The Effect of an Auxiliary External Electrode on Low-pressure Xenon Pulsed Discharge

2006 International Symposium on Discharges and Electrical Insulation in Vacuum Pub Date : 2006-09-01 DOI:10.1109/DEIV.2006.357375

M. Okamoto, K. Koyama, H. Kurokawa, H. Motomura, M. Jinno

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Abstract

The fluorescent lamps are widely used for general lighting because of their high efficacy, long life and so forth. Mercury which is used in fluorescent lamps for general lighting has a possibility to cause environmental problems. The author's group has been developing fluorescent lamps which contain only rare gases without mercury. The wavelength of the xenon resonance line is the longest in the rare-gas resonance lines, so that the Stokes-loss becomes smaller than the other rare-gases' cases. Therefore the authors have investigated pulsed xenon fluorescent lamps. However luminous flux of xenon fluorescent lamps was not large enough. The authors have been making efforts to improve luminous flux of the xenon lamp by expanding positive column. By setting an auxiliary external electrode on the outside wall of the lamp, positive column expands and luminous flux increases. However luminous efficacy decreases because power consumption through the external electrode is too large. So by using resistor, the current flowing through the external electrode is suppressed and power consumption decreased. Consequently higher luminous efficacy up to 100 lm/W with high luminance 6894 cd/m2 is achieved

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辅助外电极对低压氙气脉冲放电的影响

荧光灯以其效率高、寿命长等优点被广泛应用于普通照明。用于普通照明的荧光灯中使用的汞有可能造成环境问题。作者的小组一直在开发只含稀有气体而不含汞的荧光灯。氙谐振谱线的波长在稀有气体谐振谱线中最长，使得斯托克斯损失比其他稀有气体的情况要小。因此，作者对脉冲氙气荧光灯进行了研究。但氙气荧光灯的光通量不够大。为了提高氙灯的光通量，作者一直在努力扩大正极柱。通过在灯的外壁上设置辅助外电极，使正柱膨胀，光通量增大。然而，由于外部电极的功耗太大，导致发光效率下降。因此，通过使用电阻器，可以抑制流经外部电极的电流，降低功耗。因此，更高的发光效率高达100 lm/W，高亮度达到6894 cd/m2

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2006 International Symposium on Discharges and Electrical Insulation in Vacuum

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