Astronomers Discover Methane in Atmosphere of Nearest T Dwarf Star to Earth
Astronomers have made an intriguing discovery in the atmosphere of WISEA J181006.18 −101000.5, a T dwarf star that holds the title of being the closest of its kind to Earth. Situated 29 light years away, this star has long intrigued scientists due to its peculiar characteristics. The most recent breakthrough came from a study published on March 28, with a revised version appearing on November 17. The research confirmed the presence of methane in the star’s atmosphere, adding another layer to its complex profile. Previously, WISEA J181006 was considered a metal-poor T dwarf, with an effective temperature range between 800–1,300 K.
This methane discovery has caught astronomers off guard, as it reshapes the classification of the star. The presence of methane was made possible through observations from the 10.4-meter Gran Telescopio Canarias (GTC), which provided the critical data. The detection of methane in the atmosphere strengthens the star’s classification as a T-type dwarf, overturning earlier suggestions that it might belong to the L-type category. The study also found that there were no detectable traces of carbon monoxide or potassium in the atmosphere of WISE1810, offering further clues about its composition.
In terms of chemical makeup, the research suggests that the carbon abundance in the star’s atmosphere is estimated to be -1.5 dex. The effective temperature is speculated to be around 1,000 K, but the star’s low metallicity might be a key factor in these readings. The absence of atomic potassium, a telltale sign of metallicity, points toward a lack of heavier elements. The study also considers how a lower temperature could potentially amplify this effect, making the star’s composition even more unusual. These findings mark a significant step forward in our understanding of T dwarfs and their atmospheric conditions.
Another interesting element in the study is WISE1810’s heliocentric velocity, recorded at -83 km/s. This gives insight into the star’s motion within the galaxy, which could be an essential piece in understanding its origin. Despite its low metallicity, the findings suggest that WISEA J181006 might be associated with the Milky Way’s thick disk, a region known for its older stars. Previous observations had hinted that the star’s atmosphere was primarily composed of hydrogen and water vapor, but the discovery of methane introduces a new dimension to its atmospheric chemistry. This breakthrough could ultimately help astronomers refine the criteria for classifying T dwarfs and offer fresh perspectives on the nature of distant celestial objects.
