Frontiers of Optoelectronics, 2016, 9 (3): 436, 网络出版: 2016-11-23
Silicon-plus photonics
Silicon-plus photonics
silicon-plus silicon-plus hybrid hybrid plsamonic plsamonic photodetector photodetector modulator modulator graphene graphene III-V III-V
摘要
Silicon photonics has become very popular because of their compatibility with mature CMOS technologies. However, pure silicon is still very difficult to be utilized to obtain various photonic functional devices for large-scale photonic integration due to intrinsic properties. Silicon-plus photonics, which pluses other materials to break the limitation of silicon, is playing a very important role currently and in the future. In this paper, we give a review and discussion on the progresses of siliconplus photonics, including the structures, devices and applications.
Abstract
Silicon photonics has become very popular because of their compatibility with mature CMOS technologies. However, pure silicon is still very difficult to be utilized to obtain various photonic functional devices for large-scale photonic integration due to intrinsic properties. Silicon-plus photonics, which pluses other materials to break the limitation of silicon, is playing a very important role currently and in the future. In this paper, we give a review and discussion on the progresses of siliconplus photonics, including the structures, devices and applications.
Daoxin DAI, Yanlong YIN, Longhai YU, Hao WU, Di LIANG, Zhechao WANG, Liu LIU. Silicon-plus photonics[J]. Frontiers of Optoelectronics, 2016, 9(3): 436. Daoxin DAI, Yanlong YIN, Longhai YU, Hao WU, Di LIANG, Zhechao WANG, Liu LIU. Silicon-plus photonics[J]. Frontiers of Optoelectronics, 2016, 9(3): 436.