Researchers Capture the Best Image of Any Star Ever Taken – Futurism

In Brief A team of astronomers created the first ever two-dimensional velocity map of a star and the movement of its atmospheric gasses, a feat never before done in a star other than the Sun. Their technique could be used to study other stars in the future. Look at the Stars

Red supergiant (RSG) stars are considered the most voluminous starsin the universe. The two most famous examples of RSGs are Betelgeuse and Antares, and to the naked eye the latter appears to shine with a strong red tint as it sits at the heart of the constellation Scorpius. However, RSGs are known to exhibit a certain kind of behavior thats baffled astronomers for a long while.Click to View Full Infographic

A team of astronomers decided to figure out this strange phenomenon by taking a closer look at Antares, a star already at near the end of its life. How stars like Antares lose mass so quickly in the final phase of their evolution has been a problem for over half a century, Keiichi Ohnaka from the Universidad Catlica del Norte in Chile and lead author of the study said in a press release.

His team used the Very Large Telescope Interferometer (VLTI) of the European Southern Observatory (ESO) at the Paranal Observatory in Chile, with which they mapped the surface and movement of the surface material of Antares. The result: they managed to take the best image of an extra-solar stars surface ever. Their research has been published by the ESO.

This was made possible by the VLTIs ability to combine light from four of its telescopes to create a virtual telescope that works like a single mirror thats 200 meters across. It, in turn, allowed the team to recreate a two-dimensional velocity map of a star, the first such beyond our solar system.

The VLTI is the only facility that can directly measure the gas motions in the extended atmosphere of Antares a crucial step towards clarifying this problem, Ohnaka explained in the release. By calculating the difference between the speed of the atmospheric gas in Antares at different positions and the average speed of the entire star relative to the VLTIs imaging array, he made it possible to map the relative speed of atmospheric gas across the surface area of Antares, on the ground, as it were. While this revealed the motions of gas clumps, it merely hinted at a process behind suchmovement thats still to be identified.The next challenge is to identify whats driving the turbulent motions, he added.

Ohnakas team has made it possible to study a stars surface from a far more effective viewpoint. They hope to duplicate this successin the study ofother stars. In the future, this observing technique can be applied to different types of stars to study their surfaces and atmospheres in unprecedented detail. This has been limited to just the Sun up to now, Ohnaka said. Our work brings stellar astrophysics to a new dimension and opens an entirely new window to observe stars.

The method Ohnaka and his team used could also provide better imaging of exoplanets that could help us glimpse atmospheric movements in these planets. Learning about what goes on in the atmospheres of exoplanets is crucial to knowingwhich of these could sustain life.

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Researchers Capture the Best Image of Any Star Ever Taken – Futurism

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