Computer simulation of plasma electron collection by PIX-IIA wake model was defined for the NASCAP/LEO finite element model for the plasma interaction experiment (PIX-II) launched to study the interaction between high-voltage large solar arrays with the space plasma environment. The cell surface model considers the individual cells, distances between interconnects, and the fraction of surface covered by interconnects. Account is taken of the electrostatic potential around the spacecraft, which travels at 7500 mps, over five times the speed of thermal ions. Ram ions are produced ahead of the array and the wake ion density is described with a geometric shadowing model. The model correctly predicted the currents in high and low bias voltages when compared to orbital data. The panel snapover, however, was projected to occur at 100 V and instead occurred at 300 V, which indicates that the snapover state is bistable. Finally, a low potential was both predicted and measured in the wake.
Document ID
19850037564
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Mandell, M. J. (NASA Lewis Research Center Cleveland, OH, United States)
Katz, I. (NASA Lewis Research Center Cleveland, OH, United States)
Jongeward, G. A. (System Science and Software La Jolla, CA, United States)
Roche, J. C. (NASA Lewis Research Center Cleveland, OH, United States)