Generation of broadband noise in the magnetotail
Abstract
The generation of electrostatic noise in the geomagnetic tail by ion beams is evaluated, assuming a stationary plasma-sheet electron distribution and streaming-ion distributions. Both warm ion streams, as observed within the plasma-sheet boundary layer, and cold ion streams, as expected from upward flowing ionospheric ions, are considered. Warm ion streams by themselves are found to be stable, whereas a cold ion stream by itself is unstable to the beam acoustic mode. However, wave growth is increased if both cold and warm streams are simultaneously present. These results suggest that the interaction between the warm and cold ion streams is responsible for the peak in electrostatic-wave intensities observed within the plasma-sheet boundary layer. For cold and warm ions streaming in the same direction, wave-growth peaks are found for wave normal angles theta = 0 deg and wave frequencies about 0.1 times the electron plasma frequency. However, for antiparallel streaming cold and warm ions, wave growth peaks near theta = 90 deg and wave frequencies are an order of magnitude smaller.
- Publication:
-
Magnetotail Physics
- Pub Date:
- 1987
- Bibcode:
- 1987magp.book..295D
- Keywords:
-
- Electromagnetic Noise;
- Electron Plasma;
- Electrostatic Waves;
- Geomagnetic Tail;
- Ion Beams;
- Wave Generation;
- Boundary Layer Plasmas;
- Broadband;
- Earth Magnetosphere;
- Electron Distribution;
- Ion Distribution;
- Wave Propagation;
- Geophysics