NASA’s much-delayed will be able to stare deep into the past, illuminating the birth of the universe’s first galaxies. But some astronomers want to go back even further, to investigate the very first stars. A radical concept for a lunar telescope could take us there.
A team of astronomers at the University of Texas at Austin have revisited a concept for a liquid-mirror telescope on the moon that was originally floated over a decade ago, but got shelved by NASA. The researchers are set to publish a new paper on the idea in a future issue of The Astrophysical Journal.
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Astronomers have theorized the very first stars formed 13 billion years ago, before galaxies came together. “This moment of first light lies beyond the capabilities of current or near-future telescopes. It is therefore important to think about the ‘ultimate’ telescope, one that is capable of directly observing those elusive first stars at the edge of time,” said co-author Volker Bromm in a McDonald Observatory statement on Monday.
The moon telescope would be unusual, breaking from the use of . “The telescope’s mirror would be a spinning vat of liquid, topped by a metallic — and thus reflective — liquid,” the observatory said. Mercury is an example of a metal that works for this application.
The mirror would need to be 330 feet (100 meters) in diameter, and could be built into a lunar crater at one of the moon’s poles. It could run on solar power.
A liquid-based telescope would be easier to transport to the moon than one made with more traditional materials. Its size and location would make it incredibly powerful.
In keeping with some fun Earth-telescope naming conventions (check out the in the US and the Very Large Telescope in Chile), the moon observatory would be called the “Ultimately Large Telescope.”
This isn’t the only moon telescope concept scientists are investigating. that would transform a lunar crater into a dish. This would require using robots to deploy a wire mesh over a crater.
The first stars are the ultimate origin story.
“The emergence of the first stars marks a crucial transition in the history of the universe,” Bromm said, “when the primordial conditions set by the Big Bang gave way to an ever-increasing cosmic complexity, eventually bringing life to planets, life, and intelligent beings like us.”