한국정보디스플레이학회:학술대회논문집
- 2000.01a
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- Pages.111-112
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- 2000
Surface Discharge in Various Electrode Geometries
- Joh, Dai-Geun (Charged Particle Beam and Plasma Laboratory, Department of Electrophysics, PDP Research Center, Kwangwoon University) ;
- Kim, Hyun-Sook (Charged Particle Beam and Plasma Laboratory, Department of Electrophysics, PDP Research Center, Kwangwoon University) ;
- Gill, Do-Hyun (Charged Particle Beam and Plasma Laboratory, Department of Electrophysics, PDP Research Center, Kwangwoon University) ;
- Kim, Young-Goun (Charged Particle Beam and Plasma Laboratory, Department of Electrophysics, PDP Research Center, Kwangwoon University) ;
- Choi, Eun-Ha (Charged Particle Beam and Plasma Laboratory, Department of Electrophysics, PDP Research Center, Kwangwoon University) ;
- Cho, Guang-Sup (Charged Particle Beam and Plasma Laboratory, Department of Electrophysics, PDP Research Center, Kwangwoon University)
- Published : 2000.01.13
Abstract
The breakdown characteristics of surface discharge investigated experimentally agree well with the analytic results of previous reports [1-3] in various electrode geometries. Additionally, we find that the electrode geometry effects on the firing voltage can be understood with the ionization probability relating to the number of priming particles. We have also observed the shape of surface discharge and the surface striations in the gap geometry with the pressure, the applied voltage, and the driving frequency.
Keywords