On the nature of the material surrounding Vega. (original) (raw)
NASA/ADS
;
Abstract
Observations of Vega at 193 microns indicate that the far-infrared emission from the circumstellar material discovered by IRAS (Aumann et al. 1984) may decline more rapidly than a Planck spectrum at wavelengths greater than 100 microns. This suggests that the emitting particles may be smaller than the millimeter-sized objects proposed by Aumann et al. (1984). Small grains would be driven from the stellar system by radiation pressure, or their orbits would decay as a result of Poynting -Robertson drag. In order to maintain a state of dynamic equilibrium, a continuous supply of new particles would be required. It is hypothesized that the small grains are ejected by sublimation of volatile material from larger comet-like bodies in a partially coalesced preplanetary disk. A reservoir containing less than a few hundred earth masses could sustain the source over the lifetime of the star.
Publication:
The Astrophysical Journal
Pub Date:
October 1984
DOI:
Bibcode:
Keywords:
- A Stars;
- Far Infrared Radiation;
- Infrared Astronomy Satellite;
- O Stars;
- Poynting-Robertson Effect;
- Stellar Envelopes;
- Black Body Radiation;
- Fourier Transformation;
- Water Vapor;
- Astrophysics