A New Type of Dielectric Barrier Discharge Using Double Helical External Electrodes

2006 International Symposium on Discharges and Electrical Insulation in Vacuum Pub Date : 2006-09-01 DOI:10.1109/DEIV.2006.357377

H. Motomura, Y. Muguruma, T. Matsuda, S. Takubo, M. Jinno

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引用次数: 1

Abstract

Xenon dielectric barrier discharges are expected to be useful as environmentally friendly light sources instead of that containing mercury. The authors have demonstrated new type of dielectric barrier discharge using double helical external electrodes (DHEL) method with xenon. The filling gas pressure ratio of Xe:Ne was 7:3, total pressure was 1.33 kPa and external electrode pitch was 10 mm. This DHEL was operated by sinusoidal waveform voltage, which is preferable to pulsed operation for preventing EMI, with enough phosphor luminance, i.e. 10 000 cd/m2. As a result of the observation of temporal behavior of the discharge by an ICCD camera, two discharges were observed in a half cycle of the sinusoidal input voltage. Moreover, it is found that the emission from the first discharge is intense on the electrode wire, whereas the intense emission position separates and repulsively moves to both sides of the electrode wire. This is explained from the repulsive force between the wall charge and the electrode polarity

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一种新型的双螺旋外电极介质阻挡放电

氙气介质阻挡放电有望成为替代含汞光源的环境友好型光源。本文用双螺旋外电极(DHEL)法对氙进行了新型介质阻挡放电。充注气体压力比Xe:Ne为7:3，总压为1.33 kPa，外电极间距为10 mm。该DHEL采用正弦波形电压操作，在防止电磁干扰方面优于脉冲操作，具有足够的荧光粉亮度，即10,000 cd/m2。利用ICCD相机对放电的时间特性进行了观察，在正弦输入电压的半周期内观察到两次放电。此外，发现第一次放电的发射在电极丝上是强烈的，而强烈的发射位置分离并排斥地向电极丝两侧移动。这可以从壁面电荷与电极极性之间的排斥力来解释

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2006 International Symposium on Discharges and Electrical Insulation in Vacuum

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