Arbitrarily routed mode-division multiplexed photonic circuits for dense integration

Yingjie Liu; Ke Xu; Shuai Wang; Weihong Shen; Hucheng Xie; Yujie Wang; Shumin Xiao; Yong Yao; Jiangbing Du; Zuyuan He; Qinghai Song

doi:10.1038/s41467-019-11196-8

Arbitrarily routed mode-division multiplexed photonic circuits for dense integration

Yingjie Liu
, Ke Xu^*
, Shuai Wang
, Weihong Shen
, Hucheng Xie
, Yujie Wang
, Shumin Xiao
, Yong Yao
, Jiangbing Du
, Zuyuan He
, Qinghai Song

^*Corresponding author for this work

Harbin Institute of Technology Shenzhen
Shanghai Jiao Tong University
Shanxi University

Research output: Contribution to journal › Article › peer-review

282 Scopus citations

Abstract

On-chip integrated mode-division multiplexing (MDM) is an emerging technique for large-capacity data communications. In the past few years, while several configurations have been developed to realize on-chip MDM circuits, their practical applications are significantly hindered by the large footprint and inter-mode cross talk. Most importantly, the high-speed MDM signal transmission in an arbitrarily routed circuit is still absent. Herein, we demonstrate the MDM circuits based on digitized meta-structures which have extremely compact footprints. 112 Gbit/s signals encoded on each mode are arbitrarily routed through the circuits consisting of many sharp bends and compact crossings with a bit error rate under forward error correction limit. This will significantly improve the integration density and benefit various on-chip multimode optical systems.

Original language	English
Article number	3263
Journal	Nature Communications
Volume	10
Issue number	1
DOIs	https://doi.org/10.1038/s41467-019-11196-8
State	Published - 1 Dec 2019
Externally published	Yes

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Cite this

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title = "Arbitrarily routed mode-division multiplexed photonic circuits for dense integration",

abstract = "On-chip integrated mode-division multiplexing (MDM) is an emerging technique for large-capacity data communications. In the past few years, while several configurations have been developed to realize on-chip MDM circuits, their practical applications are significantly hindered by the large footprint and inter-mode cross talk. Most importantly, the high-speed MDM signal transmission in an arbitrarily routed circuit is still absent. Herein, we demonstrate the MDM circuits based on digitized meta-structures which have extremely compact footprints. 112 Gbit/s signals encoded on each mode are arbitrarily routed through the circuits consisting of many sharp bends and compact crossings with a bit error rate under forward error correction limit. This will significantly improve the integration density and benefit various on-chip multimode optical systems.",

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AU - Liu, Yingjie

AU - Xu, Ke

AU - Wang, Shuai

AU - Shen, Weihong

AU - Xie, Hucheng

AU - Wang, Yujie

AU - Xiao, Shumin

AU - Yao, Yong

AU - Du, Jiangbing

AU - He, Zuyuan

AU - Song, Qinghai

PY - 2019/12/1

Y1 - 2019/12/1

N2 - On-chip integrated mode-division multiplexing (MDM) is an emerging technique for large-capacity data communications. In the past few years, while several configurations have been developed to realize on-chip MDM circuits, their practical applications are significantly hindered by the large footprint and inter-mode cross talk. Most importantly, the high-speed MDM signal transmission in an arbitrarily routed circuit is still absent. Herein, we demonstrate the MDM circuits based on digitized meta-structures which have extremely compact footprints. 112 Gbit/s signals encoded on each mode are arbitrarily routed through the circuits consisting of many sharp bends and compact crossings with a bit error rate under forward error correction limit. This will significantly improve the integration density and benefit various on-chip multimode optical systems.

AB - On-chip integrated mode-division multiplexing (MDM) is an emerging technique for large-capacity data communications. In the past few years, while several configurations have been developed to realize on-chip MDM circuits, their practical applications are significantly hindered by the large footprint and inter-mode cross talk. Most importantly, the high-speed MDM signal transmission in an arbitrarily routed circuit is still absent. Herein, we demonstrate the MDM circuits based on digitized meta-structures which have extremely compact footprints. 112 Gbit/s signals encoded on each mode are arbitrarily routed through the circuits consisting of many sharp bends and compact crossings with a bit error rate under forward error correction limit. This will significantly improve the integration density and benefit various on-chip multimode optical systems.

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Arbitrarily routed mode-division multiplexed photonic circuits for dense integration

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