Researchers determine chemical composition of two extremely metal-poor starsMay 15, 2018 by Tomasz Nowakowski in Astronomy & Space / Astronomy
A group of scientists led by Avrajit Bandyopadhyay of the Indian Institute of Astrophysics, Bangalore, has conducted chemical analysis of two bright, extremely metal-poor stars. The results of the analysis, presented May 6 in a paper published on arXiv.org, provide important insights into the nature of these stars, and could help astronomers better understand their origin.
The stars that are the subject of the study are designated SDSS J082625.70+612515.10 and SDSS J134144.60+474128.90. The two stars were identified by the SDSS-MARVELS spectroscopic pre-survey as extremely metal-poor, with iron to hydrogen abundance ratios of –3.1 and –3.2 respectively.
Bandyopadhyay's team observed both stars with the Hanle Echelle Spectrograph (HESP) on the 2.3-m Himalayan Chandra telescope (HCT) at the Indian Astronomical Observatory (IAO) in India. The observational campaign, conducted between November 2015 and November 2016, allowed the astronomers to obtain essential information about the chemical composition of the two objects.
"In this paper, the first science results using HESP, we present a detailed analysis of their chemical abundances," the paper reads.
According to the study, SDSS J082625.70+612515.10 (SDSS J0826+6125 for short), with an apparent magnitude of 11.44 and an effective temperature of 4,300 K, has a chemical composition generally consistent with stars in halo of our Milky Way galaxy. It turns out that this star is carbon-enhanced and exhibits depletion in nitrogen, what could be due to internal mixing within the star. Moreover, the researchers found no lithium in the star's spectra.
When it comes to light elements, SDSS J0826+6125 has a low sodium and aluminum content, however, it is abundant in magnesium. Furthermore, in regards to the star's abundances of iron-peak elements, the researchers found that it appears is relatively rich in cobalt, but poor in chromium, manganese, and nickel.
SDSS J134144.60+474128.90 (or SDSS J1341+4741) has an apparent magnitude of 12.38 and an effective temperature of 5,450 K. The astronomers found that this star is enhanced in carbon and has a low abundance of lithium. Moreover, it exhibits low sodium and aluminum content together with relatively high magnesium abundance. The observations also detected an over-abundance of chromium and nickel.
According to the authors of the paper, the analysis of elemental abundances for SDSS J1341+4741 suggests that it is the so-called CEMP-no star – a carbon enhanced metal-poor star with no enhancement in r-process or s-process elements.
"At a given metallicity, CEMP-no stars appear to have larger abundances of Cr. This might provide important clues to the nature of the progenitors that contributed to the origin of carbon," the researchers wrote about SDSS J1341+4741.
The astronomers also noted that radial velocity variations of SDSS J0826+6125 and SDSS J1341+4741 strongly suggest that both stars are members of binary systems.
"The spectra were obtained over a span of 6-24 months, and indicate that both stars could be members of binary systems," the researchers concluded.
More information: Chemical composition of two bright extremely metal-poor stars from the SDSS MARVELS pre-survey, arXiv:1805.02280 [astro-ph.SR] arxiv.org/abs/1805.02280
sdsszeroeight (V = 11.4; [Fe/H] = −3.1) and sdssonethree (V = 12.4; [Fe/H] = −3.2) were observed with the SDSS 2.5-m telescope as part of the SDSS-MARVELS spectroscopic pre-survey, and were identified as extremely metal-poor (EMP; [Fe/H] <−3.0) stars during high-resolution follow-up with the Hanle Echelle Spectrograph (HESP) on the 2.3-m Himalayan Chandra Telescope. In this paper, the first science results using HESP, we present a detailed analysis of their chemical abundances. Both the stars exhibit under-abundances in their neutron-capture elements, while one of them, sdssonethree, is clearly enhanced in carbon. Lithium was also detected in this star at a level of about A(Li) = 1.95. The spectra were obtained over a span of 6-24 months, and indicate that both stars could be members of binary systems. We compare the elemental abundances derived for these two stars along with other carbon-enhanced metal-poor (CEMP) and EMP stars, in order to understand the nature of their parent supernovae. We find that CEMP-no stars and EMP dwarfs exhibit very similar trends in their lithium abundances at various metallicities. We also find indications that CEMP-no stars have larger abundances of Cr and Co at a given metallicity, compared to EMP stars.
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"Researchers determine chemical composition of two extremely metal-poor stars" May 15, 2018 https://phys.org/news/2018-05-chemical-composition-extremely-metal-poor-stars.html