Astronomy and Astrophysics – Astrophysics
Scientific paper
1996-04-15
Astronomy and Astrophysics
Astrophysics
9 pages, LaTeX with l-aa style, 6 Postscript figures; Astronomy and Astrophysics, in press
Scientific paper
We present a consistent model for the UV and supersoft X-ray emission from the symbiotic nova SMC3 (=RX J0048.4-7332). Following the present picture of symbiotic stars, the model consists of radiation from a hot star and an emission nebula excited by that star. The observations were compared to theoretical models in which the hot star's emission is calculated with the help of hydrostatic and Wolf-Rayet-type non-LTE model atmospheres. Our analysis clearly shows evidence for mass loss rates of several 10^{-6} Msolar/yr. The minimum effective temperature compatible with both the observed UV and X-ray flux is about 260000K, which is higher than in any other star analyzed with sophisticated NLTE model atmospheres. Since the hydrostatic surface is hidden by the stellar wind no upper limit for the temperature can be determined. However, we were able to determine the total luminosity of a symbiotic nova with reasonable accuracy L_SMC3=10^{4.05\pm 0.05} Lsun. This value is well below the Eddington limit (approx. 50000~Lsun). In order to reproduce the observed energy distribution a carbon-to-helium ratio >2 10^{-4} --- leading to an absorption edge at 0.39\,keV --- is necessary.
Jordan Stefan
Muerset Urs
Schmutz Werner
Werner Klaus
Wolff Burkhard
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