The inhomogeneous submillimeter atmosphere of Betelgeuse
Author
Abstract
The mechanisms responsible for heating the extended atmospheres of early-M spectral-type supergiants are poorly understood. So too is the subsequent role these mechanisms play in driving the large mass-loss rates of these stars. Here we present ALMA long (i.e., 16 km) baseline 338 GHz (0.89 mm) continuum observations of the free-free emission in the extended atmosphere of the M2 spectral-type supergiant Betelgeuse. The spatial resolution of 14 mas exquisitely resolves the atmosphere, revealing it to have a mean temperature of 2760K at similar to 1.3 R-star, which is below both the photospheric effective temperature (T-eff = 3690 K) and the temperatures at similar to 2 R-star. This is unambiguous proof for the existence of an inversion of the mean temperature in the atmosphere of a red supergiant. The emission is clearly not spherically symmetric with two notable deviations from a uniform disk detected in both the images and visibilities. The most prominent asymmetry is located in the north-east quadrant of the disk and is spatially resolved showing it to be highly elongated with an axis-ratio of 2.4 and occupying similar to 5% of the disk projected area. Its temperature is approximately 1000K above the measured mean temperature at 1.3R(star). The other main asymmetry is located on the disk limb almost due east of the disk center and occupies similar to 3% of the disk projected area. Both emission asymmetries are clear evidence for localized heating taking place in the atmosphere of Betelgeuse. We suggest that the detected localized heating is related to magnetic activity generated by large-scale photospheric convection.
Patrocinador
Irish Research Council
"Programme National de Physique Stellaire" (PNPS) of CNRS/INSU, France
HST by NASA through a grant from the Space Telescope Science Institute
HST -AR-14566.001-A
NASA
NAS5-26555
Indexation
Artículo de publicación ISI
Quote Item
Astronomy & Astrophysics, 602, L10 (2017)
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