Astronomy and Astrophysics – Astronomy
Scientific paper
Sep 1995
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1995apj...451..352w&link_type=abstract
Astrophysical Journal v.451, p.352
Astronomy and Astrophysics
Astronomy
74
Radio Continuum: Stars, Stars: Binaries: Spectroscopic, Stars: Individual Henry Draper Number: Hd 193793, Stars: Wolf-Rayet
Scientific paper
HD 193793 = WR 140 is a W-R+O binary system with a 7.9 yr, highly elliptical (e = 0.85) orbit. It shows variable, nonthermal radio emission over its orbital period that is explained as synchrotron radiation from relativistic electrons accelerated in the shock between the W-R and O winds. Although we now know of quite a few W-R+O star binary systems, only HD 193793 is well studied across the entire electromagnetic spectrum; hence, it affords us the best opportunity to test various models for the system against a wealth of observational data. HD 193793 is an ideal laboratory for studying the properties of hot star winds and the physics of particle acceleration by strong shocks in those winds.
In this paper we present the results of 8 years of monitoring the radio flux density from HD 193793 with the VLA. This database is unique both in terms of its dense coverage of an entire binary cycle and because it extends the radio coverage to 2 cm wavelength, a shorter wavelength than previously available. With these data we are able to simultaneously solve for the time-dependent attenuation in the system and the intrinsic radio luminosity. The standard model of spherically symmetric colliding winds faces severe difficulties in explaining the observations. We conclude that the radio data are most readily interpreted if we adopt a new model of the system in which the W-R star wind is strongly equatorially enhanced, so that most of the mass loss is confined to a plane. This model for the W-R wind also provides a natural explanation for the sudden formation of dust that causes an infrared outburst just after periastron.
Becker Robert H.
White Richard L.
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