Er3+掺杂钪(Sc2O3)陶瓷的首次激光性能研究

SPIE Defense + Commercial Sensing Pub Date : 2008-04-28 DOI:10.1117/12.782758

M. Dubinskii, N. Ter-Gabrielyan, L. Merkle, G. Newburgh, A. Ikesue

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引用次数: 6

摘要

二氧化碳(CO2)的远程监测对于国土安全需求以及研究大气中二氧化碳的分布变得越来越重要，因为它与全球变暖问题有关。因此，发射在1.55 ~ 1.65 μm光谱范围内的高效固体激光器的需求很大，该光谱范围内CO2吸收谱线(i)丰富，(ii)携带重要的相关信息。本文首次报道了谐振泵浦Er3+掺杂钪(Sc2O3)陶瓷的激光性能。该激光器在低温冷却状态下运行，量子缺陷(QD)仅为4.5%，加上scandia优越的导热性，提供了显著的人眼安全功率标度潜力，光束质量几乎受衍射限制。在1605.5 nm处获得了77%的斜率效率和2.35 W的Q-CW输出功率，这对反ied应用具有重要意义。

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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First laser performance of Er3+-doped scandia (Sc2O3) ceramic

Remote monitoring of carbon dioxide (CO2) is becoming increasingly important for homeland security needs as well as for studying the CO2 distribution in the atmosphere as it pertains to global warming problems. So, efficient solid-state lasers emitting in the 1.55 - 1.65 μm spectral range, where CO2 absorption lines are, (i), plentiful and, (ii), carry significant relevant information, are in great demand. Reported here is the first laser performance of resonantly pumped Er3+-doped scandia (Sc2O3) ceramic. The laser was operated in the cryogenically-cooled regime with the quantum defect (QD) of only 4.5%, which, along with superior thermal conductivity of scandia, offers significant eye-safe power scaling potential with nearly diffraction limited beam quality. Slope efficiency of 77% and Q-CW output power of 2.35 W were obtained at 1605.5 nm which has significant utility for counter-IED applications.

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SPIE Defense + Commercial Sensing

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