxy, the Milky Way. The intense radiation from quasars is thought to be due to the supermassive black holes found at the hearts of most galaxies. Quasars in the early universe tend to be exceedingly \u201chungry.\u201d They are pulling in material from their surroundings, creating conditions for high levels of radiation and powerful, superluminal jets.<\/p>\n But some supermassive black holes are pulling in surrounding material more slowly than others. They outburst energy on a regular basis, preventing the superheated gas that surrounds them from cooling down. This has two effects. One is the limiting of star formation in the host galaxy. The other is a limit on how much material the black hole consumes.<\/p>\n But when it comes to supermassive black holes in quasars that are in galaxy clusters, like H1821+643, there is still a lot for astronomers to learn. And this black hole appears to be underperforming. As lead author Helen Russell of the University of Nottingham in the U.K. noted:<\/p>\n We have found that the quasar in our study appears to have relinquished much of the control imposed by more slowly growing black holes. The black hole\u2019s appetite is not matched by its influence.<\/p>\n<\/blockquote>\n Overall, the new study suggests that quasars may have less influence on their host galaxy, and even the galaxy cluster, than previously thought.<\/p>\n So, how did the researchers determine this? With Chandra, they looked at the hot gas that surround the black hole, quasar and host galaxy. The hot gas emits weak X-rays, while the X-rays from the quasar and black hole are much stronger. Strong enough that they obscured the astronomers\u2019 observations of the gas X-rays. So the researchers had to remove the stronger X-rays from the composite images. In doing so, the researchers could measure how much influence the X-rays from the black hole and quasar had on its surroundings.<\/p>\n As it turned out, not that much. The density of hot gas was higher in the vicinity of the black hole and quasar, but the temperatures lower than expected. Why? The researchers said it\u2019s because there are less outbursts of energy from the black hole than they thought there would be. Usually, those bursts would help prevent the gas from cooling down. But instead, the gas is<\/em> cooling down and flowing toward the center of the galaxy cluster.<\/p>\n Most supermassive black holes have a much larger influence on their neighborhood. So this particular black hole is underperforming, you could say. As the paper described it,<\/p>\n The active galactic nucleus appears to be underheating the core of this cluster.<\/p>\n<\/blockquote>\n The paper also noted that the black hole may be undersized, or it may be going through a period of underheating. Additional observations may help to determine which is the case.<\/p>\nClosest quasar to Earth in a galaxy cluster<\/h3>\n
Underachieving black hole<\/h3>\n
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Observing with Chandra<\/h3>\n
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