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A close look at the Centaurus A group of galaxies III. Recent star formation histories of late-type dwarfs around M83


Crnojevic, D and Grebel, EK and Cole, AA, A close look at the Centaurus A group of galaxies III. Recent star formation histories of late-type dwarfs around M83, Astronomy and Astrophysics, 530, (June) Article A59. ISSN 0004-6361 (2011) [Refereed Article]

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Copyright © EDP Sciences, 2011

DOI: doi:10.1051/0004-6361/201015474


Aims: We study the resolved stellar populations of dwarf galaxies in the nearby Centaurus A/M83 group of galaxies. Our goal is to characterize their evolutionary history and to investigate eventual similarities or differences with the dwarf population in other group environments.

Methods: This work presents the analysis of five late-type (irregular) dwarfs found in the vicinity of the giant spiral M83. Using archival HST/ACS data, we perform synthetic color-magnitude diagram modeling to derive the star formation histories of these latetype dwarfs.

Results: The target objects show heterogeneous star formation histories, with average star formation rates of 0.08 to 0.70 × 10−2M yr−1. Some of them present prolonged, global bursts of star formation (∼ 300 − 500 Myr). The studied galaxies are all metal-poor ([Fe/H]∼ −1.4). We further investigate the spatial extent of different stellar populations, finding that the young stars show a clumpy distribution, as opposed to the smooth, broad extent of the old ones. The actively star forming regions have sizes of ∼ 100 pc and lifetimes of & 100 Myr, thus suggesting a stochastic star formation mode for the target dwarf irregular galaxies. The galaxies formed ∼ 20% to 70% of their stars more than ∼ 7 Gyr ago.

Conclusions: The studied dwarfs have average star formation rates slightly higher than their analogues in the Local Group, but comparable to those in the M81 group. Our preliminary sample indicates that the neutral gas content of the target dwarfs does seem to be affected by the group environment: galaxies within a denser region have a much lower MHI / < S FR > than the isolated ones, meaning that they will exhaust their gas reservoir more quickly.

Item Details

Item Type:Refereed Article
Keywords:galaxies: dwarf – galaxies: evolution – galaxies: photometry – galaxies: stellar content – galaxies: groups: individual:
Research Division:Physical Sciences
Research Group:Astronomical sciences
Research Field:Cosmology and extragalactic astronomy
Objective Division:Expanding Knowledge
Objective Group:Expanding knowledge
Objective Field:Expanding knowledge in the physical sciences
UTAS Author:Cole, AA (Associate Professor Andrew Cole)
ID Code:69705
Year Published:2011
Web of Science® Times Cited:10
Deposited By:Mathematics and Physics
Deposited On:2011-05-16
Last Modified:2017-11-06

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