The farthest and one of the very earliest galaxies ever seen in the universe appears as a faint red blob in this ultra-deep–field exposure taken with NASA's Hubble Space Telescope. This is the deepest infrared image taken of the universe. Based on the object's color, astronomers believe it is 13.2 billion light-years away.
Credit: NASA, ESA, G. Illingworth, R. Bouwens and the HUDF09 Team
PARIS: The Hubble Space Telescope has spotted the oldest known galaxy – a mere 480 million years after the Big Bang – and its tiny size may hold clues to how stars formed during the universe's infancy.
The tiny smudge of light captured by the orbiting Hubble telescope took 13.2 thousand million years to reach Earth, which means the galaxy was born some 480 million years after the ‘Big Bang’ that created the cosmos.
Even older galaxies are likely to be out there, but they will only be detected with next-generation sensors aboard the Hubble's successor, they said. "We're getting back very close to the first galaxies, which we think formed around 200 to 300 million years after the Big Bang," said Garth Illingworth, professor of astronomy and astrophysics at the University of California at Santa Cruz.
Galaxy far older than previous record-holder
Astronomers measuring the age of starlight look for something called redshift: the farther that light travels, the longer and ‘redder’ become its wavelength.
A high redshift number thus indicates that the object is old, for the light it emitted has taken billions of years to reach us across the expanding universe.
The new-found galaxy, UDFj-39546824, was found in a fingernail-sized sector of sky called the Hubble Ultra-Deep Field during 87 hours of scans in 2009 and 2010. Its finders calculate the redshift as a whopping 10.3, far older than the previous record for a galaxy of 8.6, announced by an international team last October.
Galaxies underwent a dramatic change
"This result is on the edge of our capabilities, but we spent months doing tests to confirm it, so we now feel pretty confident," Illingworth said. For all its great age, this early galaxy is a tiddler compared to those which came later. Our own Milky Way is 100 times bigger.
The observations also netted three other galaxies with redshifts higher than 8.3. Put together, these discoveries suggest galaxies underwent a dramatic change from about 480 million to 650 million years after the Big Bang, according to the study, published in the British science journal Nature.
During these 170 million years, the rate of star birth in the early universe increased tenfold. "This is an astonishing increase in such a short period, just 1% of the current age of the universe," Illingworth noted.
Pushing the Hubble to its limit
Just as stars multiplied, so did the number of galaxies, and this backs theories that galactic formation is forged by the gravitational pull of a poorly-understood entity, dark matter.
The observations were made thanks to the new Wide Field Camera 3, installed on the Hubble Space Telescope by NASA astronauts in a servicing mission last May. The Wide Field Camera boosted redshift sensitivity by a factor of at least 30 compared with the telescope's previous equipment.
But a redshift of 10.3 is likely to be its very limit. To dig deeper into time, astronomers will need the James Webb Space Telescope, which NASA hopes to launch in 2014.
