Author Affiliations
Abstract
1 Centre for Optical and Electromagnetic Research, JORCEP, State Key Laboratory for Modern Optical Instrumentation, Zhejiang Provincial Key Laboratory for Sensing Technologies, Zhejiang University, Hangzhou 310058, China
2 Key Laboratory of the Ministry of Education on Optoelectronic Information Technology, School of Precision Instruments and Optoelectronics Engineering, Tianjin University, Tianjin 300072, China
Nonlinear silicon photonics has shown an ability to generate, manipulate, and detect optical signals on an ultracompact chip at a potential low cost. There are still barriers hindering its development due to essential material limitations. In this review, hybrid structures with some specific materials developed for nonlinear silicon photonics are discussed. The combination of silicon and the nonlinear materials takes advantage of both materials, which shows great potential to improve the performance and expand the applications for nonlinear silicon photonics.
Nonlinear optics, integrated optics Nonlinear optical devices Integrated optics materials Photonics Research
2018, 6(5): 05000B13
浙江大学 光电信息工程学系 现代光学仪器国家重点实验室光及电磁波研究中心,浙江 杭州 310058
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。
光波导 集成器件 表面等离子体 硅纳米线 optical waveguide photonic integrated devices plasmonic silicon nanowire
