Photonics millimeter wave bidirectional full-duplex communication based on polarization multiplexing

Weiping Li; Jianjun Yu; Feng Wang; Xiaoxue Ji; Xiongwei Yang; Tianqi Zheng; Qihang Wang; Wen Zhou; Jianguo Yu; Feng Zhao

doi:10.1364/OL.478619

Optics Letters
Vol. 47,
Issue 24,
pp. 6389-6392
(2022)
•https://doi.org/10.1364/OL.478619

Photonics millimeter wave bidirectional full-duplex communication based on polarization multiplexing

Weiping Li, Jianjun Yu, Feng Wang, Xiaoxue Ji, Xiongwei Yang, Tianqi Zheng, Qihang Wang, Wen Zhou, Jianguo Yu, and Feng Zhao

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Weiping Li, Jianjun Yu, Feng Wang, Xiaoxue Ji, Xiongwei Yang, Tianqi Zheng, Qihang Wang, Wen Zhou, Jianguo Yu, and Feng Zhao, "Photonics millimeter wave bidirectional full-duplex communication based on polarization multiplexing," Opt. Lett. 47, 6389-6392 (2022)

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Table of Contents Category
- Fiber Optics and Optical Communications
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About this Article
History
- Original Manuscript: October 18, 2022
- Revised Manuscript: November 10, 2022
- Manuscript Accepted: November 11, 2022
- Published: December 8, 2022

Abstract

We have proposed and experimentally implemented a photonics-aided large-capacity long-distance mm-wave bidirectional full-duplex communication system at the W-band based on polarization multiplexing. The same radio frequency (RF) carrier source is shared by both the uplink and the downlink, and a pair of orthomode transducers (OMTs) are used to separate the dual orthogonally polarized channels. To achieve the maximum spectrum efficiency and throughput, 10-Gbaud probabilistically shaped 256-level quadrature-amplitude-modulation (PS-256QAM) signals with 7.07 bit/symbol/Hz are transmitted in Ch. H and Ch. V. The system can support the bidirectional transmission with 103-Gbps data rate over 4600-m RF wireless distance. To the best of our knowledge, based on a photonics-aided bidirectional full-duplex system, this is the first time to realize a record-breaking bit rate–distance product at the W-band, i.e., 103 Gbps × 4.6 km = 473.8 Gbps•km.

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