Title :
Silicon Optical Interconnect Device Technologies for 40 Gb/s and Beyond
Author :
Tsung-Yang Liow ; Junfeng Song ; Xiaoguang Tu ; Lim, Andy Eu-Jin ; Qing Fang ; Ning Duan ; Mingbin Yu ; Guo-Qiang Lo
Author_Institution :
Inst. of Microelectron., Agency for Sci., Technol. & Res., Singapore, Singapore
Abstract :
Important active technologies, modulators, photodetectors, and thermooptics for low-energy silicon optical interconnects are discussed. High-speed performance up to 40 Gb/s is reported for the silicon modulators and germanium photodetectors, and approaches for further improvement in speed and efficiency are presented. Low-voltage avalanche multiplication is demonstrated, giving a gain-bandwidth product of 75 GHz, while the combined effects of multiplication gain and the Franz-Keldysh effect enable a 5-μm-long germanium photodetector to achieve responsivity in the L-band that is comparable to that in the C-band. With trench-based thermal isolation, a low switching power of 0.4 mW is achieved for a thermooptic switch.
Keywords :
elemental semiconductors; germanium; optical interconnections; optical modulation; optical switches; photodetectors; silicon; thermo-optical devices; Franz-Keldysh effect; Ge; L-band; Si; bit rate 40 Gbit/s; frequency 75 GHz; important active technologies; low-energy optical interconnects; low-voltage avalanche multiplication; modulators; optical interconnect device technologies; photodetectors; power 0.4 mW; thermooptics; wavelength 5 mum; Doping; Junctions; Optical losses; Optical waveguides; Phase modulation; Silicon; Avalanche gain; Franz–Keldysh effect; germanium photodetectors; low-energy optical interconnects; silicon modulators; thermooptics;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2012.2218580
