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A cloud of plasma ejected by a star 130 light years away has been detected by a radio telescope on Earth, giving astronomers their first definitive observation of a coronal mass ejection (CME) from a star beyond our sun.

CMEs occur when storms on the surface of a star fling out bubbles of magnetised plasma into space. Such eruptions from our sun produce the auroras we see on Earth, but they can also be powerful enough to rip the atmosphere away from Venus, which is closer to the sun and isn’t protected by a magnetic field.

Scientists have seen hints of CMEs on distant stars for decades, but have been unable to prove that material actually escaped the stars’ gravitational and magnetic pull, rather than just leaping up from the surface before being drawn back in.

Now, at the Netherlands Institute for Radio Astronomy and his colleagues have usedÌý³Ù³ó±ðÌýLow Frequency Array (LOFAR) radio telescope in the Netherlands to pick up a burst, or radio waves, emitted by a CME as it travelled through space.Ìý°Õ³ó±ð²õ±ð signals would be possible to detect only if the ejection had completely left the star StKM 1-1262, from which it originated. 

The team also used the space-based X-ray telescope XMM-Newton to determine the originating star’s temperature, rotation and brightness.

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Callingham says prior observations suggested that CMEs happened on distant stars, but that this new data is the smoking gun that confirms it. “You could argue that we’ve had hints for 30 years, and that’s true, but we never explicitly proved it,” he says. “We’re saying that mass has been ejected, has been lost from the star, and that’s always been a debate in the literature.”

The radiation from the ejection would have been powerful enough to jeopardise any nearby life forms. at Durham University, UK, says greater knowledge of the frequency and magnitude of CMEs from distant stars should be incorporated into models about the potential habitability of exoplanets. “If there was an exoplanet, it would have been quite catastrophic for any life on it,” he says.

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