标题:
高性能无源光电子材料与器件研究Research on High-Performance Passive Optoelectronic Materials and Devices
作者:
吴远大, 王玥, 李智勇, 江毅, 黄北举, 陈沁, 张家顺, 张磊
关键字:
可调谐滤波器, 高速调制器, 光交叉连接器, 无源合波器, 光栅耦合器, 温控滤波器Tunable Filter, High-Speed Modulator, Optical Cross Connector, Passive Multiplexer, Grating
Coupler, Temperature-Control Filter
期刊名称:
《Optoelectronics》, Vol.6 No.3, 2016-09-16
摘要:
面向我国互联网+、云计算数据中心及超级计算机建设中战略性高性能无源光电子材料与器件的迫切需求,本文提出要以掌握自主知识产权的新型硅基无源材料及器件为目标,以复杂多功能集成芯片技术为牵引,着力解决低损耗、跨周期大范围波长可调谐滤波器设计与材料制备;电光复合波导中锗硅异质外延材料双效应互耦合增强机理,极高速率调制器电光转换效率、能耗;多功能集成多层光交叉连接器顶层波导低温沉积技术、多层光波导高效耦合和隔离设计及制备;硅基超小型、低损耗、热不敏感无源合波器原理、工艺及产业化;光栅耦合器、滤波器和微电子器件的融合,片上温控及波长自动锁定算法及实现等关键技术。通过技术攻关,有望突破一批硅基光电子核心芯片关键技术,对信息产业发展和国家安全保障提供有效地支撑,服务于国家在智能化信息技术、先进半导体制造技术、新一代大规模集成电路等方面的战略需求。
Geared to the urgent needs of strategic high-performance passive optoelectronic materials and devices in the constructions of China’s Internet+, cloud computing data center and super computer, the paper proposes that it needs to take mastering novel Si-based passive optoelectronic materials and devices with independent intellectual property rights as the goal, and take complex multi- function integrated chip technology as the traction, and strive to solve the key technologies, such as the design and fabrication of low-loss cross-cycle large-range wavelength tunable filter and ma- terial, double-effect mutual-coupling enhancement mechanism of SiGe heteroepitaxy material in the electro-optic composite waveguide, electro-optic conversion efficiency and energy consumption of ultral-high-speed modulator, low-temperature deposition technology of top-layer waveguide in multi-function integrated multilayer optical cross connector, design and fabrication of high-effi- ciency coupling and isolation of multilayer optical waveguide, principle, technology and industrialization of Si-based ultral-small low-loss thermal-insensitive passive multiplexer, the integration of grating coupler, filter, and microelectronic device, and the realizations of temperature-control- on-chip and wavelength automatic locking algorithm. Through the technical research, it is expected to make breakthrough in key technologies of a batch of Si-based optoelectronic core chips, provide effective support to the development of information industry and the national security, and serve national strategic requirements of intelligent information technology, advanced semiconductor manufacturing technology, and new generation large-scale integrated circuit.