Thermal and Stress Characterization of Various Thin-disk Laser Configurations at Room Temperature

机译：室温下各种薄盘激光器配置的热和应力表征

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Operational performance of kilowatt-class thin-disk ceramic and single crystal Yb:Yag lasers is presented. High pump power is applied to various thin-disk assemblies on two different test beds. The assemblies are composed of ASE caps, 200μm gain media, and heat sinks made of SiC, sapphire, or diamond. A novel mounting and cooling process is described.FEA modeling of the assemblies is performed using COMSOL stress and thermal computations to understand and quantify thermal and stress effects on beam quality and laser output power. Under increased pump power, the thin-disk can deform 5-10 μrn in the center, destroying cavity stability. This is observed experimentally. The results of this work indicate that a single thin-disk laser could simultaneously produce high beam quality and high power if novel thermal management techniques are employed.

机译：介绍了千瓦级薄盘陶瓷和单晶Yb：Yag激光器的工作性能。高泵浦功率应用于两个不同测试台上的各种薄盘组件。组件由ASE帽，200μm增益介质和SiC，蓝宝石或金刚石制成的散热器组成。描述了一种新颖的安装和冷却过程。使用COMSOL应力和热计算对组件进行FEA建模，以了解和量化热和应力对光束质量和激光输出功率的影响。在增加泵浦功率的情况下，薄盘会在中心变形5-10μrn，从而破坏型腔的稳定性。这是实验观察到的。这项工作的结果表明，如果采用新颖的热管理技术，单个薄盘激光器可以同时产生高光束质量和高功率。

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来源
《Solid state lasers XX: Technology and devices》|2011年|p.79120B.1-79120B.9|共9页
会议地点 San Francisco CA(US)
作者
N. Vretenar; T. Carson; P. Peterson; T. Lucas; T. C. Newell; W. P. Latham;
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作者单位

Center for High Technology Materials, Univ. of New Mexico, 1313 Goddard SE,Albuquerque, NM USA 87106;

Air Force Research Laboratory Directed Energy Directorate, 3550 Aberdeen Ave SE,Kirtland Air Force Base, NM USA 87117;

Boeing LTS Inc. P.O. Box 5670 MC RN-M1,Kirtland Air Force Base, NM USA 87117;

Boeing LTS Inc. P.O. Box 5670 MC RN-M1,Kirtland Air Force Base, NM USA 87117;

Air Force Research Laboratory Directed Energy Directorate, 3550 Aberdeen Ave SE,Kirtland Air Force Base, NM USA 87117;

Air Force Research Laboratory Directed Energy Directorate, 3550 Aberdeen Ave SE,Kirtland Air Force Base, NM USA 87117;

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会议组织
原文格式 PDF
正文语种 eng
中图分类激光技术、微波激射技术;
关键词
laser materials; lasers; ytterbium; lasers; solid-state; lasers; diode-pumped; optical materials;

机译：激光材料激光镱;激光固体状态;激光二极管泵浦光学材料;

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1. Simple highly efficient pumping configuration in high-power thin-disk laser [J] . Seyedzamani Sasan, Eslami Esmaeil Optical engineering . 2017,第8期

机译：大功率薄盘激光器中的简单高效泵浦配置
2. Simple highly efficient pumping configuration in high-power thin-disk laser (Optical Engineering (2017) 56:8 (085106) DOI: 10.1117/1.OE.56.8.085106) [J] . Optical engineering . 2017,第9期

机译：大功率薄盘激光器中的简单高效泵浦配置（光学工程（2017）56：8（085106）DOI：10.1117 / 1.OE.56.8.085106）
3. Optical model and optimal output coupler for a continuous wave Yb:YAG thin-disk laser with multiple-disk configuration [J] . Guangzhi Zhu, Xiao Zhu, Changhong Zhu, Applied optics . 2012,第26期

机译：具有多盘配置的连续波Yb：YAG薄盘激光器的光学模型和最佳输出耦合器
4. Thermal and Stress Characterization of Various Thin-disk Laser Configurations at Room Temperature [C] . N. Vretenar, T. Carson, P. Peterson, SPIE Conference on Solid State Lasers . 2011

机译：在室温下各种薄盘激光结构的热敏性和应力表征
5. Thermal-stress-induced temperature compensation of diode lasers. [D] . Cohen, Daniel A. 1997

机译：热应力引起的二极管激光器温度补偿。
6. Thermally induced magnetization switching in Fe/MnAs/GaAs(001): selectable magnetic configurations by temperature and field control [O] . Carlo Spezzani, Franck Vidal, Renaud Delaunay, -1

机译：Fe / MnAs / GaAs（001）中的热感应磁化切换：通过温度和磁场控制可选择的磁性配置
7. Simple highly efficient pumping configuration in high-power thin-disk laser (erratum) [O] . Sasan Seyedzamani, Esmaeil Eslami 2017

机译：高功率薄盘激光（错误）中简单的高效泵送配置
8. Thermal and Stress Characterization of Various Thin-Disk Laser Configurations at Room Temperature [R] . Latham, W. P., Vretenar, N., Carson, T., 2011

机译：室温下各种薄盘激光器配置的热学和应力表征

Thermal and Stress Characterization of Various Thin-disk Laser Configurations at Room Temperature

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