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Massive galaxy had intense burst of star formation when universe was only 6 percent of current age

Date:
April 17, 2013
Source:
National Radio Astronomy Observatory
Summary:
Astronomers find the most prolific star factory yet seen, in a far-distant galaxy that reveals important information about the cosmic environment in the early history of the Universe.
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Astronomers using a world-wide collection of telescopes have discovered the most prolific star factory in the Universe, surprisingly in a galaxy so distant that they see as it was when the Universe was only six percent of its current age.

The galaxy, dubbed HFLS3, 12.8 billion light-years from Earth, is producing the equivalent of nearly 3,000 Suns per year, a rate more than 2,000 times that of our own Milky Way. The galaxy is massive, with a huge reservoir of gas from which to form new stars.

"This is the most detailed look into the physical properties of such a distant galaxy ever made," said Dominik Riechers, of Cornell University. "Getting detailed information on galaxies like this is vitally important to understanding how galaxies, as well as groups and clusters of galaxies, formed in the early Universe," he added.

To accurately determine the galaxy's distance and characteristics required observations with 12 international telescope facilities, including both orbiting and ground-based telescopes. The telescopes ranged from visible-light telescopes, to instruments working at infrared, millimeter-wave, and radio wavelengths. The National Science Foundation's Karl G. Jansky Very Large Array (VLA) provided information about cold molecular gas from which new stars are being formed and the radio waves emitted by the remnants of deceased, short-lived, very massive stars.

The scientists found that the galaxy has a mass of stars nearly 40 billion times the mass of the Sun, and gas and dust totalling more than 100 billion times the mass of the Sun, all surrounded by enough mysterious dark matter to eventually build an entire cluster of galaxies.

"This galaxy is proof that very intense bursts of star formation existed only 880 million years after the Big Bang," Riechers said. "We've gotten a valuable look at a very important epoch in the development of the first galaxies," he added. The Universe currently is about 13.7 billion years old.

"Key information about the massive amount of gas in this galaxy came from the VLA observations of radio emission from Carbon Monoxide," said Chris Carilli, Chief Scientist of the National Radio Astronomy Observatory, who was not part of the research team. "The techniques used by this team, along with improved technical capabilities available now and coming in the future, will allow the study of more such galaxies, and provide a much better understanding of how the first galaxies formed during the Universe's youth," Carilli added.

"We anticipate learning more about such galaxies using both the VLA and the Atacama Large Millimeter/submillimeter Array (ALMA)," Riechers said. "The VLA can give us information about the cold gas and radio emission in these galaxies, while ALMA can tell us about the warmer gas and dust," he added.

In addition to the VLA, the astronomers used the Herschel Space Observatory, the Combined Array for Research in Millimeter-wave Astronomy, the Caltech Submillimeter Observatory, the Plateau de Bure Interferometer, the Submillimeter Array, the IRAM 30-meter Telescope, the William Herschel Telescope and Gran Telescopio Canarias, the Keck Observatory, the Wide-Field Infrared Survey Explorer, and the Spitzer Space Telescope. The large research team included astronomers from Europe, Japan, and the U.S. The scientists reported their findings in the journal Nature.


Story Source:

Materials provided by National Radio Astronomy Observatory. Note: Content may be edited for style and length.


Journal Reference:

  1. Dominik A. Riechers, C. M. Bradford, D. L. Clements, C. D. Dowell, I. Pérez-Fournon, R. J. Ivison, C. Bridge, A. Conley, Hai Fu, J. D. Vieira, J. Wardlow, J. Calanog, A. Cooray, P. Hurley, R. Neri, J. Kamenetzky, J. E. Aguirre, B. Altieri, V. Arumugam, D. J. Benford, M. Béthermin, J. Bock, D. Burgarella, A. Cabrera-Lavers, S. C. Chapman, P. Cox, J. S. Dunlop, L. Earle, D. Farrah, P. Ferrero, A. Franceschini, R. Gavazzi, J. Glenn, E. A. Gonzalez Solares, M. A. Gurwell, M. Halpern, E. Hatziminaoglou, A. Hyde, E. Ibar, A. Kovács, M. Krips, R. E. Lupu, P. R. Maloney, P. Martinez-Navajas, H. Matsuhara, E. J. Murphy, B. J. Naylor, H. T. Nguyen, S. J. Oliver, A. Omont, M. J. Page, G. Petitpas, N. Rangwala, I. G. Roseboom, D. Scott, A. J. Smith, J. G. Staguhn, A. Streblyanska, A. P. Thomson, I. Valtchanov, M. Viero, L. Wang, M. Zemcov, J. Zmuidzinas. A dust-obscured massive maximum-starburst galaxy at a redshift of 6.34. Nature, 2013; 496 (7445): 329 DOI: 10.1038/nature12050

Cite This Page:

National Radio Astronomy Observatory. "Massive galaxy had intense burst of star formation when universe was only 6 percent of current age." ScienceDaily. ScienceDaily, 17 April 2013. <www.sciencedaily.com/releases/2013/04/130417131819.htm>.
National Radio Astronomy Observatory. (2013, April 17). Massive galaxy had intense burst of star formation when universe was only 6 percent of current age. ScienceDaily. Retrieved December 26, 2024 from www.sciencedaily.com/releases/2013/04/130417131819.htm
National Radio Astronomy Observatory. "Massive galaxy had intense burst of star formation when universe was only 6 percent of current age." ScienceDaily. www.sciencedaily.com/releases/2013/04/130417131819.htm (accessed December 26, 2024).

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