Analysis of gas discharge characteristics across micro-gap under different pressures

To study the process of micro-gap gas discharge under different pressures, the experimental of the micro-discharges for the gaps ranging from 1 to 100 μm under 1–100 kPa is presented and the results are discussed. The curves of breakdown voltage with the pd value at different gaps are drawn and ther...

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Veröffentlicht in:	Japanese Journal of Applied Physics 2021-09, Vol.60 (9), p.96002
Hauptverfasser:	Li, Yansen, Sun, Yanzhou, Sun, Yining, Wang, Linhua, Jia, Bin, Chen, Yun
Format:	Artikel
Sprache:	eng
Schlagworte:	Breakdown Breakdown mechanism Different air pressures Electrodes Field electron emission Field emission Field strength Gas discharges micro-gap Paschen curve
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container_title	Japanese Journal of Applied Physics
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creator	Li, Yansen Sun, Yanzhou Sun, Yining Wang, Linhua Jia, Bin Chen, Yun
description	To study the process of micro-gap gas discharge under different pressures, the experimental of the micro-discharges for the gaps ranging from 1 to 100 μm under 1–100 kPa is presented and the results are discussed. The curves of breakdown voltage with the pd value at different gaps are drawn and there are multiple breakdown voltages under the same pd value. As the decrease of the gaps, the deviation between the breakdown curve and the traditional Paschen curve increases when the electrode distance is less than 100 μm and the pd value is less than about 80 Pa·cm. The breakdown field strength and the ratio of effective secondary coefficient of field emission to Townsend’s secondary coefficient are estimated at different pressures and different electrode gaps. The ion-enhanced field effect has been found to play an important role in field emission in several microns of electrode gaps.
doi_str_mv	10.35848/1347-4065/ac18ab
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The curves of breakdown voltage with the pd value at different gaps are drawn and there are multiple breakdown voltages under the same pd value. As the decrease of the gaps, the deviation between the breakdown curve and the traditional Paschen curve increases when the electrode distance is less than 100 μm and the pd value is less than about 80 Pa·cm. The breakdown field strength and the ratio of effective secondary coefficient of field emission to Townsend’s secondary coefficient are estimated at different pressures and different electrode gaps. 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J. Appl. Phys</addtitle><description>To study the process of micro-gap gas discharge under different pressures, the experimental of the micro-discharges for the gaps ranging from 1 to 100 μm under 1–100 kPa is presented and the results are discussed. The curves of breakdown voltage with the pd value at different gaps are drawn and there are multiple breakdown voltages under the same pd value. As the decrease of the gaps, the deviation between the breakdown curve and the traditional Paschen curve increases when the electrode distance is less than 100 μm and the pd value is less than about 80 Pa·cm. The breakdown field strength and the ratio of effective secondary coefficient of field emission to Townsend’s secondary coefficient are estimated at different pressures and different electrode gaps. 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subjects	Breakdown Breakdown mechanism Different air pressures Electrodes Field electron emission Field emission Field strength Gas discharges micro-gap Paschen curve
title	Analysis of gas discharge characteristics across micro-gap under different pressures
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