Massive Plasma Cloud Erupted from a Star 130 Light-Years Away

Astronomers have successfully identified the first clear evidence of a coronal mass ejection (CME) from a star outside of our solar system. This CME, a plasma cloud from a star located 130 light-years away, was observed using radio telescopes here on Earth.

Coronal mass ejections happen when solar storms propel bubbles of magnetized plasma into space. While such eruptions from our Sun can create auroras on Earth, they can also be powerful enough to disrupt the atmosphere of Venus, which lacks a protective magnetic field.

For decades, scientists have detected signs of CMEs in far-off stars, but until now, they were unable to confirm that this material truly escapes the star’s gravitational and magnetic grip, rather than simply being temporarily displaced and then drawn back in.

Joseph Cullingham and his team at the Netherlands Institute for Radio Astronomy discovered these emissions utilizing the Low Frequency Array (LOFAR) radio telescope. The bursts, or radio waves, emitted by CMEs can only be captured when the ejection travels fully away from its origin, which is StKM 1-1262.

This research group also employed the XMM-Newton space-based X-ray telescope to assess the temperature, rotation, and luminosity of the host star.

Cullingham emphasized that this new evidence conclusively affirms prior speculations that CMEs indeed occur in distant stars. “Some will say we’ve seen indications for the last 30 years, and they’re right, but we’ve never been able to prove it definitively,” he remarked. “We are discussing mass being expelled and lost from the star, which has been a topic of ongoing debate.”

The radiation from these ejecta could pose a significant threat to potential life forms nearby. According to researcher Anthony Yates from Durham University in the UK, it is crucial to integrate insights on the frequency and intensity of CMEs from distant stars into models assessing the habitability of exoplanets. “If exoplanets were to exist, the repercussions for life there could be devastating,” he added.

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