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Astronomers have found evidence for the most distant galaxies ever detected.

The galaxies are seen as they existed just 500 million years after the birth of the universe. Their light, traversing the cosmos for more than 13 billion years, was seen only because it was distorted in a natural "gravitational lens" created by the gravity-bending mass of a nearer cluster of galaxies.

"Gravitational lensing is the magnification of distant sources by foreground structures," explained Caltech astronomer Richard Ellis, who led the international team. "By looking through carefully selected clusters, we have located six star-forming galaxies seen at unprecedented distances, corresponding to a time when the universe was only 500 million years old, or less than 4 percent of its present age."

The universe is estimated to be 13.7 billion years old, so that puts the new found galaxies at 13.2 billion light-years away. A light-year is the distance light travels in a year, about 6 trillion miles (10 trillion kilometers).

Tricky technique


The team found the galaxies using the 10-meter Keck II telescope atop Mauna Kea on the Big Island of Hawaii. The finding will be presented tomorrow at a conference of the Geological Society in London.


The light from the half-dozen faraway star-forming galaxies was boosted about 20 times by the magnifying effect of the foreground galaxy cluster, said team member Dan Stark, a Caltech graduate student.


Gravitational lensing is tricky, the researchers admit. To bolster their case, they point to very ancient galaxies that are just slightly closer, yet which already contain old stars.

"To produce these old stars requires significant earlier activity, most likely in the fainter star-forming galaxies we have now seen," Stark said.


End of the Dark Ages


The galaxies offer a glimpse of an era shortly after the first stars formed.

After the theoretical Big Bang, there were no stars. Eventually, a thick "fog" was effectively burned off by hot, young stars, ending what's called the cosmic Dark Ages.

"That we should find so many distant galaxies in our small survey area suggests they are very numerous indeed," Stark said. "We estimate the combined radiation output of this population could be sufficient to break apart (ionize) the hydrogen atoms in space at that time, thereby ending the Dark Ages."

Robert Roy Britt
Senior Science Writer
SPACE.com

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