脉冲HF激光器预电离设计及效果评估

易爱平; 朱峰; 唐影; 马连英; 黄珂; 黄超; 于力; 刘晶儒

doi:doi:10.3788/irla201746.0605005

红外与激光工程, 2017, 46 (6): 0605005, 网络出版: 2017-07-10

脉冲HF激光器预电离设计及效果评估

Design and effects evaluation of pulsed HF laser preionization

论文大纲

易爱平 ^*朱峰唐影马连英黄珂黄超于力刘晶儒

作者单位

西北核技术研究所激光与物质相互作用国家重点实验室, 陕西西安 710024

预电离放电激励 HF激光器体放电数值模拟 preionization discharge-initiated HF laser volume discharge numerical simulation

摘要

气体介质稳定体放电是放电激励气体激光器高效输出的基础和前提, 预电离是实现高压气体介质稳定体放电的有效技术途径之一。基于放电激励脉冲HF激光器电气结构总体设计要求设计了结构紧凑的紫外光自动预电离装置, 并对其在气体介质中预电离产生的初始电子数密度进行了数值模拟。模拟结果表明: 在整个放电区域内初始电子数密度均在109/cm3左右, 满足介质体放电要求。通过激光器能量输出实验评估了预电离效果, 对SF6和H2混合气体介质, 在充电电压较低时, 输出能量有数倍的提高; 对SF6和C2H6混合气体介质, 在充电电压20 kV时激光器输出能量由200 mJ提高至297 mJ, 提高了近50%。实验结果表明: 该预电离装置对改善激光器能量输出特性有明显效果。

Abstract

Stable volume discharge of gas mixture is the foundation for discharge pumped gas laser, and preionization is one of effective solutions to stable volume discharge. The design of preionization pins of discharge-initiated pulsed HF laser was introduced, and preionization effects were evaluated by numerical simulation and experimental investigation. The simulation results show that the preionization electron density is about 109/cm3 in discharge area. The experimental results show that the output energy of laser with preionization is several times higher than that of without preionization in lower working voltage for SF6-H2 mixture, and for SF6-C2H6 mixture, the output energy of laser increases from 200 mJ to 297 mJ with preionization and the charging voltage of 20 kV, which is about 50% higher than that of without preionization. The simulation and experimental results show that preionization has effects on controlling and maintaining volume discharge and improving the uniformity of discharge.

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易爱平, 朱峰, 唐影, 马连英, 黄珂, 黄超, 于力, 刘晶儒. 脉冲HF激光器预电离设计及效果评估[J]. 红外与激光工程, 2017, 46(6): 0605005. Yi Aiping, Zhu Feng, Tang Ying, Ma Lianying, Huang Ke, Huang Chao, Yu Li, Liu Jingru. Design and effects evaluation of pulsed HF laser preionization[J]. Infrared and Laser Engineering, 2017, 46(6): 0605005.

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