Pulsed Helium-Neon Gas Laser Applications

IEEE Transactions on Military Electronics Pub Date : 1900-01-01 DOI:10.1109/TME.1964.4323105

L. Antes, J. Goldsmith, W. Mcmahan

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引用次数: 3

Abstract

The pulsed helium-neon gas laser has provided pulse power more than three orders of magnitude above the average power afforded by CW operation. Analyses of the power-limiting factors show that still greater increases may be expected. By increasing the size of the laser tube several times, by optimizing the gas ratio and pressure, by optimizing reflectivity and transmissivity of the reflecting mirrors, and by controlling the shape and application of the exciting voltage pulse, peak power outputs in the kilowatt range are theoretically possible. A power of 100 watts has been achieved in the laboratory at pulse rates up to 250 cps. Such a result brings the gas laser out of the low power category and into the intermediate power range. The results of range calculations show that 100 w pulse power will provide a radar range of approximately 10 km against a target having a diffuse reflectivity of 0.1, and a range of over 100 km with a cooperative target. Against a bright cloud background only the cooperative target can be used. The range will then be reduced to approximately 20 km. An automatic tracking radar system has been synthesized utilizing the pulsed gas laser as a transmitting component. A brief parametric analysis has beem made and some of the advantages of the optical radar over its microwave counterpart have been outlined.

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脉冲氦氖气体激光应用

脉冲氦氖气体激光器提供的脉冲功率比连续波工作的平均功率高出3个数量级以上。对功率限制因素的分析表明，预计还会有更大的增长。通过成倍增大激光管的尺寸，优化气体比和压力，优化反射镜的反射率和透射率，以及控制激励电压脉冲的形状和应用，理论上可以实现千瓦级的峰值功率输出。在实验室中，脉冲速率高达250 cps，功率达到100瓦。这样的结果使气体激光器走出了低功率范畴，进入了中等功率范畴。距离计算结果表明，100 w脉冲功率对漫反射系数为0.1的目标可提供约10公里的雷达距离，对合作目标可提供超过100公里的雷达距离。在明亮的云背景下，只能使用合作目标。然后射程将减少到大约20公里。利用脉冲气体激光器作为发射元件，合成了一种自动跟踪雷达系统。对光学雷达进行了简单的参数分析，并概述了光学雷达相对于微波雷达的一些优点。

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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IEEE Transactions on Military Electronics

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