The plasma environment of high altitude spacecraft was observed to involve ion drift velocities which sometimes become comparable to ion mean thermal speeds. Such drifts may cause an electrically isolated spacecraft surface to float at a substantially increased negative potential if it is simultaneously shaded and downstream relative to the drift direction. The results showed that: (1) the ion speed ratio at which drift effects become important (i.e. change the floating potential by at least 10 percent) can be as low as 0.1, and may be decreased if the ambient electrons are non-Maxwellian; (2) the effects of ion speed ratio increase with increasing ion-to-electron temperature ratio; and (3) negative floating potentials for drifting Maxwellian ion velocity distributions with speed ratio unity are typically about twice as large as the corresponding potentials for nondrifting conditions.
Prediction of ion drift effects on spacecraft floating potentials
1979-01-01
Conference paper
No indication
English
Telemetry Parameter Prediction of Spacecraft Power System Based on Concept Drift
British Library Conference Proceedings | 2022
|Telemetry Parameter Prediction of Spacecraft Power System Based on Concept Drift
Springer Verlag | 2022
|