激光光学谐振腔元件热变形的理论与实验研究

Proceedings of LFNM'2001. 3rd International Workshop on Laser and Fiber-Optical Networks Modeling (Cat. No.01EX463) Pub Date : 2001-05-24 DOI:10.1109/LFNM.2001.930208

Y. Bobitski, I. Demkovych, G. A. Petrovska

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引用次数: 0

摘要

只提供摘要形式。强激光光学谐振腔元件的热变形导致谐振腔稳定性下降，输出辐射的空间参数发生变化;也会对光学元件造成破坏。本文介绍了光学材料的物理特性、吸收能力和激光操作模式对温度场和变形的影响的理论研究结果。给出了用干涉法测量强激光谐振镜热变形量的实验结果。提交的结果允许优化激光谐振器的参数为强大的激光器，证明选择的光学材料，模拟最合理的方式冷却的光学元件。

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Theoretical and experimental researches of thermal deformations in optical resonator elements of lasers

Summary form only given. The thermal deformations in optical resonator elements of powerful lasers lead to decreasing of resonator stability, to change of spatial parameters of output radiation; and also can cause destruction of optical elements. The results of theoretical researches of temperature fields and deformations depending on the physical characteristics of optical materials, their absorbing ability, and also modes of laser operation are presented in this work. The results of experimental measurements by the interference method of quantity of the thermal deformations in resonator mirrors of powerful lasers are shown. The submitted results allow optimizing parameters of laser resonators for powerful lasers, to prove a choice of optical materials, to simulate the most rational ways a cooling of optical elements.

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Proceedings of LFNM'2001. 3rd International Workshop on Laser and Fiber-Optical Networks Modeling (Cat. No.01EX463)

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