Radio and submillimetre observations of ϵ Ori

Free access article

Issue		A&A Volume 382, Number 3, February II 2002


Page(s)		921 - 934
Section		Formation, structure and evolution of stars
DOI		http://dx.doi.org/10.1051/0004-6361:20011612

A&A 382, 921-934 (2002)
DOI: 10.1051/0004-6361:20011612

Radio and submillimetre observations of Ori

R. Blomme¹, R. K. Prinja², M. C. Runacres¹ and S. Colley²

¹ Royal Observatory of Belgium, Ringlaan 3, 1180 Brussel, Belgium
² Department of Physics & Astronomy, University College London, Gower Street, London WC1E 6BT, UK

(Received 16 October 2001 / Accepted 7 November 2001)

Abstract
In common with other early-type stars, $\epsilon$ Ori (B0 Ia) shows evidence for structure in its stellar wind. Variations in optical and ultraviolet line profiles reveal the presence of large-scale structure in the inner wind. The detection of X-rays and the existence of black troughs in saturated ultraviolet lines are indicative of small-scale structure. The geometric extent of both types of structure is poorly known. In principle, large-scale structure can be detected directly from very high spatial resolution observations that resolve the stellar wind. A simpler technique is to look for the presence of additional flux compared to that expected from a smooth wind. The run of this excess flux as a function of wavelength indicates how fast structure decays in the wind. If there is variability in the excess flux, it shows us that the structure must be large-scale. Such variability is suggested by two previous 6 cm radio observations of $\epsilon$ Ori: Abbott et al. (1980) found $1.6\, \pm\, 0.5$ mJy, while Scuderi et al. (1998) measured only $0.60 \pm 0.06$ mJy. This could indicate that the large-scale structure persists beyond ${\sim} 50~R_*$ . To further investigate this variability, we used the Very Large Array (VLA) to monitor $\epsilon$ Ori over a 5-day period in February 1999. We supplemented our data with observations from the VLA archive. In an attempt to resolve the stellar wind, we also obtained a series of high spatial resolution observations with the Multi-Element Radio Linked Interferometer Network (MERLIN) during January-March 1999. From this combined material we find no evidence for variability and we conclude that the Abbott et al. (1980) flux determination is in error. The data do show substantial excess flux at millimetre wavelengths, compared to a smooth wind. This excess is confirmed by a submillimetre observation which we obtained with the James Clerk Maxwell Telescope (JCMT). The behaviour of $\epsilon$ Ori is therefore similar to what had been found previously for Cam , Ori A , Ori and Pup . While the present data do not allow very strong constraints, they show that considerable structure must persist up to at least ${\sim} 10~R_*$ in the wind of $\epsilon$ Ori. The combined radio fluxes are used to derive a mass-loss rate of $\log \dot{M} (M_{\rm\odot}/{\rm yr})= -5.73 \,\pm\, 0.04$ . This value is in good agreement with the H $\alpha$ mass-loss rate. The good agreement between H $\alpha$ and radio mass-loss rates for hot stars in general remains puzzling, as it implies that the same amount of structure is present in very different formation regions.

Key words: stars: early-type -- stars: individual: $\epsilon$ Ori -- stars: mass-loss -- stars: winds, outflows -- radio continuum: stars

Offprint request: R. Blomme, Ronny.Blomme@oma.be

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