![]() ![]() Until now their formation has been something of a mystery, as massive stars emit large amounts of ultraviolet radiation that stops planets from growing to the size of Jupiter - the largest planet in our solar system.ĭr Emma Daffern-Powell, Co-author of the study, from the University of Sheffield’s Department of Physics and Astronomy added: “Our previous research has shown that in stellar nurseries stars can steal planets from other stars, or capture what we call ‘free-floating’ planets. These are Jupiter-like planets at large distances (hundreds of times the distance between the Earth and the Sun) from massive stars. Researchers from the University of Sheffield have proposed a novel explanation for the recently discovered B-star Exoplanet Abundance STudy (BEAST) planets. Jupiter-sized planets can be stolen or captured by massive stars in the densely populated stellar nurseries where most stars are born, a new study has found. Instead, the scientists show that these planets - named 'BEASTies' - can be captured around, or even stolen by, the massive stars, in what the researchers are calling a ‘planetary heist’.In theory planets can form around these stars, but the stars emit large amounts of ultraviolet radiation that stop planets from growing to the size of Jupiter - the largest planet in our solar system.Researchers at the University of Sheffield have proposed a novel origin for Jupiter-like planets around massive stars that are more than three times the mass of our Sun. ![]() Support for refugee students and scholars.Conferences, events, visitor accommodation and weddings.Worldwide Universities Network at Sheffield.Research centres, institutes and networks.Coronavirus: our research and innovation. ![]()
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