When you buy through links on our articles, Future and its syndication partners may earn a commission.An illustration of WOH G64’s binary system surrounded by a dense ring of dust. | Credit: Daniel Cea MartinezAstronomers have witnessed one of our universe’s biggest stars transforming into a rare stellar body, and the dramatic metamorphosis may be the prequel to a powerful supernova explosion that sees this star birth a black hole.The doomed star in question is WOH G64 (also known as IRAS 04553–6825), located in a satellite galaxy of the Milky Way known as the Large Magellanic Cloud (LMC), around 163,000 light-years away. The star is around 1,540 times the size of the sun, with almost 30 times the mass of our star and a staggering 282,000 times its brightness. Discovered in the 1970s, WOH G64 has always appeared to be a red supergiant star surrounded by a ring, or torus, of dense dust.AdvertisementAdvertisementHowever, in 2014, the appearance of this supergiant began to change. A team of astronomers, led by Gonzalo Muñoz-Sanchez at the National Observatory of Athens, noticed the star’s color changing along with a corresponding increase in its surface temperature. Muñoz-Sanchez and colleagues determined this must represent the transformation of a red supergiant into a rare yellow hypergiant, which could also mean astronomers are witnessing a star “die” in real time.”The fate of stars with initial masses between 23 and 30 solar masses after evolving into red supergiants is still uncertain. In this case, WOH G64 was the most extreme red supergiant known, with an estimated mass of around 28 solar masses,” Muñoz-Sanchez told Space.com. “It remains unclear whether such stars explode as supernovas, collapse directly into black holes, or evolve from the red supergiant phase into a yellow hypergiant stage before ending their lives. “WOH G64 might be the solution to this question.”The team’s results represent the first evidence that an extreme stellar object can change its temperature and evolve from red to yellow in the span of a year — and in a smooth, silent manner at that.”This is especially surprising because rapid changes in stars are typically associated with violent or abrupt processes,” Muñoz-Sanchez continued.AdvertisementAdvertisementThat wasn’t all the team discovered about this immense star, however. The scientists also found that WOH G64 isn’t alone.Live fast, die young … but not aloneAt just 5 million years old, WOH G64 is a cosmic youngster in comparison to other stars such as our middle-aged, 4.6-billion-year-old sun, so it may seem a touch cosmically unjust that it is facing the end of its life. This is the case because massive stars such as this “live fast and die young,” burning through their fuel supply needed for nuclear fusion more rapidly than modestly sized stars.Though this short life span is true for all massive stars, the end stages of the lives of these stellar titans aren’t quite so certain. For instance, not all red supergiants shed their outer layers as their cores contract to become yellow hypergiants.”Yellow hypergiants are extremely rare because they represent a short-lived transitional phase between the red supergiant stage and the eventual supernova explosion,” Muñoz-Sanchez said. “Consequently, only a small number of confirmed yellow hypergiants are currently known, amounting to …
