The role of unneutralized surface ions in negative potential arcing
Abstract
The observed arcing on negatively biased solar arrays exposed to plasma environments is shown to be due to an effective charge layer on the interconnect formed by ion collection from the plasma. Time scales to form this layer are shown to be in agreement with experimental observations. A quantitative theory is presented which predicts arcing threshold dependence on plasma density and external potentials. After breakdown, the discharge process is modeled as space charge limited transport to nearby coverslips. Peak currents and decay times predicted by this model are compared with experimental observations.
- Publication:
-
IEEE Transactions on Nuclear Science
- Pub Date:
- December 1985
- DOI:
- Bibcode:
- 1985ITNS...32.4087J
- Keywords:
-
- Electric Discharges;
- Electric Potential;
- Ion Sheaths;
- Plasma Interactions;
- Solar Arrays;
- Space Stations;
- Electric Arcs;
- Electric Fields;
- Equivalent Circuits;
- Surface Ionization;
- Threshold Voltage;
- Electronics and Electrical Engineering