Journal
FRONTIERS IN PHYSICS
Volume 9, Issue -, Pages -Publisher
FRONTIERS MEDIA SA
DOI: 10.3389/fphy.2021.639010
Keywords
rf plasma thruster; impedance matching; rf generator; thrust; ion beam
Categories
Funding
- Japan Society for the Promotion of Science, A-step program by Japan Science and Technology Agency [18K18746, 19H00663]
- Casio Science Promotion Foundation
- Grants-in-Aid for Scientific Research [19H00663, 18K18746] Funding Source: KAKEN
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The study implemented a fast and automatically controlled frequency-tunable radiofrequency system in an RF plasma thruster, achieving accurate impedance matching and stable delivery of RF power. Results showed that increasing the RF power to 500 W led to discontinuous changes in thruster performance and ion energy distribution.
A fast and automatically controlled frequency-tunable radiofrequency (rf) system is installed in an rf plasma thruster consisting of a stepped-diameter insulator source tube wound by a single-turn loop antenna and a solenoid providing a magnetic nozzle, and immersed in vacuum. The frequency and the output power are controlled so as to minimize the reflection coefficient and to maintain the net power corresponding to the forward minus reflected powers at a constant level. The reproducibility of the impedance matching and the stability of the net rf power are assessed, showing the fast impedance matching within about 10 msec and the long and stable delivery of the rf power to the thruster. When increasing the rf power up to 500 W, discontinuous changes in the source plasma density, the imparted thrust, and the signal intensity of the ion beam downstream of the thruster are observed, indicating effects of the discharge mode on the thruster performance and the ion energy distribution.
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