Astronomy and Astrophysics – Astrophysics
Scientific paper
Dec 1993
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1993a%26a...280..508s&link_type=abstract
Astronomy and Astrophysics (ISSN 0004-6361), vol. 280, no. 2, p. 508-518
Astronomy and Astrophysics
Astrophysics
18
Blue Stars, Magellanic Clouds, Spectrum Analysis, Stellar Luminosity, Supergiant Stars, Variable Stars, Astronomical Photometry, Light Curve, Line Spectra, Spectrographs, Stellar Atmospheres
Scientific paper
During the past decade R 40 in the Small Magellanic Cloud (SMC) has brightened in the visual range by about 0.5 magnitudes. Correlated with the brightening the spectral type has changed from B8Ia to A3Ia-O. This behavior shows R 40 to be a luminous blue variable (LBV) the first one discovered in the SMC. During the past eight years we obtained extensive Stroemgren photometry. R 40 was also observed in the IR range in the JHKL filter system. High resolution spectra were observed in Dec. 1991 and Jan. 1993 in the optical range at European Southern Observatory (ESO) with CASPEC at the 3.6 m telescope and with our fiber-linked echelle spectrograph at the 2.2 m telescope. In addition one high resolution LWP-IUE spectrum and one SWP and LWP low resolution spectrum were secured during the present outburst phase of R 40. For comparison IUE archive data were consulted; R 40 had been exposed in the low resolution SWP and LWP mode in 1987. Apart from the secular brightening at a timescale of years R 40 exhibits photometric pulsation-like microvariations with a quasi-period of 120 days which is also typical for LBVs. From the continuum energy distribution (from the satellite UV to the IR range) and from the CASPEC spectrum we derived stellar parameters of R 40 during the outburst phase in 1991 by making use of Kurucz model atmospheres: Teff = 8700 K, log g = 0.75 and with a distance module of 18.85 for the SMC Mbol = -9.4 and R = 280 solar radii and M = 16 solar mass. The mass-loss rate was derived from the P Cygni type H-alpha profile to 8 x 10-6 solar mass/yr which is small but not exceptional for an LBV (cf. e.g. R110 of the Large Magellanic Cloud (LMC)). Comparison of the present spectral energy distribution with the one of 1987 shows that the brightening in the visual is accompanied by a corresponding decrease of the satellite UV continuum; i.e. as expected for LBVs the outburst occurs under the condition of Mbol = const. Since the metallicity is down by 0.6 dex in the SMC, R 40 demonstrates that low metallicity does not preclude LBV outbursts.
Bouchet Patrice
Klare Gerhard
Stahl Otmar
Szeifert Th.
Wolf Bernd
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