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Beam Pointing Instability of High-Power End-Pumped 1064 nm ND:YAG Laser

Pub Date : 2024-05-31 DOI:10.1007/s10946-024-10204-7
Zheyuan Li, Peijin Shang, Shiyu Wang, He Qiao, Bing bin Li, Qian Guo, Defang Cai, Lequn Li, Fuqiang Ma
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Abstract

In this paper, we propose a numerical calculation model, which considers thermal and gain distribution instabilities and inhomogeneities, for analyzing beam pointing instability in Nd :YAG solid-state lasers. Disturbance factors are defined for pumping power and pumping field, representing their degrees of disturbance. We discuss a numerical example to calculate the beam pointing instability for a positive branch confocal unstable resonator. Subsequently, an optimization design method is discussed for minimizing beam pointing fluctuation in a resonant cavity. This method incorporates considerations of thermal and gain distribution instabilities and inhomogeneities, thus offering a straightforward design approach with broad applicability.

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高功率端泵浦 1064 nm ND:YAG 激光器的光束指向不稳定性
本文提出了一种数值计算模型,该模型考虑了热分布和增益分布的不稳定性和不均匀性,用于分析 Nd :YAG 固体激光器的光束指向不稳定性。我们为泵浦功率和泵浦场定义了扰动因子,代表它们的扰动程度。我们讨论了一个数值示例,以计算正支共焦不稳定谐振器的光束指向不稳定性。随后,我们讨论了一种优化设计方法,以尽量减少谐振腔中的光束指向波动。这种方法考虑了热和增益分布不稳定性和不均匀性,从而提供了一种具有广泛适用性的直接设计方法。
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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