A two-dimensional theory of plasma contactor clouds used in the ionosphere with an electrodynamic tether
Abstract
Plasma contactors have been proposed as a means of making good electrical contact between biased surfaces such as found at the ends of an electrodynamic tether and the space environment. A plasma contactor is a plasma source which emits a plasma cloud which facilitates the electrical connection. The physics of this plasma cloud is investigated for contactors used as electron collectors and it is shown that contactor clouds in space will consist of a spherical core possibly containing a shock wave. Outside of the core the cloud will expand anisotropically across the magnetic field leading to a turbulent cigar shape structure along the field. This outer region is itself divided into two regions by the ion response to the electric field. A two-dimensional theory of the motion of the cloud across the magnetic field is developed. The current voltage characteristic of an Argon plasma contactor cloud is estimated for several ion currents in the range of 1-100 Amperes. It is shown that small ion current contactors are more efficient than large ion current contactors. This suggests that if a plasma contactor is used on an electrodynamic tether then a miltiple tether array will be more efficient than a single tether.
- Publication:
-
Space Tethers for Science in the Space Station Era
- Pub Date:
- 1988
- Bibcode:
- 1988stss.proc..269H
- Keywords:
-
- Earth Ionosphere;
- Electric Contacts;
- Electrodynamics;
- Geomagnetism;
- Plasma Clouds;
- Tethering;
- Diamagnetism;
- Magnetic Field Configurations;
- Magnetohydrodynamic Flow;
- Volt-Ampere Characteristics;
- Plasma Physics