基于稀土掺杂倍半氧化物晶体的新型固态激光器

Conference Digest. 2000 Conference on Lasers and Electro-Optics Europe (Cat. No.00TH8505) Pub Date : 2000-09-10 DOI:10.1109/CLEOE.2000.910403

G. Huber, V. Peters, K. Petermann

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引用次数: 4

摘要

只提供摘要形式。自六十年代初以来，钇的倍半氧化物一直是激光物理和光谱学领域感兴趣的主题。它的导热系数高于已建立的激光主体材料Y/sub 3/Al/sub 5/O/sub 12/ (YAG)。同样，在等结构钪(Sc/sub 2/O/sub 3/)和lutetia (Lu/sub 2/O/sub 3/)中也可以发现高导热系数。在50℃下测得的热导率在黄体的12.5 W/mK和钪的16.5 W/mK之间，未掺杂的YAG在相同条件下测得的热导率为11 W/mK。这一特性使得倍半氧化物有望成为稀土基激光系统，特别是高功率应用的宿主材料。

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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New solid-state lasers based on rare-earth doped sesquioxide crystals

Summary form only given. The sesquioxide of yttrium is subject of interest to the fields of laser physics and spectroscopy since the early sixties. It exhibits a thermal conductivity that is higher than that of the well established laser host material Y/sub 3/Al/sub 5/O/sub 12/ (YAG). Similarly high thermal conductivities can also be found in the isostructural scandia (Sc/sub 2/O/sub 3/) and lutetia (Lu/sub 2/O/sub 3/). The thermal conductivities range between 12.5 W/mK in lutetia and 16.5 W/mK in scandia, measured at 50 C. Undoped YAG shows a thermal conductivity of 11 W/mK measured under the same conditions. This property makes the sesquioxides promising host materials for rare-earth based laser systems, especially for high power applications.

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Conference Digest. 2000 Conference on Lasers and Electro-Optics Europe (Cat. No.00TH8505)

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