Role of excited species in dielectric barrier discharge mechanisms observed in helium at atmospheric pressure

1999 Annual Report Conference on Electrical Insulation and Dielectric Phenomena (Cat. No.99CH36319) Pub Date : 1999-10-17 DOI:10.1109/CEIDP.1999.807844

G. Gouda, F. Massines

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引用次数: 7

Abstract

There exists, at atmospheric pressure, three different dielectric barrier discharges (DBD) resulting from three different breakdown mechanisms: (i) glow DBD (GD), which results from Townsend breakdown (ii) filamentary discharge (FD) due to streamer breakdown and (iii) homogeneous discharge (HD) formed by streamer overlapping. The transition between these breakdown mechanisms in helium has been studied. The analysis is based on electrical characteristics, short exposure time photographs and emission spectroscopy of the discharge. The last technique, used during and after the discharge, permits to separate the role of electrons from that of long life time excited species thanks to the discharge's pulsating nature. The study has pointed out the importance of seed electrons present in the gas at the moment of breakdown. Their density depends on the electric field distribution in the gap and the density of metastables. The field can maintain electrons in the gap from one breakdown to the following one, and the metastables, by Penning ionisation, create electrons between two breakdowns.

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大气压下氦介质阻挡放电机制中激发态的作用

在常压下，存在三种不同击穿机制导致的介质阻挡放电(DBD):(1)汤森德击穿导致的辉光放电(GD);(2)流光击穿导致的细丝放电(FD);(3)流光重叠形成的均匀放电(HD)。研究了氦中这些击穿机制之间的过渡。分析是基于电特性，短曝光时间照片和发射光谱的放电。最后一种技术，在放电期间和之后使用，由于放电的脉动性质，允许将电子的作用与长寿命激发态的作用分开。该研究指出了在击穿时刻存在于气体中的种子电子的重要性。它们的密度取决于间隙中的电场分布和亚稳态的密度。电场可以在一次击穿到下一次击穿之间的间隙中保持电子，而亚稳态通过潘宁电离，在两次击穿之间产生电子。

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1999 Annual Report Conference on Electrical Insulation and Dielectric Phenomena (Cat. No.99CH36319)

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