Modeling, numerical approach, and power scaling of alkali vapor lasers in side-pumped configuration with flowing medium

Yang Z.; Wang H.; Lu Q.; Li Y.; Hua W.; Xu X.; Chen J.

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Modeling, numerical approach, and power scaling of alkali vapor lasers in side-pumped configuration with flowing medium

机译：具有流动介质的侧面泵浦配置中碱蒸气激光器的建模，数值方法和功率缩放

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Diode alkali vapor lasers (DPALs) with a flowing medium provide a pathway to extremely high-power CW or quasi-CW laser operations. In this article, the model for end-pumped alkali lasers [Beach et al., J. Opt. Soc. Am. B 21, 2151(2004)] is expanded to model DPALs in a side-pumped configuration. The difference between our model and the published model [Komashko et al., Proc. SPIE 7581, 75810H-1 (2010)] is studied, and a comparison with other people's experimental results [Zweiback et al., Proc. SPIE 7915, 791509-1 (2011)] is made, which demonstrates the validity of our model. Some important influencing factors are simulated and analyzed. A conceptual power-scaled design of a megawatt-class side-pumped flowing DPAL is made. The results demonstrate an optical-to-optical efficiency over 60% with all the other parameters reasonable and available in the near future.

机译：具有流动介质的二极管碱蒸汽激光器（DPAL）为超高功率连续波或准连续波激光器的运行提供了途径。在本文中，介绍了泵浦式碱金属激光器的模型[Beach等，J。Opt。 Soc。上午。 B 21，2151（2004）]扩展为在侧面泵浦配置中对DPAL建模。我们的模型与已发布的模型之间的差异[Komashko et al。，Proc。 SPIE 7581，75810H-1（2010）]进行了研究，并与其他人的实验结果进行了比较[Zweiback等人，Proc.Natl.Acad.Sci.USA，89：2877，1987。 SPIE 7915，791509-1（2011）]，这证明了我们模型的有效性。对一些重要的影响因素进行了模拟和分析。进行了兆瓦级侧泵流动DPAL的概念功率缩放设计。结果表明，在所有其他合理且不久的将来可用的参数的情况下，光对光效率将超过60％。

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《Journal of the Optical Society of America, B. Optical Physics》 |2011年第6期|共12页
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Yang Z.; Wang H.; Lu Q.; Li Y.; Hua W.; Xu X.; Chen J.;
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机译：具有流动介质的侧面泵浦配置中碱蒸气激光器的建模，数值方法和功率缩放
2. Three-dimensional kinetic and fluid dynamic modeling and three iterative algorithms for side-pumped alkali vapor lasers [J] . Shen Binglin, Xu Xingqi, Xia Chunsheng, Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2017,第期

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Modeling, numerical approach, and power scaling of alkali vapor lasers in side-pumped configuration with flowing medium

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