Waves In Space Plasmas (WISP)
Abstract
Waves in space plasmas (WISP) utilizes powerful radio transmitters and sensitive receivers to probe the secrets of the magnetosphere, ionosphere and atmosphere. The scientific objective is to achieve a better understanding of the physical processes occurring in these regions. For example, audio frequency radio waves will be radiated from the long WISP antenna, will travel to the outer reaches of the magnetosphere, and will interact with Van Allen belt particles, releasing some of their energy which amplifies the waves. Study of this interaction will give us a better understanding of a major magnetospheric process, wave particle interactions. Radio waves from WISP at higher frequencies (AM radio and beyond) will be reflected by the ionosphere and will, for example, advance our understanding of bubbles in the equatorial ionosphere which affect satellite communications.
- Publication:
-
In Alabama Univ. Coordinated Study of Solar-Terrestrial Payloads on Space Station 2 p (SEE N85-34158 23-19
- Pub Date:
- 1985
- Bibcode:
- 1985tpss.proc.....T
- Keywords:
-
- Earth Ionosphere;
- Earth Magnetosphere;
- Ionospheric Propagation;
- Plasma Physics;
- Plasmas (Physics);
- Radio Receivers;
- Radio Transmitters;
- Solar Observatories;
- Space Stations;
- Charged Particles;
- Magnetosphere-Ionosphere Coupling;
- Radiation Belts;
- Radio Antennas;
- Spacelab Payloads;
- Wave Interaction;
- Spacecraft Instrumentation