Scientists from the European Southern Observatory (ESO) have succeeded in taking a detailed image of a star in a galaxy other than our Milky Way, a first which will allow them to better study this star at the end of its life.
160,000 light years distant, the star WOH G64 is located in the Large Magellanic Cloud, a small satellite galaxy of ours.
Nicknamed “the colossal star” by astronomers, it is approximately 2,000 times larger than our Sun and is classified among the red supergiants, one of the last stages in the evolution of massive stars before their explosion as a supernova.
“We discovered an egg-shaped cocoon tightly surrounding the star,” explains Keiichi Ohnaka, an astrophysicist from Andrés Bello University in Chile, in an ESO press release.
“The ovoid shape in the center represents material ejected from the central star and still surrounding it. Another oval ring can also be seen surrounding this ovoid shape. Although additional observations are needed to definitively confirm this, we believe that this ring is also made up of material ejected by the star,” he describes to AFP.
Scientists had “hints” that the star's environment was not spherical, but no images had been taken until now.
“Thanks to this image, we can create a better computer model of the star and study how it ejects matter before it disappears,” explains the researcher, who led a study on these observations, published Thursday in the journal “Astronomy & Astrophysics”.
This elongated cocoon, a sign that the star “ejects more material in certain directions than in others”, could be a consequence of its interaction with another star, according to Mr. Ohnaka.
“Although we have not yet found a second star, such a companion could exist and remain difficult to detect if it is much fainter than the main star,” he says.
– Darkening –
Mr. Ohnaka's team has been interested in this giant star for a long time. In 2005 and 2007, these astronomers used the ESO Very Large Telescope Interferometer (VLTI) in Chile to learn more about its characteristics. But at the time, the interferometer only combined light from two of the VLT's telescopes.
To obtain the image released Thursday, astronomers had to wait for the development of the Gravity instrument, which captures light from four glasses, creating very detailed cosmic images.
Comparing these new results with previous observations, they found that WOH G64 had become less bright over the past decade.
It has “undergone a significant change over the last ten years, giving us a rare opportunity to observe the life of a star in real time,” says Gerd Weigelt, co-author of the study cited in the press release and professor in astronomy at the Max Planck Institute in Bonn (Germany).
In their final stages of life, before exploding as a supernova, red supergiants lose their outer layers of gas and dust, in a process that can last hundreds of thousands of years.
Scientists who observed WOH G64 believe that the expelled material could be responsible for its dimming and that this could mean that the star has entered a new phase of its end-of-life cycle.
“Or it could return to its previous state after a while, although we don't know how long that might take. This is precisely why we think it's important to monitor this star by observing with different telescopes and instruments,” emphasizes Mr. Ohnaka.
As the star dims, it becomes increasingly difficult to take further close-up images, even with VLTI. But planned updates to the telescope's instruments could change that soon.
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