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Discovery of coldest brown star might bridge the gap between stars and planets
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Discovery of coldest brown star might bridge the gap between stars and planets

An international team of astronomers has discovered the coldest brown dwarf star ever observed, which might prove to be a new step towards filling the gap between stars and planets.

Washington, April 11 : An international team of astronomers has discovered the coldest brown dwarf star ever observed, which might prove to be a new step towards filling the gap between stars and planets.

The team, led by French and Canadian astronomers, made the discovery using Canada France Hawaii Telescope (CFHT) and Gemini North Telescope, both located in Hawaii, and the ESO/NTT located in Chile.

Located about 40 light-years from our solar system, the brown star, named CFBDS J005910.83-011401.3, has temperature of about 350 degrees C and mass about 15-30 times the mass of Jupiter.

Brown dwarfs are intermediate bodies between stars and giant planets (like Jupiter). The mass of brown dwarfs is usually less than 70 Jupiter masses.

The first brown dwarfs were detected in 1995. Since then, this type of stellar object has been found to share common properties with giant planets, while differences remain.

For example, clouds of dust and aerosols, as well as large amounts of methane, were detected in their atmosphere, just as in the atmosphere of Jupiter and Saturn.

However, there were still two major differences.

In the brown dwarf atmospheres, water is always in gaseous state, while it condenses into water ice in giant planets; and ammonia has never been detected in the brown dwarf near-infrared spectra, while it is a major component from Jupiter's atmosphere.

But, CFBDS0059, the newly discovered brown dwarf, looks much more like a giant planet than the known classes of brown dwarfs, both because of its low temperature and because of the presence of ammonia.

Because it contains ammonia and has a much lower temperature than do L and T dwarfs, CFBDS0059 might be the protoype of a new class of brown dwarfs to be called the Y dwarfs.

This new class would become the coldest stellar objects, hence the missing link toward giant planets. Astronomers could then fill in the domain from the hottest stars to the giant planets of less than -100 degrees C.

This discovery also has important implications in the study of extrasolar planets.

Observing the atmospheres of extrasolar planets is indeed very hard because the light from the planets is embedded in the much stronger light from their parent star.

Because brown dwarfs are isolated bodies, they are much easier to observe. Thus, looking to brown dwarfs with a temperature close to that of the giant planets will help in constraining the models of extrasolar planets' atmospheres.

ANI

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