The study presents the discovery of one of the stars with the least content of “metals” (heavy elements).
The star is at 7,500 light years from Earth, in the halo of the Milky Way, and is along the line of sight to the constellation of the Lynx. The star is still on the Main Sequence, the stage at which most stars spend the major part of their lives. The source of energy of these stars is, as always, the fusion of hydrogen in their cores, and their surface temperatures and luminosities are almost constant with time. Another of its properties is its low mass, around 0.7 times the mass of the Sun, although it has a surface temperature 400 degrees hotter.
First stars of the Milky Way. Credit: Gabriel Pérez, SMM (IAC)
This discovery was made using spectra obtained with OSIRIS (Optical System for Imaging and low-intermediate-Resolution Integrated Spectoscopy) on the Gran Telescopio Canarias (GTC), at the Roque de los Muchachos Observatory (Garafía, La Palma). Spectroscopy allows us to decompose the light of celestial objects to study their physical and chemical properties, and thanks to this we know that J0815+4729 has only a millionth part of the calcium and iron that the Sun contains, but it has a comparatively huge content of carbón, almost 15% of the solar abundance.
” We know of only a few stars (which can be counted on the fingers of a hand) of this type in the halo, where the oldest and most metal-poor stars in our Galaxy are found,” explains David Aguado, an FPI-SO (Severo Ochoa-Training of Research Personnel) research student at the IAC and the University of La Laguna (ULL) who si the first author of the article.
“Theory predicts that these stars could form just after, and using material fom, the first supernovae, whose progenitors were the first massive stars in the Galaxy, around 300 million years after the Big Bang” says Jonay González Hernández, a Ramon y Cajal researcher at the IAC and one of the authors of the article. “In spite of its age, and of its distance away from us, we can still observe it” he adds.
In fact this star was first identified from the SDASS (Sloan Digital Sky Survey) data base within the BOSS (Baryon Oscillation Spectroscopic Survey) project, and it was later observed with the ISIS intermediate dispersion spectrograph on the William Herschel Telescope (WHT) of the Isaac Newton Group of Telescopes which is also at the Roque de los Muchachos Observatory.
“This star was tucked away in the data base of the BOSS project, among a million stellar spectra which we have analysed to identify it, which required a considerable observational and computational effort” stated Carlos Allende Prieto, another IAC researcher, and a coauthor of this article. “It needs high resolution spectroscopy on large telescopes to try to detect the verious chemical elements in the star which can help us to understand the first supernovae and their progenitors” he emphasized.
In the near future the HORS high resolution spectrograph, at presently in a trial phse on the GTC, will be a key instrument for the chemical analysis of weak stars such as J0815+4729
Rafael Rebolo, the director of the IAC and a coauthor of the paper, explains that “Detecting lithium gives us crucial information related to Big Bang nucleosynthesis.
We are working on a spectrograph of high resolution and wide spectral range in order to be able to measure (among other things) the detailed chemical composition of stars with unique properties such as J0815+4719.”