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Extreme chemical abundance ratio suggesting an exotic origin for an ultra-diffuse galaxy

Authors :
Martin-Navarro, Ignacio
Romanowsky, Aaron J.
Brodie, Jean P.
Ferre-Mateu, Anna
Alabi, Adebusola
Forbes, Duncan A.
Sharina, Margarita
Villaume, Alexa
Pandya, Viraj
Martinez-Delgado, David
Martin-Navarro, Ignacio
Romanowsky, Aaron J.
Brodie, Jean P.
Ferre-Mateu, Anna
Alabi, Adebusola
Forbes, Duncan A.
Sharina, Margarita
Villaume, Alexa
Pandya, Viraj
Martinez-Delgado, David
Publication Year :
2019

Abstract

Ultra diffuse galaxies are a population of extended galaxies but with relatively low luminosities. The origin of these objects remains unclear, largely due to the observational challenges of the low surface brightness Universe. We present here a detailed stellar population analysis of a relatively isolated UDG, DGSAT I, based on spectroscopic data from the Keck Cosmic Web Imager integral field unit. The star formation history of DGSAT I seems to be extended, with a mean luminosity-weighted age of ~3 Gyr, in agreement with previous photometric studies. However, we find a very high [Mg/Fe] abundance ratio, which is extreme even in the context of the highly alpha-enhanced massive ellipticals and ultra-faint dwarfs. The [Mg/Fe]-enhancement of DGSAT I appears to be 10 times higher than the most magnesium-enhanced stellar systems discovered to date, and suggests that the chemical enrichment of this object was dominated by core-collapse supernovae. Intriguingly, this breaks the canonical relation between [Mg/Fe] and star formation time-scale. With a measured velocity dispersion of 56 +/- 10 km/s, DGSAT I also shows a high mass-to-light ratio, which indicates that it is highly dark matter-dominated. The metal-poor conditions of DGSAT I may have enhanced the formation of massive stars, while at the same time, additional mechanisms are needed to prevent iron-rich yields from being recycled into stars. These results suggest that some ultra-diffuse galaxies could have experienced chemical enrichment episodes similar to the first building blocks of galaxies.<br />Comment: 10 pages, 7 figures, MNRAS, accepted

Details

Database :
OAIster
Publication Type :
Electronic Resource
Accession number :
edsoai.on1098144031
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1093.mnras.stz252