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Exoplanet discovered around a neighbouring star By Paul RinconScience editor, BBC News website 14 November 2018 Astronomers have discovered a planet around one of the closest stars to our Sun. Nearby planets like this are likely to be prime targets in the search for signatures of life, using the next generation of telescopes. The planet's mass is thought to be more than three times that of our own, placing it in a category of the world know as "super-Earths". It orbits Barnard's star, which sits "just" six light-years away. Writing in the journal Nature, Guillem Anglada Escudé and colleagues say this newly discovered world has a mass 3.2 times bigger than the Earth's. "We think that this is what we call a Super-Earth - that would be possibly a mostly rocky planet with a massive atmosphere. It's probably very rich in volatiles like water, hydrogen, carbon dioxide - things like this. Many of them are frozen on the surface," Dr. Anglada Escudé, from the Queen Mary University of London, told BBC News. The Sun's closest neighbors Dr Anglada Escudé, from Queen Mary University of London, added: "The closest analogue we may have in the Solar System might be the moon of Saturn called Titan, which also has a very thick atmosphere and is made of hydrocarbons. It has rain and lakes made of methane." The planet, Barnard's Star b, is about as far away from its star as Mercury is from the Sun. It's the next nearest star to the Sun after Alpha Centauri and Proxima Centauri - which are much better known. Barnard's Star is an extremely dim object known as a "red dwarf"; it's about 3% as bright as the Sun, emitting far less solar energy. The planet orbits beyond a boundary called the "snow line", which is past the traditional habitable zone, where water can remain liquid on the surface. On distance alone, it's estimated that temperatures would be about -150C on the planet's surface. However, a massive atmosphere could potentially warm the planet, making conditions more hospitable to life The researchers used the radial velocity method to detect the new planet. This technique detects "wobbles" in a star which are likely to be caused by the gravitational pull of an orbiting planet. These wobbles affect the light coming from the star. As the star moves towards the Earth its spectrum appears slightly shifted towards the blue and, as it moves away, it is shifted towards the red. Team members re-examined archive data obtained over a 20-year period and added new observations with the Carmenes spectrometer in Spain, the Eso/Harps instrument in Chile and the Harps-N instrument in the Canary Islands. This wealth of data provided the accuracy needed to identify the planet to a high degree of certainty. This is the first time this technique has been used to detect a planet this small so far away from its host star. When the new generation of telescopes come online, scientists will be able to characterize the planet's properties. This will probably include a search for gases like oxygen and methane in the planet's atmosphere, which might be markers for biology. "The James Webb Space Telescope might not help in this case, because it was not designed for what's called high contrast imaging. But in the US, they are also developing WFirst - a small telescope that's also used for cosmology," said Dr Anglada Escudé. "If you take the specs of how it should perform, it should easily image this planet. When we have the image we can then start to do spectroscopy - looking at different wavelengths, in the optical, in the infrared, looking at whether light is absorbed at different colors meaning there are different things in the atmosphere." This is not the first time there have been claims about the discovery of a planet around Barnard's Star. In the 1960s, the Dutch astronomer Peter van de Kamp, working in the US, published his evidence for a planetary companion, based on perturbations in the motion of the star. However, van de Kamp's claims proved controversial, as other scientists were not able to reproduce his finding. The star is named after the American astronomer E E Barnard, who measured properties of its motion in 1916. https://www.bbc.co.uk/news/science-environment-46196279