THE STUDY OF THE POSSIBILITY OF LIGHTNING TRIGGERING BY MEANS OF A LASER

Journal of atmospheric electricity Pub Date : 1900-01-01 DOI:10.1541/JAE.14.49

Daohong Wang, T. Ushio, Z. Kawasaki, K. Matsuura, Y. Shimada, S. Uchida, C. Yamanaka, Y. Izawa, Y. Sonoi, N. Simokura

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引用次数: 1

Abstract

. To study the possibility of triggering techniques of lightning discharges with a laser plasma, several experiments were carried out with a C0 2 pulse laser and a switching voltage generator. The following results were obtained. Both long straight discharges and zigzag discharges were induced with a laser plasma channel and the strong guiding effect of the laser channel has been confirmed. Laboratory investigation of the necessary condition for initiating and guiding a streamer with a laser plasma channel reveals that, (1) the necessary electric field for initiating a streamer with a laser plasma depends closely on the absorbed energy used to produce laser plasma channels and the minimum electric field is about 200kV/m, and (2) the necessary electric field for guiding a streamer by a laser plasma is lower than that of initiating a streamer and the minimum electric field is about 170kV/m. The simple calculation of the electric field distribution at the top of a grounded tower shows that a laser plasma channel may trigger a lightning discharge from the top of the tower .

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用激光触发闪电的可能性的研究

．为了研究激光等离子体触发闪电放电技术的可能性，用co2脉冲激光器和开关电压发生器进行了多次实验。得到了以下结果:用激光等离子体通道诱导了长直线放电和之字形放电，证实了激光通道的强引导作用。通过对激光等离子体通道启动和引导拖缆必要条件的实验室研究表明:(1)用激光等离子体启动拖缆所需的电场与产生激光等离子体通道所吸收的能量密切相关，最小电场约为200kV/m;(2)激光等离子体引导拖缆所需的电场小于启动拖缆所需的电场，最小电场约为170kV/m。对接地塔顶电场分布的简单计算表明，激光等离子体通道可能从塔顶触发闪电放电。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of atmospheric electricity

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