Detailed ADM-based Modeling of Shock Retreat and X-ray Emission of τ Sco

Rok, strany: 2018, 144 - 148

Leveraging the improvement of spectropolarimeters over the past few decades, surveys have found that about 10% of OB-type stars host strong (∼ kG) and mostly dipolar surface magnetic fields. One B-type star, τ Sco, has a more complex surface magnetic field than the general population of OB stars. Interestingly, its X-ray luminosity is an order of magnitude higher than predicted from analytical models of magnetized winds. Previous studies of τ Sco's magnetosphere have predicted that the region of closed field loops should be located close to the stellar surface. However, the lack of X-ray variability and the location of the shock-heated plasma measured from forbidden-to-intercombination X-ray line ratios suggest that the hot plasma, and hence the closed magnetic loops, extend considerably farther from the stellar surface, implying a significantly lower mass loss rate than initially assumed. We present an adaptation of the Analytic Dynamical Magnetosphere model, describing the magnetic confinement of the stellar wind, for an arbitrary field loop configuration. This model is used to predict the shock-heated plasma temperatures for individual field loops, which are then compared to high resolution grating spectra from the Chandra X-ray Observatory. This comparison shows that larger closed magnetic loops are needed.

ISO 690:

Fletcher, C., Petit, V., Cohen, D., Townsend, R., Wade, G. 2018. Detailed ADM-based Modeling of Shock Retreat and X-ray Emission of τ Sco. In Contributions of the Astronomical Observatory Skalnaté Pleso, vol. 48, no.1, pp. 144-148. 1335-1842.

APA:

Fletcher, C., Petit, V., Cohen, D., Townsend, R., Wade, G. (2018). Detailed ADM-based Modeling of Shock Retreat and X-ray Emission of τ Sco. Contributions of the Astronomical Observatory Skalnaté Pleso, 48(1), 144-148. 1335-1842.