高Q掺铒光学微球腔的制备与分析

The 8th Annual IEEE International Conference on Nano/Micro Engineered and Molecular Systems Pub Date : 2013-04-07 DOI:10.1109/NEMS.2013.6559881

S. Yan, Xiao-Qian Wang, Kezhen Ma, An-fu Zhang, C. Xue, Wendong Zhang

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引用次数: 2

摘要

采用CO2激光金属法加工掺铒锥形光纤的顶部，该光纤是通过拉伸标准光纤(SMF-125)，同时用氢火焰加热而形成的。当停止加热时，锥形纤维顶部利用其表面张力形成了球形度更高的掺铒微球腔。掺铒微球尺寸为21μm。在泵浦功率和单色光谱仪之间精确调节掺铒微球的位置，使其易于被980 nm和1480 nm红外光激发。受激铒离子产生能级跃迁，在中心波长1550nm附近观察到许多清晰的透射光谱。扩大了频谱范围，证明了微腔的选频作用。进一步分析实验结果，通过计算透射谱得到的品质因子Q=4.4×108与理论值基本一致。

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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Fabrication and analysis optical microsphere cavity based on high Q erbium-doped

Using CO2 laser metal method process the top of erbium-doped tapered fiber, which formed by stretching a standard optical fiber (SMF-125) while heating it with a hydrogen flame. The top of tapered fiber formed erbium-doped microsphere cavity with higher spherical by its surface tension when heating is stopped. The size of erbium-doped microsphere is 21μm. The position of erbium-doped microsphere is accurately adjusted between the pump power and monochromatic spectrometer so that it can be easily excited by 980 nm and 1480 nm infrared light. Excited erbium ions produce energy level transition and a number of sharp transmission spectrums are observed around the center wavelength of 1550nm. It expanded the spectrum wide and proved the frequency selection role of micro-cavity. Further analysis of the experimental results, we obtained the quality factor Q=4.4×108 through calculating the transmission spectrum which is consistent with the theoretical value largely.

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The 8th Annual IEEE International Conference on Nano/Micro Engineered and Molecular Systems

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