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New catalogue of stars reveals chemical history of Milky Way, says study

ANI | Updated: Feb 22, 2022 10:56 IST


Indiana [US], February 22 (ANI): The Milky Way Galaxy has an end number of mysteries in it that still need to be deciphered by scientists and astronomers. Now, University of Notre Dame researchers, along with collaborators in China and Australia, published a new sample catalogue of more than 24 million stars that can be used to decipher the chemical history of elements in the Milky Way Galaxy.
The research, published in 'The Astrophysical Journal', represented about one-hundredth of a per cent of the roughly 240 billion stars in the Milky Way.
It marked a milestone for Timothy Beers, the Grace-Rupley Professor of Physics at Notre Dame, who spent most of his career planning and executing ever-larger surveys of stars to decipher the galaxy's formation and chemical evolution -- a field called galactic archaeology. Researchers employed a new approach to measure the light from each star to infer the abundance of heavy metals such as iron. They also measured their distances, motions and ages.
"The elemental abundances of individual stars trace the chemical enrichment of the Milky Way galaxy, from when it first began to form stars shortly after the Big Bang to the present," Beers said.

"Combining this information with the stellar distances and motions allows us to constrain the origin of different components in the galaxy, such as the halo and disk populations," he continued. "Adding age estimates puts a `clock' on the process, so that a much more complete picture of the entire process can be drawn."
Previous spectroscopic work by Beers and collaborators provided the information for the tens of thousands of stars that were used to calibrate the new approach, based on precision photometric measurements. The recent research used large photometric samples obtained with the Australian SkyMapper Southern Survey and the European Gaia satellite mission to calibrate estimates of metallicity.
Until recently, the only means to obtain accurate estimates of the content of heavy metals, such as iron, for large numbers of stars was by taking low- and medium-resolution spectra that could be analyzed to extract this information. The process was long and painstaking.
Beers is most interested in the stars with the lowest metallic ties -- very metal-poor stars with iron abundances less than 1 per cent that of the sun -- because they were born early in the history of the universe, and therefore reveal the origin of elements in the periodic table. In the early 1980s, when Beers started his work, researchers knew of only about 20 very metal-poor stars. This new catalogue brought the total of what Beers refers to as "fossils of the night sky" to more than 500,000.
Containing more than 19 million dwarf and five million giant stars, the new catalogue is expected to advance the knowledge of how the Milky Way was formed in a variety of ways, Beers said. These include characterizing the structure of the galactic thin/thick disks -- the structural components of spiral galaxies -- as well as the population of stars and globular clusters that surround most disk galaxies, called the stellar halo. The catalogue of stars will also help researchers identify the trails of stars left behind from disrupted dwarf galaxies and globular clusters. (ANI)

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