“Though I don’t think the study can conclusively prove any of the leading theories we have on how exoplanets like this form, it does provide an exciting new piece of evidence to support some of our current understanding. “This is a major breakthrough because it establishes that finding wide-separation exoplanets around a massive host star is possible,“ says Meiji Nguyen at the University of California, Berkeley. These are important insights for our limited understanding of planet formation around high-mass stars. student at Stockholm University, said in the news release that it is an alien world in. This suggests that b Cen (AB)b was formed close to its current orbit, because planets that have been knocked off their original orbits typically follow an elliptical path around their star. The newly discovered b Centauri (AB)b is an exoplanet, a planet outside our own solar system, and it is 10 times as massive as Jupiter, making it one of the most massive planets ever found, the observatory wrote. They also found the planet to have a reasonably circular orbit. Even at the distance it lies from the stars, the disc of material this planet formed from would have been likely to evaporate quickly. This method is much faster than the traditional core accretion model, which is when solid particles collide and slowly snowball into a planet. The researchers suggest that the planet must have formed relatively rapidly through gravitational instability, which is when massive clumps of gas and dust cool and contract into a planet.
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