Wang Tzyy-Jiann, Chu Chia-Hong, Lin Che-Yung
Institute of Electro-Optical Engineering, National Taipei University of Technology, Taiwan.
Opt Lett. 2007 Oct 1;32(19):2777-9. doi: 10.1364/ol.32.002777.
Electro-optical tuning of a microring resonator fabricated on lithium niobate (LiNbO3) is presented. The device structure, including microring resonator and couplers, is designed in detail and is produced by titanium diffusion on the wet-etched LiNbO3 ridge surface. The resonance wavelengths for TM and TE polarizations can be tuned by electro-optic effect. The output characteristics of through port and drop port in the microring resonators are measured, and the effect of applied voltage on the shift of resonant wavelength is discussed. The presented microring resonators have the features of fast tuning speed, high material stability, bidirection wavelength shift, and no heating interference. Realization of such a microring resonator on LiNbO3 makes the utilization of electro-optic tuning and nonlinear effects in the versatile photonic applications of microring resonators achievable.
本文介绍了一种在铌酸锂(LiNbO₃)上制备的微环谐振器的电光调谐。详细设计了包括微环谐振器和耦合器在内的器件结构,并通过在湿法蚀刻的LiNbO₃脊形表面上进行钛扩散来制造。TM和TE偏振的谐振波长可通过电光效应进行调谐。测量了微环谐振器中直通端口和下路端口的输出特性,并讨论了施加电压对谐振波长偏移的影响。所提出的微环谐振器具有调谐速度快、材料稳定性高、双向波长偏移以及无热干扰等特点。在LiNbO₃上实现这种微环谐振器使得在微环谐振器的通用光子应用中利用电光调谐和非线性效应成为可能。