Improvement of Efficiency of Ultraviolet Radiation in a Plasma Display Panel with a Complex Buffer Gas
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概要
- 論文の詳細を見る
Discharge in an opposed discharge-type ac plasma display panel cell was analyzed with a one-dimensional fluid model. The present study used helium, neon, argon and some combination of them as a buffer gas which was added to xenon gas. Calculation was performed for a sequence of pulses of sustaining voltage after applying a writing voltage. The composition of Ne/Ar buffer gas with $\text{Ne}:\text{Ar}=1:3$ gave the highest efficiency of Ultraviolet radiation. It was 1.6 times as large as the efficiency of simple neon buffer gas for 10%Xe. The efficiency increased with increasing fraction of xenon but the region of stable discharge decreased in size with increasing fraction of xenon.
- Publication Office, Japanese Journal of Applied Physics, Faculty of Science, University of Tokyoの論文
- 2001-03-15
著者
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Tachibana Kunihide
Graduate School Of Engineering Kyoto University
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Hashiguchi Seishiro
Department Of Electronics And Information Science Faculty Of Engineering And Design Kyoto Institute
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Tachibana Kunihide
Graduate School of Engineering, Kyoto University, Yoshida Honmachi, Sakyo-ku, Kyoto 606-8317, Japan
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Hashiguchi Seishiro
Department of Electronics and Information Science, Kyoto Institute of Technology, Matugasaki, Sakyo-ku, Kyoto 606-8585, Japan
関連論文
- 1. はじめに(マイクロプラズマ : 基礎から応用まで)
- Investigation of Discharge Phenomena in a Cell of Color Plasma Display Panel I. : One-Dimensional Model and Numerical Method
- Gaseous Ultraviolet-Radiation Source with Electron Emitter : Nuclear Science, Plasmas, and Electric Discharges
- Induced Radial Velocity of Shocked Plasma Flow Due to Wall Boundary Layer
- Numerical Investigation of Vertical Mercury Arc Operating at Various Tube Radii
- Experimental Studies of a Shock-Heated Dense Plasma
- Real Gas Effects on Interaction of Shock-Heated Plasma Flows with a Transverse Magnetic Field
- Influence of Wall Boundary Layer on a Shock-Heated Argon Plasma Flow
- Experimental Study of Shocked-Plasma Flows with a Double Search-Coil Conductivity Probe
- Radiation Cooling Effects on Interaction of A Shock-heated Plasma Flow with a Transverse Magnetic Field
- Measurement of the Electrical Conductivity of Partially Ionized Xenon Produced by Shock Waves
- Experimentally Determined Branching Ratios for Transitions in ArII
- Variation of Parameters in a Shock-Heated Argon Plasma Flow
- Implicit Difference Scheme to Calculate Electric Fields
- Effective Resistance between Cold Electrodes in Shocked Xenon Plasma
- Numerical Simulations of DC Glow Discharge using Self-Consistent Beam Model
- Improvement of Efficiency of Ultraviolet Radiation in a Plasma Display Panel with a Complex Buffer Gas