中国光学, 2014, 7 (2): 181, 网络出版: 2014-03-31
硅基混合表面等离子体纳米光波导及集成器件
Silicon hybrid surface plasmonic nano-optics-waveguide and integration devices
摘要
总结并展望了硅基混合表面等离子体纳米光波导及集成器件方面的理论和实验研究工作。首先介绍了几种硅基混合表面等离子体纳米光波导结构,其尺寸可小至100 nm以下,而传播长度达100 μm量级;其次介绍了基于硅基混合表面等离子体纳米光波导的功分器、偏振分束器和谐振器等集成器件,其尺寸为亚微米量级;最后探讨了硅基混合表面等离子体纳米光波导与硅纳米线光波导的耦合及对其进行增益补偿。
Abstract
In this paper, our recent theoretical and experimental results on silicon hybrid nanoplasmonic waveguides and integrated devices are reviewed. First, we present several types of silicon hybrid nanoplasmonic waveguides, which enable the confinement of optical field within the lateral scale of 100 nm, as well as a ~102 μm propagation distance. Second, several kinds of submicron photonic integrated devices like power splitters, ultra-compact polarization beam splitters and resonators are presented by using silicon hybrid nanoplasmonic waveguides. Finally, the coupling between silicon hybrid nanoplasmonic waveguides and silicon nanowires, as well as the loss compensation of silicon hybrid nanoplasmonic waveguides with gain mediums has also been discussed.
管小伟, 吴昊, 戴道锌. 硅基混合表面等离子体纳米光波导及集成器件[J]. 中国光学, 2014, 7(2): 181. GUAN Xiao-wei, WU Hao, DAI Dao-xin. Silicon hybrid surface plasmonic nano-optics-waveguide and integration devices[J]. Chinese Optics, 2014, 7(2): 181.