Discovery of a magnetic field in the O9 sub-giant star HD 57682 by the MiMeS Collaboration

Abstract

We report the detection of a strong, organised magnetic field in the O9IV star HD 57682, using spectropolarimetric observations obtained with ESPaDOnS at the 3.6-m Canada-France-Hawaii Telescope within the context of the Magnetism in Massive Stars (MiMeS) Large Program. From the fitting of our spectra using NLTE model atmospheres we determined that HD 57682 is a 17+19-9 M star with a radius of 7.0+2.4-1.8 R, and a relatively low mass-loss rate of 1.4+3.1-0.95×10-9 M yr-1. The photospheric absorption lines are narrow, and we use the Fourier transform technique to infer v i=153 km s-1. This v i implies a maximum rotational period of 31.5 d, a value qualitatively consistent with the observed variability of the optical absorption and emission lines, as well as the Stokes V profiles and longitudinal field. Using a Bayesian analysis of the velocity-resolved Stokes V profiles to infer the magnetic field characteristics, we tentatively derive a dipole field strength of 1680+134-356 G. The derived field strength and wind characteristics imply a wind that is strongly confined by the magnetic field.