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AI Data From Gaia Detects Stream of 'Lost' Stars Extending Thousands of Light-Years Across Milky Way

The stars – which are about 150 million years old – that the team measured in NGC 2516 are rotating 10 times faster than the Sun.
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A team of astrophysicists has confirmed that NGC 2516, an open star cluster, was identified by a machine-learning algorithm using data from the Gaia satellite two years ago. NGC 2516 – also known as the Southern Beehive – extends at least 1,600 light-years — 500 parsecs — from tip to tip. The Milky Way is made up of billions of stars as well as tightly packed groups of stars known as “clouds” or “clusters," of which the Pleiades, aka the Seven Sisters, is one of the best-known.

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These clusters are stellar nurseries where thousands of stars are born from clouds of gas and dust. After forming, they are dispersed across the Milky Way. Scientists used to speculate if these clusters always form tight clumps like the Pleiades and spread over only a few dozen lightyears. The team has published its findings in the American Astronomical Society.

“We call them ‘open clusters’ — the ‘open’ part refers to the expectation that these things formed in a much denser group that then dispersed. But we never thought we’d be able to find the stars that were lost," Luke Bouma, a graduate student in astrophysical sciences at Princeton and the lead author, explained.

The data from the Gaia satellite revealed that these far-flung stars are moving at the same speed in the same direction. The team concluded that they could be part of the same open cluster but are probably more of a stream or string rather than a clump.

“Gaia data let us trace the process of star cluster formation and dissolution in unprecedented detail — but to complete the picture, we need independently estimated ages. Bouma’s paper brings together several different methods to consistently age-date stars at both the core and the outer reaches of this cluster,” Lynne Hillenbrand, a 1989 Princeton alumna and a professor of astronomy at Caltech, who was not involved in this research, said. 

Bouma added that the broader implication is that there are bound to be more enormous open clusters like this. "The visible part of the cluster, where we can easily see the stars close together, may be only a small part of a much, much larger stream,” he said.

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Bouma and his team used the data from the Transiting Exoplanet Survey Satellite (TESS) to measure the rotation rates of stars that the Gaia study earlier assigned to NGC 2516. The researchers then demonstrated that many stars with similar masses are all spinning at (or very near) the same rate. This confirmed that they were born in the same stellar nursery.

“What’s so surprising about this work — what’s so exciting — is that we confirmed that Gaia because it really precisely measures the positions and the motions of stars, can find these ‘needles in the haystack’ of the Milky Way. Gaia can identify all the stars that are moving in the same direction, at the same rate. And we don’t have to just trust the machine learning algorithm saying that they’re related — we can verify it with TESS data, using our geochronological technique,” Bouma concluded.
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