Mid-IR fiber amplifier cooled with Yb3+ ions

2011 IEEE Photonics Society Summer Topical Meeting Series Pub Date : 2011-07-18 DOI:10.1109/PHOSST.2011.6000065

G. Nemova, R. Kashyap

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Abstract

Stimulated Raman scattering (SRS) in optical fibers is a well-known method of signal amplification in Raman amplifiers and lasers for the generation a wide range of wavelengths. Today, there are a large number of applications requiring high power beams at wavelengths longer than 2 μm, and non-oxide based glass fibers with low phonon energies and high infrared transparency are very attractive for applications in this region. Fluoride, tellurite, and chalcogenide fibers are the best choices for this purpose. An important issue in high power fiber based Raman amplification (RA) is the heat generated inside the active medium due to the quantum defect between the pump and the amplified wavelengths. The increase in the temperature of the laser medium can detrimentally affect laser performance, by degrading the quality of the amplified beam, causing a decrease in the efficiency of the process, thermal lensing and self focussing. The cooling of the laser medium is a key issue for improving laser performance and increasing the laser's lifetime. Mitigation of the heat generated in Raman lasers using coherent anti-Stokes Raman scattering has been suggested in Ref. [1].

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中红外光纤放大器用Yb3+离子冷却

光纤中的受激拉曼散射(SRS)是拉曼放大器和激光器中众所周知的一种信号放大方法，可以产生宽范围的波长。如今，有大量的应用需要波长大于2 μm的高功率光束，而具有低声子能量和高红外透明度的非氧化物基玻璃纤维在这一领域的应用非常有吸引力。氟化物、碲化物和硫族纤维是最好的选择。在基于高功率光纤的拉曼放大(RA)中，一个重要的问题是由于泵浦与放大波长之间的量子缺陷而在有效介质内部产生的热量。激光介质温度的升高会降低放大光束的质量，导致工艺效率、热透镜和自聚焦的降低，从而对激光性能产生不利影响。激光介质的冷却是提高激光器性能和延长激光器寿命的关键问题。文献[1]中建议使用相干反斯托克斯拉曼散射来减轻拉曼激光器中产生的热量。

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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2011 IEEE Photonics Society Summer Topical Meeting Series

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