首页》回顾》金属结构件的高性能快速响应激光修复技术

基于硅光子技术的光收发器“光I / O核” Optical transceiver "optical I/O core" based on silicon photonics technologies

演讲课题:基于硅光子技术的光收发器“光I / O核” Optical transceiver "optical I/O core" based on silicon photonics technologies

演讲人:田中有 Yu Tanaka

演讲摘要:

A chip-scale optical transceiver, “optical I/O core”, has been developed. The "optical I/O core", 5× 5 mm2 in size, is composed of silicon-photonics-based integrated optical circuit, flip-chip-bonded lasers, and Drv./TIA. It provides a maximum transmission capacity of 300 Gbps, and consumes a low power of 5 mW/Gbps. A 25-Gbps/ch error-free transmission was observed. In addition, a wavelength-division-multiplexing technologies for higher amount of transmission will be also discussed.

田中有 Yu Tanaka

日本光子学—电子学技术研究联合机构 研究员

Dr. Yu TANAKA is currently a senior researcher in PETRA. He received the Ph.D. degree in material science from the Tokyo institute of Technology, Tokyo, Japan in 2000. In 2002, He joined the Fujitsu Laboratories, Atsugi, Japan. He has been involved in development of optical devices which include quantum dot lasers and photonics-crystals-based optical switches. He joined the photonics electronics technology research association (PETRA) in 2012. He is currently engaged in the development and industrialization of integrated silicon-photonics-based optical transceivers.

现场照片

相关议题

支持机构