光学与光电技术, 2019, 17 (4): 5, 网络出版: 2019-09-27
硅基光电子集成器件
Silicon-Based Optoelectronic Integrated Devices
硅基光子学 光电子集成 激光器 光学复用 调制器 光开关 silicon photonics optoelectronic integrated laser optical multiplexing modulator optical switch
摘要
随着信息社会的进一步发展和大数据时代的到来, 传统通信和互连技术越来越不能满足数据传输与处理环节对于传输容量、通信速度、信号延迟、传输距离与电能消耗等方面的要求。硅基光电子集成技术以前所未有的材料和技术优越性, 为上述问题的圆满解决提供了理想的途径, 正在迅速发展, 并将逐渐成为构建现代信息社会关键硬件基础的主体技术。结合本研究组针对多层次光通信、光互连的最新研究进展, 系统地介绍了光通信、光互连用硅基激光器、调制器、波分复用、模分复用、偏振控制、光开关、探测器等全系列硅基光子集成器件的研究思路、方法、成果和发展趋势, 并对其在通信、互连、微波、传感等领域的应用可能性展开了讨论。
Abstract
Accompanying the rapid developments of the big-data society, novel technologies for constructing high-speed and low-power-consumption data processing and communication systems are highly demanded. Silicon photonic integration is widely regarded as one of the most promising ways in various applications, due to the low-cost and high-density-integration of silicon based laser, modulators, wavelength MUX/DeMUX, mode MUX/DeMUX, polarization controller, EO/TO switches, photodetectors, with their designs, fabrications, measurements and future applications.
储涛. 硅基光电子集成器件[J]. 光学与光电技术, 2019, 17(4): 5. CHU Tao. Silicon-Based Optoelectronic Integrated Devices[J]. OPTICS & OPTOELECTRONIC TECHNOLOGY, 2019, 17(4): 5.