From Astronomy Magazine: “One of the oldest stars in the Milky Way discovered”

Astronomy magazine

Astronomy Magazine

February 2, 2018
Jake Parks

J0815+4729 is a star with both an extreme iron deficiency and a carbon surplus, which suggests it’s one of the oldest stars ever found in the Milky Way.

Astronomers recently discovered one of the first stars formed in the Milky Way, J0815+4729, shown here in this artist concept. This low-mass star is one of the most iron-poor and carbon-rich stars found to date, suggesting it formed shortly after the Big Bang. Gabriel Pérez/SMM/IAC.

In a new study published in The Astrophysical Journal Letters, a team of Spanish astronomers announced the discovery of one of the first stars to form in the Milky Way. The unevolved star, called J0815+4729, is located 7,500 light-years away in the halo of the Milky Way and likely formed just 300 million years after the Big Bang, some 13.5 billion years ago.

“We know of only a few stars (which can be counted on the fingers of a hand) of this type in the halo [of the Milky Way], where the oldest and most metal-poor stars in our galaxy are found,” said David Aguado, a research student at the IAC and lead author of the study, in a press release.

The ancient star, which is only 70 percent the mass of the Sun, was initially identified from a dataset generated by the Sloan Digital Sky Survey (SDSS) — a massive survey project that has gathered deep multi-color images for about one third of sky, as well as spectra for more than three million astronomical objects. The researchers specifically selected J0815+4729 for follow-up based on its apparent lack of metals — a term which astronomers apply to any elements larger than hydrogen and helium.

The research team analyzed the light from J0815+4729 using the ISIS spectrograph on the William Herschel Telescope and the OSIRIS spectrograph on the Gran Telescopio Canarias.

ISIS spectrograph on the William Herschel Telescope

ING 4 meter William Herschel Telescope at Roque de los Muchachos Observatory on La Palma in the Canary Islands, 2,396 m (7,861 ft)

Gran Telescopio Canarias at the Roque de los Muchachos Observatory on the island of La Palma, in the Canaries, Spain, sited on a volcanic peak 2,267 metres (7,438 ft) above sea level

Based on their spectroscopic follow-up, the team determined J0815+4729 has roughly a million times less calcium and iron than the Sun. This is important because only the earliest generations of stars have such low metallicities. Older stars, on the other hand, are formed out of the accumulated material from previous generations of stars, which produce lots of metals during their final death throes.

Although J0815+4729 is extremely deficient in calcium and iron, the researchers’ were surprised to find that the star has a comparatively large abundance of carbon, nearly 15 percent more than the Sun. Though it may seem counter-intuitive, previous research suggests that low-mass, extremely metal-poor stars likely develop an overabundance of carbon by accreting it from the first generation of low-metallicity supernovae, which lived very short lives.

Because J0815+4729 is so metal-poor while also being so carbon-rich, the researcher are confident the star formed long, long ago, when the Milky Way was just establishing itself some 13.5 billion years ago.

“Theory predicts that these stars could form just after — and using material from — the first supernovae, whose progenitors were the first massive stars in the Galaxy, around 300 million years after the Big Bang,” said Jonay González Hernández, a researcher at IAC and co-author of the study.

Though the researchers’ have already shown that J0815+4729 is likely one of — if not the — most iron-poor unevolved stars known, they still plan to collect higher-resolution spectra of the star to help derive other important elemental abundances. By doing so, the researchers aim to provide “new fundamental constraints on the early stages of the universe, the formation of the first stars, and the properties of the first supernovae.”

See the full article here .

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