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Post Info TOPIC: HD 57682


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RE: HD 57682
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Title: Investigating the spectroscopic, magnetic and circumstellar variability of the O9 subgiant star HD 57682
Authors: J. H. Grunhut, G. A. Wade, J. O. Sundqvist, A. ud-Doula, C. Neiner, R. Ignace, W. L. F. Marcolino, Th. Rivinius, A. Fullerton, L. Kaper, B. Mauclaire, C. Buil, T. Garrel, J. Ribeiro, S. Ubaud, the MiMeS Collaboration

The O9IV star HD 57682, discovered to be magnetic within the context of the MiMeS survey in 2009, is one of only eight convincingly detected magnetic O-type stars. Among this select group, it stands out due to its sharp-lined photospheric spectrum. Since its discovery, the MiMeS Collaboration has continued to obtain spectroscopic and magnetic observations in order to refine our knowledge of its magnetic field strength and geometry, rotational period, and spectral properties and variability. In this paper we report new ESPaDOnS spectropolarimetric observations of HD 57682, which are combined with previously published ESPaDOnS data and archival H{\alpha} spectroscopy. This dataset is used to determine the rotational period (63.5708 ±0.0057 d), refine the longitudinal magnetic field variation and magnetic geometry (dipole surface field strength of 880 ±50 G and magnetic obliquity of 79 ±4° as measured from the magnetic longitudinal field variations, assuming an inclination of 60°), and examine the phase variation of various lines. In particular, we demonstrate that the H{\alpha} equivalent width undergoes a double-wave variation during a single rotation of the star, consistent with the derived magnetic geometry. We group the variable lines into two classes: those that, like H{\alpha}, exhibit non-sinusoidal variability, often with multiple maxima during the rotation cycle, and those that vary essentially sinusoidally. Based on our modelling of the H{\alpha} emission, we show that the variability is consistent with emission being generated from an optically thick, flattened distribution of magnetically-confined plasma that is roughly distributed about the magnetic equator. Finally, we discuss our findings in the magnetospheric framework proposed in our earlier study.

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Title: Discovery of a magnetic field in the O9 sub-giant star HD 57682 by the MiMeS Collaboration
Authors: J.H. Grunhut, G.A. Wade, W.L.F. Marcolino, V. Petit, H.F. Henrichs, D.H. Cohen, E. Alecian, D. Bohlender, J.-C. Bouret, O. Kochukhov, C. Neiner, N. St-Louis, R.H.D. Townsend, the MiMeS Collaboration

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} solar masses star with a radius of 7.0^{+2.4}_{-1.8} solar radii, and a relatively low mass-loss rate of 1.4^{+3.1}_{-0.95} x 10^{-9} solar masses yr^{-1}. The photospheric absorption lines are narrow, and we use the Fourier transform technique to infer v\sin i=15 ±3 km s^{-1}. This v\sin 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.

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