Hiromu Kawana scite author profile

Hiromu Kawana

2Publications

18Citation Statements Received

65Citation Statements Given

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Tokyo Denki University

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Frequency dependence of electron temperature in hollow cathode-type discharge as measured by several different floating probe methods

Sato¹,

Kawana²,

Fujimine³

et al. 2018

Plasma Sci. Technol.

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Frequency dependence of electron temperature in hollow cathode-type discharge as measured by several different floating probe methods To cite this article: Shuichi SATO et al 2018 Plasma Sci. Technol. 20 085405 View the article online for updates and enhancements. Related content Floating harmonic probe measurements in the low-temperature plasma jet deposition system M Zanáška, Z Hubika, M ada et al.-Improved RF-driven probe method for RF discharge plasma diagnostics A Ohsawa, M Ohuchi and T Kubota-Effect of finite electrode area ratio on highfrequency Langmuir probe measurements M Shimoyama, K-I Oyama, T Abe et al.

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Novel Plasma Diagnostic Measurement of Electron Temperature and Electron Density Using Tone Burst Wave

Katahira

Kawana

Ohuchi

et al. 2021

IEEE Trans. Plasma Sci.

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We used the tone burst floating probe method to measure plasma parameters in a hollow cathode discharge. In this method, the electron temperature is directly calculated from a shift in the floating potential of the burst interval when a tone burst signal is applied to a probe through an intermediary blocking capacitor. The tone burst signal is a signal that applies an ac signal for a fixed time and turns off the remaining time of the cycle. It was possible to measure the same electron temperature as in the floating probe method that we previously reported. In the tone burst floating probe method, it is possible to measure the ion current by a shift in the floating potential from the time constant of the burst interval. This is a new measurement method that can measure the plasma density from the ion current and the electron temperature during the tone burst signal input.

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Hiromu Kawana

Frequency dependence of electron temperature in hollow cathode-type discharge as measured by several different floating probe methods

Novel Plasma Diagnostic Measurement of Electron Temperature and Electron Density Using Tone Burst Wave

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