Astronomy and Astrophysics – Astrophysics
Scientific paper
1997-08-06
Astronomy and Astrophysics
Astrophysics
29 pages, Latex, 3 Tables (Postscript), 9 Figures (Postscript). Accepted for publication in the Astronomical Journal, July 31s
Scientific paper
10.1086/118609
(Abridged) Ultraviolet and optical narrow and broad band images of NGC5253 obtained with the HST WFPC2 are used to derive the properties of the dust distribution and the recent star formation history of this metal-poor dwarf galaxy. Corrections for the effects of dust are important in the center of NGC5253: dust reddening is markedly inhomogeneous across the galaxy's central 20" region. One of the most obscured regions coincides with the region of highest star formation activity in the galaxy: clouds of more than 9~magnitudes of optical depth at V enshroud a young (2.5~Myr old) stellar cluster in the region. Star formation has been active at least over the past 100 Myr in the core of the galaxy, as indicated by the age distribution of both the blue diffuse stellar population and the bright stellar clusters. The star formation is currently concentrated in a 6" region, about 5 Myr old and with a star formation intensity 10-100 times higher than the average within the central 20". The 2.5 Myr old cluster coincides with the peak intensity of the star formation; its mass may be as large as 10^6 solar masses, making this one a Super-Star-Cluster candidate.
Bohlin Ralph
Calzetti Daniela
Garnett Don
Kinney Anne
Leitherer Cl.
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