Astronomers May Have Spotted the Remnants of One of the Earliest Stars – Gizmodo

Posted: September 29, 2022 at 1:22 am

A team of astronomers studying the gas surrounding a distant quasar believe it may carry remnants of one of the universes first stars.

The first stars are known as Population III stars (the three star populations were named in the order they were observed, so the Population III stars are counterintuitively the earliest). These oldest stars are hypothetical at the moment and presumed long gone, as they would have been hundreds of times the mass of the Sun and would have burned out quickly.

None have ever been observed, but their deaths presumably culminated in dazzling supernovae, which blasted their constituent elements into space.

Now, an astronomical team believes theyve found the remnants of one such stars supernova, in 13.1-billion-year-old light from gas surrounding the distant quasar ULAS J1342+0928. The team studied the quasar using the Gemini North telescope in Hawaii.

Specifically, they looked at the chemical elements that surrounded the quasar, the bright, active galactic core surrounding a supermassive black hole. The teams findings were published today in The Astrophysical Journal.

The researchers think the remnants were ejected from a pair-instability supernova, a specific type of explosive star death that leaves no superdense remnant behind, like a black hole or a neutron star. In a pair-instability supernova, every bit of the star is ejected into space.

Yuzuru Yoshii, an astronomer at the University of Tokyo and a co-author of the paper, said in a NOIRLab releasethat a star about 300 times the mass of the Sun that went supernova would produce the ratio of magnesium to iron that matches the elemental makeup of the quasars gas.

In other words, ULAS J1342+0928 has a unique heavy element combination that the team believes is evidence that the galactic core contains remnants of a Population III star.

Metal-rich stars become less common the further one looks back in time, because the early universe was composed mostly of lighter hydrogen and helium. When stars formed, they became factories for all heavier elements (considered metals in astronomy).

ULAS J1342+0928 contained over 10 times more iron than magnesium compared to our Suns combination of the same elements, according to NOIRLab. In other words, whatever primordial furnace produced the gas swirling around that quasar had a very different chemical cocktail than our relatively young Sun.

The team is observing the quasars gas as it appeared when the universe was just 700 million years old. But newer observatories may help find the remains of Population III stars and evaluate the assessment of thisdistant quasar. Those observations may help clarify what happened to the most ancient stars materialperhaps it was flung out and eventually clung to quasars like ULAS J1342+0928.

The Webb Space Telescope, in particular, will be crucial for such investigations. One of the space observatorys main objectives is to scrutinize the oldest light in the universe, to see the first stars and galaxies being born.

More: How Astronomers Spotted the Oldest Known Star

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Astronomers May Have Spotted the Remnants of One of the Earliest Stars - Gizmodo

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