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A burst of stars 13 billion years ago

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Posted June 3, 2013
An artist's conception of the Herschel Space Observatory. Far-infrared images from Herschel were used to discover the earliest known galaxy undergoing a massive starburst, only about 880 million years after the big bang. Credit: ESA

An artist’s conception of the Herschel Space Observatory. Far-infrared images from Herschel were used to discover the earliest known galaxy undergoing a massive starburst, only about 880 million years after the big bang. Credit: ESA

The universe immediately following the big bang contained mostly hydrogen and some helium. All the other elements needed to make galaxies, planets, and life were formed in stellar interiors or related processes. It is no wonder, then, that the epoch of star formation in the early universe, and the processes at work, are key cosmological questions. Astronomers think that stars started forming in earnest only a few hundred million years after the big bang, but the great bursts of star formation needed to shape the current universe have so far been detected occurring a few billion years later, in galaxies lit up at infrared wavelengths as their dust absorbs light from massive young stars. It has been proposed that similar bursts of activity might actually have happened at earlier times but just gone undetected. They are unnoticed no longer.

 

Writing in a recent issue of Nature, CfA astronomers Mark Gurwell and Glen Petitpas and a large team of colleagues report finding a galaxy undergoing a massive burst of star formation only about 880 million years after the big bang. The object appears to be making new stars at rate 2000 times faster than does our Milky Way galaxy – or nearly 3000 stars per year. Moreover the temperature of its dust is about three times warmer than Milky Way gas, an additional measure of the dramatic activity underway. In fact, this galaxy seems to be comparable in its activity to most dramatic cases known anywhere, at any cosmic epoch. The scientists spotted it in infrared images from the Herschel Space Observatory, and they determined its distance and epoch by precisely measuring the redshifts of the emission in over a dozen atomic and molecular lines.

Read more at: Phys.org

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