The Ancient Star That Could Explain Where Gold Comes From
This star's unique chemical signature points to a history forged in some of the most violent conditions the cosmos has ever seen. According to Space.com, researchers revealed that LAMOST J0804+5740 contains unusually high amounts of radioactive actinides, which are typically only produced in extreme events like neutron star collisions or exotic supernovae.
That process, called the r-process (short for rapid neutron capture), is responsible for creating roughly half the elements heavier than iron. But there's a mystery: the few known cosmic events capable of fueling it are far too rare to explain the sheer volume of heavy elements found across the universe.
That's where this weird star comes in.
What makes J0804+5740 particularly interesting is its blend of high actinide levels and high metallicity, an unusual combo that defies expectations. Most actinide-rich stars are metal-poor and ancient. This one? It's old, but chemically rich, suggesting it may have originated in a now-merged dwarf galaxy outside the Milky Way.
The leading theory? A violent, magneto-rotationally driven supernova—one of the most intense known cosmic explosions—could be the source. If confirmed, that would mark a major breakthrough in our understanding of the r-process and the birth of the elements that make up planets, people, and, yes, precious metals.
"This means we don't yet have the complete picture," said Columbia University researcher Anirudh Patel. "Future observations […] will reveal more about the nature of r-process sites in the universe," Patel said. "Along with new and advanced theoretical models, this will be essential to resolving the r-process mystery and completing our understanding of the origin of the elements."The Ancient Star That Could Explain Where Gold Comes From first appeared on Men's Journal on Jun 5, 2025
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