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Distant Galaxies Show A Mature Universe Even In Childhood

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Paranal, Chile (SPX) Mar 03, 2005
Scientists have discovered the most distant massive structure yet detected in the Universe, a fully formed galaxy cluster containing hundreds, if not thousands, of galaxies.

The discovery is evidence that the Universe's elegant hierarchal structure of stars, galaxies and clusters formed quickly after the big bang, far earlier than most astronomers thought possible just a few years ago.

The discovery was made with the European Space Agency's XMM-Newton Observatory and the European Southern Observatory's Very Large Telescope (ESO VLT) in Chile.

Dr. Christopher Mullis of the University of Michigan, whose research is supported through NASA XMM-Newton grants, presented this finding at a scientific meeting Tuesday evening in Kona, Hawaii, entitled "The Future of Cosmology with Clusters of Galaxies."

"We are quite surprised to see that exquisite structure like this could exist at such early epochs," said Mullis, who is also lead author on a report about this finding in an upcoming issue of The Astrophysical Journal.

"We see an entire network of stars and galaxies in place at just a few billion years after the big bang, like a kingdom popping up overnight on Earth."

The newly discovered cluster is about 9 billion light years from Earth, a half billion light years farther out than the previous record holder.

This means the cluster was mature when the Universe was only 5 billion years old, and that the stars and galaxies formed and assembled into a cluster within only a few billion years. The Universe is now 13.7 billion years old.

"We have underestimated how quickly the early Universe matured into its present-day incarnation," said Dr. Piero Rosati at ESO headquarters in Garching, Germany, a co-author on the report. "The Universe grew up fast."

The scientists said this discovery might be the tip of the iceberg. Their results are based on a first peek at archived XMM-Newton data from the past four years. Other clusters undoubtedly lie hidden in the data archive waiting to be discovered, they said.

Galaxy clusters contain hundreds to thousands of galaxies gravitationally bound to each other. Our Milky Way galaxy resides in a relatively low-density region of the Universe, part of a "local group" of galaxies but apparently not bound to the nearby Virgo cluster.

Scientists study the distribution and growth rate of galaxy clusters to understand the overall structure and evolution of the Universe.

Most of the ordinary matter in galaxy clusters takes the form of hot, tenuous gas in between galaxies. This gas is invisible to optical telescopes but can be detected with large, orbiting X-ray observatories, such as XMM-Newton.

Mullis said that a 12-hour XMM-Newton observation of a nearby galaxy revealed tantalizing evidence of a galaxy cluster far in the background. Knowing where to look, his team used the powerful ESO VLT in the Atacama Desert in Chile to find an optical counterpart.

Sure enough, the team found dozens of galaxies associated with this X-ray emission. The VLT data established the distance to the cluster, at a redshift of 1.4, corresponding to about 9 billion light years away.

The galaxies were reddish, elliptical types, an indication that they were already several billion years old and filled with older red stars. The cluster itself was largely spherical, a sign that it was well formed.

Proto-clusters, which are clusters in the making, have been seen over 10 billion light years away. The new finding is the best evidence yet of when these wild proto-clusters reached maturity.

The relative ease of discovery, based on archived data, implies that the team could build a large sample size of exceedingly distant clusters.

This would allow scientists to directly test competing theories of structure formation and evolution. The team is currently pursuing detailed follow-up observations from both ground and space-based observatories.

"This discovery encourages us to search for additional distant clusters using this same efficient technique," said team member Dr. Hans Bohringer of Max Planck Institute for Extraterrestrial Physics (MPE) in Garching.

"It also shows great promise for experiments under construction, such as the Atacama Pathfinder Experiment. Such diligent searching will ultimately place strong constraints on fundamental parameters of the Universe."

Other team members include Rene Fassbender and Dr. Peter Schuecker (MPE) and Drs. Axel Schwope and Georg Lamer of the Astrophysical Institute of Potsdam.

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Spitzer Space Telescope Finds Bright Infrared Galaxies
Ithaca NY (SPX) Mar 02, 2005
A Cornell University-led team operating the Infrared Spectrograph (IRS), the largest of the three main instruments on NASA's Spitzer Space Telescope, has discovered a mysterious population of distant and enormously powerful galaxies radiating in the infrared spectrum with many hundreds of times more power than our Milky Way galaxy.



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