By Will Soutter
A principal research scientist in the physics and astronomy department at John Hopkins University and author of a paper in Nature, Wei Zheng stated that this galaxy is the most distant object that has been observed with this level of confidence. Future work in relation with this galaxy will help understand the earliest objects of the universe and how the dark ages ended.
Before the light from the primordial galaxy reached NASA?s telescopes, it travelled 13.2 billion light-years. When the universe was only 3.6% of its present age, the starlight observed by Hubble and Spitzer left the galaxy. In technical terms, the galaxy has a z or redshift of 9.6. Redshift is the amount which an object?s light shifts to longer wavelengths due to universe expansion.
The Hubble Space Telescope, as part of the Cluster Lensing And Supernova Survey registered the far-flung, recently described, in four infrared and visible wavelength bands. Spitzer measured the same in a longer, fifth wavelength infrared band establishing the discovery further. The largest telescopes of today cannot actually see objects at such extreme distances. Hence astronomers use gravitational lensing, which is a phenomenon that magnifies and warps the light from background objects. A huge galaxy cluster present between our galaxy and the newly discovered galaxy magnified the light of the newly discovered galaxy making it 15 times brighter.
Astronomers are planning to continue studying new galaxies and stars using NASA?s James Webb Telescope that will be launched in 2018.
Source: http://www.nasa.gov
Source: http://feeds.azooptics.com/~r/OpticsNewsFeed/~3/Dqy9ogMBsOk/details.asp
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