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The Sun has had its own fair share of CME scares, giving Earth residents front-row seats into just how powerful a star truly is. One such event, back in the 23rd<\/sup> of July 2012, entailed the Sun releasing a massive CME that luckily missed Earth.<\/p>\n\n\n\n Unfortunately, those lying near the star EK Draconis<\/em>, situated some 111 light-years from Earth, may not have been so lucky. A team of scientists based in the University of Colorado at Boulder (UCBoulder) revealed their findings of a particularly bad day for anything that was near EK Draconis at the time, as the star in question just released a CME that\u2019s 10 times bigger than anything we\u2019ve ever recorded from a Sun-like star. Their results were published in the journal Nature Astronomy<\/em><\/a>.<\/p>\n\n\n\n The study was helmed by Kosuke Namekata, who with the help of a team of experts found the bizarre case and got into its details. The CME event itself was actually recorded back in April 2020, where they recorded a CME with an estimated mass of released matter ranging in the quadrillions of kilograms. This makes it the largest CME scientists have ever recorded.<\/p>\n\n\n\n In April 5 of the previous year, Namekata and team spotted EK Draconis let out a superflare<\/em>, or a bright burst of solar radiation that can extend into space. Just 30 minutes later, they spotted the first step of what was the strongest CME ever spotted by science, which moved at an estimated 1.6 million km\/h (1 million mi\/h). Nearby bodies would have been exposed to the strongest solar storm ever recorded.<\/p>\n\n\n\n The chain of \u201csolar flare before CME\u201d also appears to be the case with our own Sun, as scientists have recorded in several instances the appearance of a solar flare, only to be followed by a CME. In fact, one such event back in 2010 showcased just that, with a solar flare captured in video by an orbiting solar satellite, only to be followed by a CME that blasted Earth with a geomagnetic storm some 31 hours later.<\/p>\n\n\n\n Unfortunately, all this data is not just for the love of the stars, as \u201c[this] kind of big mass ejection could, theoretically, also occur on our sun,\u201d according to co-author and UCBoulder astrophysicist Yuta Notsu. \u201cThis observation may help us to better understand how similar events may have affected Earth and even Mars over billions of years.\u201d<\/p>\n\n\n\n Luckily for us, these massive CMEs are rare\u2014and even more so for our own Sun, which may have exhibited similar energetic behavior in the past but may not be as energetic today.<\/p>\n\n\n\n Notsu followed: \u201cThe atmosphere of present-day Mars is very thin compared to Earth\u2019s. In the past, we think that Mars had a much thicker atmosphere. Coronal mass ejections may help us to understand what happened to the planet over billions of years,\u201d referring to how CMEs may have played a role into how our planetary neighbor lost most of its atmosphere over the billions of years since its formation.<\/p>\n\n\n\n (For more stellar news, read further on the mysterious \u201cpropeller star\u201d and why it spins so fast<\/a>; after that, check out why a particularly bright \u201cstar\u201d back in 1181 might have actually been a supernova instead<\/a>.)<\/p>\n\n\n\nReferences<\/h2>\n\n\n\n
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