Small-scale dissipative processes in stellar atmospheres.
Abstract
The outer atmospheres of stars must be heated by some non-thermal energy flux to produce chromospheres and coronae. Processes are discussed which convert the non-thermal energy flux of organized, macroscopic motions into random, microscopic (thermal) motions. Recent advances in the description of the chromosphere velocity field suggest that the acoustic waves observed there transmit very little energy, and hence are probably incapable of heating the upper chromosphere and corona. The apparent failure of this long held mechanism and the growing appreciation of the importance of strong magnetic fields in the chromosphere and corona have led to hypotheses of heating by the dissipation of currents (both oscillatory and quasi-steady). This follows discoveries in laboratory and ionospheric plasmas and work on solar flares, that instabilities can concentrate currents into thin high current density filaments where they dissipate rapidly.
- Publication:
-
Highlights of Astronomy
- Pub Date:
- 1980
- Bibcode:
- 1980HiA.....5..581L
- Keywords:
-
- Acoustic Propagation;
- Atmospheric Heating;
- Chromosphere;
- Energy Dissipation;
- Stellar Atmospheres;
- Stellar Coronas;
- Current Density;
- Energy Conversion;
- Filaments;
- Gravity Waves;
- Internal Waves;
- Magnetic Fields;
- Magnetohydrodynamic Waves;
- Stellar Magnetic Fields;
- Velocity Distribution;
- Astrophysics;
- Solar Atmosphere:Heating;
- Stellar Atmospheres:Heating;
- Stellar Atmospheres:Motions