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- Title
Fast Spacecraft Charging Mitigation With Plasma Contactors During High‐Power Electron Beam Emission in the GEO Environment.
- Authors
Xue, Bixi; Zhang, Fang; Zhao, Qiang; Hao, Jianhong; Fan, Jieqing; Cao, Xiangchun; Dong, Zhiwei
- Abstract
The emission of artificial electron beams causes an active spacecraft charging effect that poses challenges for electron beam sounding experiments. Plasma contactors have been suggested as a potential solution to this issue based on theoretical and simulation studies, but the impact of these contactors on spacecraft potentials in complex space environments remains unexplored. This paper investigates the fast active charging effect of spacecraft under the action of plasma contactors in the geostationary Earth orbit environment by using a two‐dimensional Particle‐in‐Cell model. We analyze and compare the effects of the "ion emission" process of the plasma contactor and the "electron collection" process of the background plasma on the spacecraft potential at different beam and environment parameters, as well as the coupling effects when both processes occur simultaneously. Our findings indicate that the "ion emission" and "electron collection" processes are the primary factors in determining the spacecraft potential in relatively thin and dense plasma environments, respectively. When the two processes occur together, the contactor plasma cloud increases the "electron collection" return current by expanding the range of the positive potential area around the spacecraft, while the dense background plasma mediates and provides the return current to ensure that the plasma contactor can effectively suppress the active charging effect even after the ion sheath is present. These results suggest that a reasonable adjustment of the contactor parameters based on the relationship between the electron beam and the background environment can effectively extend the normal emission time of the electron beam. Key Points: When the total current of "ion emission" and "electron collection" exceeds the beam current, the spacecraft reaches peak potentialDuring the "ion emission" process, the diffusion of the space plasma cloud raises the "electron collection" return currentBy acting as a medium and supplying return current, dense plasma suppresses the upward trend of spacecraft potential following an ion sheath
- Subjects
ELECTRON emission; ELECTRON beams; SPACE vehicles; ION emission; DENSE plasmas; SPACE plasmas
- Publication
Journal of Geophysical Research. Space Physics, 2024, Vol 129, Issue 1, p1
- ISSN
2169-9380
- Publication type
Article
- DOI
10.1029/2023JA031783