Released to eagerly waiting astronomers around the world, the initial catalog of 1.15 billion stars is "both the largest and the most accurate full-sky map ever produced," said Francois Mignard, a member of the 450-strong Gaia mission team.
In a webcast press conference at ESA's Astronomy Center in Madrid, scientists unveiled a stunning map of the Milky Way, including stars up to half a million times less bright than those we can see with the naked eye.
The images were captured by Gaia's twin telescopes -- scanning the heavens over and over -- and a billion-pixel camera, the biggest ever put into space.
The resolution is sharp enough to gauge the diameter of a human hair at a distance of 1,000 kilometers (620 miles), said Anthony Brown, a researcher at Leiden University in the Netherlands and a member of Gaia's data processing and analysis team.
He compared the images to those captured by NASA's $2.5-billion (2.2 billion-euro) Hubble Space Telescope, which has recorded some of the most detailed visible-light photographs of space, one section at a time.
"Imagine taking pictures with Hubble, except of the full sky -- that is effectively what you are seeing here," Brown said.
Gaia maps the position of stars in the Milky Way, which straddles some 100,000 light years, in two ways.
Not only does it pinpoint their location, the probe -- by scanning each star multiple times -- plots their movement as well.
Wednesday's map showed the locations of over a billion stars, a bonanza for astronomers but still only one percent our galaxy's estimated stellar population.
For two million of them, it also shows their trajectory.
Over the course of Gaia's five-year mission, the catalog of stars for which both sets of data are known is set to expand 500-fold.
At the same time, it will collect vital data on temperature, luminosity and chemical composition, compiling what astronomers call the "ID card" of each individual star.
Thousands of other previously undetected objects have also been discovered, including asteroids that may one day threaten Earth, planets circling nearby stars, and exploding supernovas.
'How Was Our Galaxy Formed?'
Astrophysicists, meanwhile, hope to learn more about dark matter, the invisible substance thought to hold the observable Universe together.
They also plan to test Albert Einstein's theory of general relativity by watching how light is deflected by the sun and its planets.
Artist impression of the Gaia mission in space. |
"Gaia is meant to answer a fundamental question: How was our galaxy formed?"
Tracking star clusters and how they move through space -- shedding stars along the way -- will provide crucial clues, she added.
Read more at Discovery News
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