Pulse-periodical CO2 laser operating at pressures up to 12 atmospheres

Atomic and Molecular Pulsed Lasers Pub Date : 2021-12-02 DOI:10.1117/12.2613557

B. Kozlov, D. S. Makhanko, A. Y. Payurov

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Abstract

The results of an experimental investigation of the "electrical wind" as a means of convective renewal of gas mixtures in the gas–discharge gaps in CO2–laser mixtures at superatmospheric (1–12 Atm) pressures are presented. It is established that for a fixed value of the current of a unipolar corona discharge, the speed of the "electrical wind" does not depend on the pressure, but is determined by the chemical composition of the working mixture. The maximum values of the "electrical wind" velocity were achieved in pure carbon dioxide and molecular nitrogen and their values are 3.2 and 2.9 m∙s –1. In typical CO2:N2:He laser mixtures = 1:1:3 – 1:1:6 the values of the speed of the "electrical wind" are in the range from 2.5 to 1.5 m∙s –1. It is reported about the design and generation characteristics of a small–sized sealed–off metal–ceramic CO2 laser of superatmospheric pressure with an "electrical wind" operating at pulse repetition frequencies up to 25 Hz. At an operating pressure of 12 atmospheres and the excitation zone of the volumetric pump discharge V =18∙0.8∙0.8 cm3 achieved the maximum radiation energy in a pulse of 0.8 J with a duration of up to 10 nanoseconds.

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脉冲周期CO2激光器在高达12个大气压下工作

本文介绍了在超大气(1 - 12atm)压力下，“电风”作为co2 -激光混合气体放电间隙中混合气体对流更新手段的实验研究结果。可以确定，对于固定值的单极电晕放电电流，“电风”的速度不取决于压力，而是由工作混合物的化学成分决定的。纯二氧化碳和分子氮的“电风速”最大，分别为3.2 m∙s -1和2.9 m∙s -1。在典型的CO2:N2:He激光混合物= 1:1:3 - 1:1:6中，“电风”的速度值在2.5到1.5 m∙s - 1之间。本文报道了一种小型密闭超大气压金属陶瓷激光器的设计和产生特性，该激光器具有脉冲重复频率高达25 Hz的“电风”。在工作压力为12个大气压，容积泵放电激励区V =18∙0.8∙0.8 cm3时，脉冲辐射能量为0.8 J，持续时间长达10纳秒。

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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Atomic and Molecular Pulsed Lasers

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