Reseachers detect a new ultra-metal-poor star

New ultra metal-poor star detected
Outside panels: 12-band S-PLUS images for SPLUS J2104−0049, retrieved from the Astro Data Lab. The field of view is 3’ × 3’, with the north direction up and east to the left. The color of each image is based on the central wavelength of the Javalambre filters, which are named on the top left part of each image. Main panel: transmission curves measured for the set of 12 Javalambre filters, which include the effect of the entire system (sky, mirrors, lenses, and CCD). Also shown are the Gemini/GMOS spectrum (black solid line), the fluxes in the narrow-band (filled circles) and broad-band (filled squares) filters – calculated from the AB magnitudes (in square brackets). Credit: Placco et al., 2021.

Astronomers report the discovery of a new ultra-metal-poor star as part of the Southern Photometric Local Universe Survey (S-PLUS). The newly found star, designated SPLUS J210428.01−004934.2, turns out to have the lowest carbon abundance among the ultra-metal-poor stars so far detected. The finding is detailed in a paper published May 10 on the arXiv pre-print repository.

Ultra-metal-poor (UMP) stars, with iron abundances [Fe/H] below –4, are extremely rare, as only 34 such objects have been discovered to date. Astronomers are interested in expanding the still short list of , as these objects have the potential to improve our knowledge of the chemical evolution of the universe. The early evolution of the universe is believed to be dependent on the properties of the first generation of metal-free stars.

Now, a group of led by Vinicius M. Placco of the NOIRLab (National Optical-Infrared Astronomy Research Laboratory) reports the newest addition to the shortlist of known UMPs—SPLUS J210428.01−004934.2 (or SPLUS J2104−0049 for short). The star was identified by narrow-band S-PLUS photometry and confirmed by medium- and high-resolution spectroscopy.

"We report on the discovery of SPLUS J210428.01−004934.2, an ultra-metal-poor (UMP) star first identified from the narrow-band photometry of the Southern Photometric Local Universe Survey (S-PLUS) Data Release 1, in the SDSS Stripe 82 region. Follow-up medium- and high-resolution spectroscopy (with Gemini South and Magellan-Clay, respectively) confirmed the effectiveness of the search for low-metallicity stars using the S-PLUS narrow-band photometry," the researchers wrote in the paper.

SPLUS J2104−0049 is located some 16,000 away from the Earth and has a mass of about 0.8 solar masses. The star has a metallicity at a level of -4.03 and its is estimated to be around 5,000 K.

The observations found that SPLUS J2104−0049 has carbon abundance of approximately 4.34. This is the lowest carbon abundance ever measured for a UMP star and sheds more light on the origin of this star as the results suggest that SPLUS J2104−0049 may be a second generation star. The astronomers suppose that it could have formed in a gas cloud polluted by the byproducts of the evolution of a progenitor about 30 times more massive than the sun with an explosion energy of one sexdecillion erg.

The researchers noted that further investigation of SPLUS J2104−0049 is needed to confirm the assumed origin and nature of this star. They added that their findings prove that surveys like SPLUS could deliver more discoveries of ultra-metal-poor stars.

"This discovery opens the possibility of finding additional UMP directly from narrow-band photometric surveys, a potentially powerful method to help complete the inventory of such peculiar objects in our Galaxy," the authors of the paper concluded.


Explore further

New ultra metal-poor star discovered

More information: SPLUS J210428.01−004934.2: An Ultra Metal-Poor Star Identified from Narrowband Photometry, arXiv:2105.04573 [astro-ph.SR] arxiv.org/abs/2105.04573

© 2021 Science X Network

Citation: Reseachers detect a new ultra-metal-poor star (2021, May 18) retrieved 27 July 2021 from https://phys.org/news/2021-05-reseachers-ultra-metal-poor-star.html
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.
477 shares

Feedback to editors

User comments