Diffusion-cooled radio-frequency-excited CO2 lasers

GR-I International Conference on New Laser Technologies and Applications Pub Date : 1998-07-14 DOI:10.1117/12.316575

A. Lapucci

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Abstract

The use of capacitive Radio-Frequency discharges for the excitation of thin diffusion cooled regions of gas has caused a remarkable breakthrough in the establishment of new CO2 laser sources. Indeed this technique allows specific power loadings more than one order of magnitude higher than those of conventional slow-flow lasers. At the same time it enables efficient laser operation in sealed or quasi-sealed conditions determining an enormous advantage of these sources over fast-flow ones.Advantages are also determined by the potentiality of pulsing this kind of discharge at high repetition rates, in the range 1-10 kHz. Triggered by these considerations a lot of R and D efforts have been made in this field during the laser decade, giving rise to rugged and extremely compact CO2 laser sources in the 100-2000 W power segment, useful in medical as well as in low-power industrial applications. To obtain this result several problems had to be faced such as the attainment of a uniform plasma excitation in large area discharges or the extraction of a good quality beam form non-conventional gain region formats. The solutions adopted so far are reviewed, hints on further developments are given.

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扩散冷却射频激发CO2激光器

利用电容式射频放电激发气体的薄扩散冷却区，在建立新的CO2激光源方面取得了显著的突破。事实上，这种技术允许比传统慢流激光器高一个数量级以上的特定功率负载。同时，它能够在密封或准密封条件下有效地操作激光，这决定了这些光源比快速流动光源具有巨大的优势。在1- 10khz范围内，以高重复率脉冲这种放电的潜力也决定了其优点。由于这些考虑，在激光十年期间，在这一领域进行了大量的研发工作，从而产生了100-2000 W功率段的坚固且极其紧凑的CO2激光源，可用于医疗和低功耗工业应用。为了获得这一结果，必须面对一些问题，如在大面积放电中获得均匀的等离子体激发或从非常规增益区域格式中提取高质量的光束。对迄今所采取的解决办法进行了审查，并对进一步的发展提出了提示。

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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GR-I International Conference on New Laser Technologies and Applications

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