Properties of hot stars in the Wolf-Rayet galaxy NGC 5253 from ISO-SWS spectroscopy

ISO-SWS spectroscopy of the Wolf—Rayet galaxy NGC 5253 is presented, and analysed to provide estimates of its hot young star population. Our approach differs from previous investigations in that we are able to distinguish between the regions in which different infrared fine-structure lines form, usi...

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Bibliographic Details
Published in:Monthly notices of the Royal Astronomical Society 1999-04, Vol.304 (3), p.654-668
Main Authors: Crowther, Paul A., Beck, S. C., Willis, Allan J., Conti, Peter S., Morris, Patrick W., Sutherland, Ralph S.
Format: Article
Language:English
Subjects:
galaxies: individual: NGC 5253
galaxies: starburst
galaxies: stellar content
infrared: galaxies
stars: Wolf-Rayet
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Summary:ISO-SWS spectroscopy of the Wolf—Rayet galaxy NGC 5253 is presented, and analysed to provide estimates of its hot young star population. Our approach differs from previous investigations in that we are able to distinguish between the regions in which different infrared fine-structure lines form, using complementary ground-based observations. The high-excitation nebular [S iv] emission is formed in a very compact region, which we attribute to the central super-star nucleus, and lower excitation [Ne iii] nebular emission originates in the galactic core. We use photoionization modelling coupled with the latest theoretical O-star flux distributions to derive effective stellar temperatures and ionization parameters of Teff≥ 38 kK, log Q ∼ 8.25 for the compact nucleus, with Teff∼ 35 kK, log Q ≤ 8 for the larger core. Results are supported by more sophisticated calculations using evolutionary synthesis models. We assess the contribution that Wolf—Rayet stars may make to highly ionized nebular lines (e.g. [O IV]). From our Brα flux, the 2-arcsec nucleus contains the equivalent of approximately 1000 O7 V star equivalents and the starburst there is 2–3 Myr old; the 20-arcsec core contains about 2500 O7 V star equivalents, with a representative age of ∼5 Myr. The Lyman ionizing flux of the nucleus is equivalent to that of the 30 Doradus region. These quantities are in good agreement with the observed mid-infrared dust luminosity of 7.8 × 108 L⊙. Since this structure of hot clusters embedded in cooler emission may be common in dwarf starbursts, observing a galaxy solely with a large aperture may result in confusion. Neglecting the spatial distribution of nebular emission in NGC 5253 implies ‘global’ stellar temperatures (or ages) of 36 kK (4.8 Myr) and 39 kK (2.9 or 4.4 Myr) from the observed [Ne iii/ii] and [S iv/iii] line ratios, assuming log Q=8.
ISSN:0035-8711
1365-2966
DOI:10.1046/j.1365-8711.1999.02380.x