The large difference in the working performance of a hollow cathode plasma contactor between the ground and actual on-orbit environments will cause difficulties in selecting a ground-test schemes to fully simulate the contactor real on-orbit characteristics. In this study, the effect of the simulated anode size and structure, the simulated anode surface state, the flow rate of background working gas, and the background plasma density on the emission characteristics and plume structure of the contactor are studied. Three self-made simulated anodes of different sizes and structures are applied in the ground experiments. The change of anode surface state (particularly the ability of absorbing electrons) is realized by dividing the self-made simulated anodes into four double-separated regions and alternatively electrically isolating them. An additional gas channel and an auxiliary contactor are used to create background working gas and a low-Earth-orbit plasma atmosphere, respectively. The voltage–current curves as well as the plasma parameter distributions at the contactor exit and in the far-field regions are determined under different regimes and working conditions. The relationship between the contactor’s emission characteristics and plume structure is clarified. The experimental results could provide useful information for instructing the contactor design and developing a real on-orbit experiment plan.
Analysis of Effect of Ground Experiment Environment on Plasma Contactor Performance
AIAA Journal ; 61 , 3 ; 1168-1180
2023-01-27
13 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
of Plasma Contactor Performance
AIAA | 1997
|Model of Plasma Contactor Performance
Online Contents | 1997
|Analysis of plasma contactor on-orbit performance
AIAA | 1996
|System performance of ATLAS Plasma Contactor
AIAA | 1990
|