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Chandra weighs most massive galaxy cluster in distant universe | Astronomy.com
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Chandra weighs most massive galaxy cluster in distant universe

Astronomers used X-ray data that, when combined with scientific models, provides an accurate weight of the cluster, which comes in at a whopping 400 trillion times the mass of the Sun.
RELATED TOPICS: GALAXIES | GALAXY CLUSTERS
Galaxy cluster
The most distant massive galaxy cluster, located about 9.6 billion light years from Earth, has been found and studied. Astronomers nicknamed this object the "Gioello" (Italian for "Jewel") Cluster.
X-ray: NASA/CXC/INAF/P.Tozzi, et al; Optical: NAOJ/Subaru and ESO/VLT; Infrared: ESA/Herschel
Using NASA’s Chandra X-ray Observatory, astronomers have made the first determination of the mass and other properties of a young distant galaxy cluster.

The Chandra study shows that the galaxy cluster, seen at the comparatively young age of about 800 million years, is the most massive known cluster with that age or younger. As the largest gravitationally bound structures known, galaxy clusters can act as crucial gauges for how the universe itself has evolved over time.

The galaxy cluster was originally discovered using ESA’s XMM-Newton observatory and is located about 9.6 billion light-years from Earth. Astronomers used X-ray data from Chandra that, when combined with scientific models, provides an accurate weight of the cluster, which comes in at a whopping 400 trillion times the mass of the Sun. Scientists believe the cluster formed about 3.3 billion years after the Big Bang.

The cluster is officially named XDCP J0044.0-2033, but the researchers have nicknamed it “Gioiello,” which is Italian for “jewel.” They chose this name because an image of the cluster contains many sparkling colors from the hot, X-ray emitting gas and various star-forming galaxies within the cluster. Also, the research team met to discuss the Chandra data for the first time at Villa il Gioiello, a 15th century villa near the Observatory of Arcetri, which was the last residence of prominent Italian astronomer Galileo Galilei.

“Finding this enormous galaxy cluster at this early epoch means that there could be more out there,” said Paolo Tozzi of the National Institute for Astrophysics (INAF) in Florence, Italy. “This kind of information could have an impact on our understanding of how the large scale structure of the universe formed and evolved.”

Previously, astronomers had found an enormous galaxy cluster, known as “El Gordo,” at a distance of 7 billion light-years away and a few other large distant clusters. According to the best current model for how the universe evolved, there is a low chance of finding clusters as massive as the Gioiello Cluster and El Gordo. The new findings suggest that there might be problems with the theory, and are enticing astronomers to look for other distant and massive clusters.

“The hint that there might be problems with the standard model of cosmology is interesting,” said James Jee of the University of California in Davis, “but we need bigger and deeper samples of clusters before we can tell if there’s a real problem.”

The Chandra observation of the Gioiello Cluster lasted over four days and is the deepest X-ray observation yet made on a cluster beyond a distance of about 8 billion light-years.

“Unlike the galaxy clusters that are close to us, this cluster still has lots of stars forming within its galaxies,” said Joana Santos, also from INAF. “This gives us a unique window into what galaxy clusters are like when they are very young.”

In the past, astronomers have reported finding several galaxy cluster candidates that are located more than 9.5 billion light-years away. However, some of these objects turned out to be protoclusters, that is, precursors to fully developed galaxy clusters.

The researchers also note that there are hints of uneven structure in the hot gas. These may be large clumps that could have been caused by collisions and mergers with smaller clusters of galaxies and provides clues to how the cluster became so hefty at its early age. The authors expect that the cluster is still young enough to be undergoing many such interactions.
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