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NASA’S Great Observatories Weigh Massive Young Galaxy Cluster

For Release: January 7, 2016

CXC

IDCS J1426.5+3508
Credit: X-ray: NASA/CXC/University of Missouri-Kansas City/M.Brodwin et al; Optical: NASA/STScI; Infrared: JPL/CalTech
Press Image and Caption

Astronomers have used data from three of NASA's Great Observatories to make the most detailed study yet of an extremely massive young galaxy cluster. This rare cluster, which is located 10 billion light years from Earth, weighs as much as 500 trillion Suns. This object has important implications for understanding how these megastructures formed and evolved early in the Universe.

The galaxy cluster called IDCS J1426.5+3508 (IDCS 1426 for short), is so far away that the light detected is from when the universe was roughly a quarter of its current age. It is the most massive galaxy cluster detected at such an early age.

First discovered by the Spitzer Space Telescope in 2012, IDCS 1426 was observed using the Hubble Space Telescope and the Keck Observatory to determine its distance. Observations from the Combined Array for Millimeter Wave Astronomy indicated it was extremely massive. New data from the Chandra X-ray Observatory confirm the galaxy cluster mass and show that about 90% of the mass of the cluster is in the form of dark matter, a mysterious substance detected so far only through its gravitational pull on normal matter composed of atoms.

"We are really pushing the boundaries with this discovery," said Mark Brodwin of the University of Missouri-Kansas City, who led the study. "As one of the earliest massive structures to form in the Universe, this cluster sets a high bar for theories that attempt to explain how clusters and galaxies evolve."

Galaxy clusters are the largest objects in the Universe bound together by gravity. Because of their sheer size, scientists think it should take several billion years for them to form. The distance of IDCS J1426 means astronomers are observing it when the Universe was only 3.8 billion years old, implying that the cluster is seen at a very young age.

The data from Chandra reveal a bright knot of X-rays near the middle of the cluster, but not exactly at its center. This overdense core has been dislodged from the cluster center, possibly by a merger with another developing cluster 500 million years prior. Such a merger would cause the X-ray emitting, hot gas to slosh around like wine in a glass that is tipped from side to side.

"Mergers with other groups and clusters of galaxies should have been more common so early in the history of the Universe," said co-author Michael McDonald of Massachusetts Institute of Technology in Cambridge, Massachusetts. "That appears to have played an important part in this young cluster’s rapid formation."

Aside from this cool core, the hot gas in the rest of the cluster is very smooth and symmetric. This is another indication that IDCS 1426 formed very rapidly. In addition, astronomers found possible evidence that the amount of elements heavier than hydrogen and helium in the hot gas is unusually low. This suggests that this galaxy cluster might still be in the process of enriching its hot gas with these elements as supernovae create heavier elements and blast them out of individual galaxies.

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"The presence of this massive galaxy cluster in the early Universe doesn’t upset our current understanding of cosmology," said co-author of Anthony Gonzalez of University of Florida in Gainesville, Florida. "It does, however, give us more information to work with as we refine our models."

Evidence for other massive galaxy clusters at early times has been found, but none of these matches IDCS 1426 with its combination of mass and youth. The mass determination used three independent methods: a measurement of the mass needed to confine the hot X-ray emitting gas to the cluster, the imprint of the cluster's gaseous mass on the cosmic microwave background radiation, and the observed distortions in the shapes of galaxies behind the cluster, which are caused by the bending of light from the galaxies by the gravity of the cluster.

These results were presented at the 227th meeting of the American Astronomical Society meeting being held in Kissimmee, Florida. A paper describing these results has been accepted for publication in The Astrophysical Journal and is available online. NASA's Marshall Space Flight Center in Huntsville, Alabama, manages the Chandra program for NASA's Science Mission Directorate in Washington. The Smithsonian Astrophysical Observatory in Cambridge, Massachusetts, controls Chandra's science and flight operations.

The Hubble Space Telescope is a project of international cooperation between NASA and ESA (European Space Agency). NASA's Goddard Space Flight Center in Greenbelt, Maryland, manages the telescope. The Space Telescope Science Institute (STScI) in Baltimore conducts Hubble science operations. STScI is operated for NASA by the Association of Universities for Research in Astronomy, Inc., in Washington.

These results were presented at the 227th meeting of the American Astronomical Society meeting being held in Kissimmee, Florida. A paper describing these results has been accepted for publication in The Astrophysical Journal and is available online. NASA's Marshall Space Flight Center in Huntsville, Alabama, manages the Chandra program for NASA's Science Mission Directorate in Washington. The Smithsonian Astrophysical Observatory in Cambridge, Massachusetts, controls Chandra's science and flight operations.

An interactive image, a podcast, and a video about the findings are available at:

http://chandra.si.edu

For more Chandra images, multimedia and related materials, visit:

http://www.nasa.gov/chandra

Media contacts:
Megan Watzke
Chandra X-ray Center, Cambridge, Mass.
617-496-7998
mwatzke@cfa.harvard.edu


Visitor Comments (7)

Thanks for this Information

Posted by Monica Chrisandtras HINES on Wednesday, 05.4.16 @ 11:58am


A so called black hole is an electromagnetic positron which attracts neutron stars to its center. By centrifugal force the neutron stars are reduced to primal matter, forming the nucleus of an atomic reaction whose explosive force releases primordial particles into the unknown depths of space. Thus is born another galaxy. The proof of this will be found in bumps in the thermal background which reflect the nature of galactic reproduction in the known universe.

Posted by graham harris on Tuesday, 01.26.16 @ 17:02pm


Very interesting. Congratulations.

Posted by Dr.Amalia Kokkinou on Friday, 01.22.16 @ 08:42am


Is there no sign of a small-angle galactic black hole jet?

Posted by Fred E. Howard, Jr. on Monday, 01.4.16 @ 12:03pm


FASCINATING and congratulations on imaging this amazing occurrence. Much appreciation for not only sharing the image to laymen... but also for the tantalizing article

Posted by Elizabeth on Tuesday, 12.29.15 @ 00:39am


Thank You for the newsletter. I don't think we humans are alone in the Universe.

Posted by romano on Tuesday, 12.22.15 @ 21:17pm


Very good article. Easy to follow. Continue the explorations. After all, we must keep observing our universe. How else will we know what's happening out there.

Posted by Noreen Ramkhelawan on Tuesday, 12.22.15 @ 17:08pm


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