Yasuho Ataka scite author profile

The electron energy probability function (EEPF) is experimentally identified in a miniature microwave discharge neutralizer over wide operating conditions. A tiny Langmuir probe coupled with the analog differentiation technique offers precise time-averaged EEPFs over about three orders of magnitude, including high-energy, low-density electrons. The non-Maxwellian, concave EEPFs are observed in all experimental conditions. They approach Maxwellian with higher gas pressure, where they deviate from Maxwellian with the absorbed microwave power. Analyzing the measured EEPFs by the generalized EEPF theory, the index that determines the shape of EEPFs (Maxwellian corresponds to 1) is found to be [Formula: see text]. The ionization frequency is estimated using the measured non-Maxwellian EEPFs, and it is found that one would underestimate the ionization frequency with the Maxwellian approximation about up to [Formula: see text]%, the value almost negatively correlating with the shape index. These results also suggest that the electron fluid model in microwave discharge neutralizers leads to the overestimation of the electron temperature and the Bohm velocity.

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Experimental study on the performance characteristics of a miniature microwave discharge cathode

Motoki

Takasaki

Koizumi

et al. 2022

Acta Astronautica

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Yasuho Ataka

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Experimental study on the performance characteristics of a miniature microwave discharge cathode

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