http://arxiv.org/abs/1704.07761
Red Supergiant (RSG) stars are very massive cool evolved stars. Recently, a weak magnetic field has been measured at the surface of $\alpha$~Ori and this is so far the only M-type supergiant for which a direct detection of a surface magnetic field has been reported. By extending the search for surface magnetic field in a sample of late-type supergiants, we want to determine whether the surface magnetic field detected on $\alpha$~Ori is a common feature among the M-type supergiants. With the spectropolarimeter Narval we have undertaken the search for surface magnetic field in a sample of cool supergiant stars, and we have analysed circular polarisation spectra using the Least Squares Deconvolution technique. We have detected weak Zeeman signatures of stellar origin in the targets ${\rm CE~Tau}$, ${\rm \alpha^1~Her}$ and ${\rm \mu~Cep}$. For the latter star, we also show that cross-talk from the strong linear polarisation signals detected on this star must be taken into account. For ${\rm CE~Tau}$ and ${\rm \mu~Cep}$, the longitudinal component of the detected surface fields is at the Gauss level, just like in $\alpha$~Ori. We have measured a longitudinal field almost an order of magnitude stronger for ${\rm \alpha^1~Her}$. We also report variability of the longitudinal magnetic field of CE Tau and ${\rm \alpha^1~Her}$, with changes in good agreement with the typical atmospheric dynamics time-scales. We also report a non-detection of magnetic field at the surface of the yellow supergiant star ${\rm \rho~Cas}$. The two RSG stars of our sample — ${\rm CE~Tau}$ and ${\rm \mu~Cep}$ — display magnetic fields very similar to that of $\alpha$~Ori. The non-detection of a magnetic field on the post-RSG star ${\rm \rho~Cas}$ suggests that the magnetic field disappears, or at least becomes undetectable with present methods, at later evolutionary stages.
B. Tessore, A. Lebre, J. Morin, et. al.
Wed, 26 Apr 17
27/60
Comments: Accepted for publication in Astronomy and Astrophysics (2017 April 19)