Harnessing diverse hybrid integration for bridging trans-scale multi-dimensional fiber-chip data transmission and processing
Kang Li, Guofeng Yan, Kangrui Wang, Chengkun Cai, Min Yang, Guangze Wu, Weike Zhao, Yingying Peng, Yaocheng Shi, Daoxin Dai, Jian Wang

TL;DR
This paper presents a new hybrid integration method for high-capacity data transmission and processing between fiber and chip-scale optical systems.
Contribution
A novel trans-scale hybrid integration approach using 3D and 2D photonic components for multi-dimensional data transmission is introduced.
Findings
A diverse hybrid integrated coupler bridges few-mode fiber and silicon multimode waveguide.
A large-scale silicon ROADM enables 192-channel and 20-Tbit/s trans-scale data transmission and processing.
The system demonstrates a superior architecture for next-generation optical communications.
Abstract
Optical communications have emerged as a promising solution for high-speed modern communication systems and built an important infrastructure for the global information superhighway. Although recent efforts to enhance optical communications have penetrated from long-distance fiber-optic to ultra-short-reach chip-scale data transmission, “Trans-Scale” high-capacity data transmission remains great challenges. In addition to data transmission, data processing is also of great importance for flexible data management in optical communication systems. However, a “Digital Divide” (capacity gap) exists between high-capacity data transmission in fiber links and low-speed data processing at network nodes, hindering the flourishing development of optical communications. Here, we implement “Trans-Scale” high-capacity bridging between few-mode fiber and silicon multimode waveguide using a diverse…
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Taxonomy
TopicsPhotonic and Optical Devices · Semiconductor Lasers and Optical Devices · Advanced Optical Network Technologies
