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Demonstration of 10-channel mode- and polarization-division multiplexed free-space optical transmission with successive interference cancellation DSP

We experimentally demonstrate 10-channel mode-division multiplexed free-space optical transmission with five spatial modes, each carrying 19.6925-Gbaud dual-polarization quadrature phase shift keying signals. Strong inter-mode cross talk is observed in our commercially available photonic lantern bas...

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Published in:	Optics letters 2022-06, Vol.47 (11), p.2742-2745
Main Authors:	Li, Yiming, Hu, Zhouyi, Benton, David M, Ali, Abdallah, Patel, Mohammed, Ellis, Andrew D
Format:	Article
Language:	English
Subjects:	Algorithms Cancellation Crosstalk Digital signal processing Dual polarization (waves) Error correction Free space optics Interference Multiplexing Optical communication Polarization Quadrature phase shift keying Signal to noise ratio
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creator	Li, Yiming Hu, Zhouyi Benton, David M Ali, Abdallah Patel, Mohammed Ellis, Andrew D
description	We experimentally demonstrate 10-channel mode-division multiplexed free-space optical transmission with five spatial modes, each carrying 19.6925-Gbaud dual-polarization quadrature phase shift keying signals. Strong inter-mode cross talk is observed in our commercially available photonic lantern based system when using a complete orthogonal mode set as independent channels. A successive interference cancellation based multiple-input multiple-output digital signal processing (DSP) algorithm is first applied to mitigate the inter-mode cross talk in mode-division multiplexed systems. The DSP also supports unequal transmit and receive channel numbers to further improve the cross talk resiliency. Compared to the conventional minimum mean square error DSP, the required optical signal-to-noise ratio of the successive interference cancellation DSP is decreased by approximately 5 dB at the hard-decision forward error correction limit. As a result, this system demonstrates a record-high independent channel number of 10 and spectral efficiency of 13.7 b/s/Hz in mode-division multiplexed free-space optical systems.
doi_str_mv	10.1364/OL.456235
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subjects	Algorithms Cancellation Crosstalk Digital signal processing Dual polarization (waves) Error correction Free space optics Interference Multiplexing Optical communication Polarization Quadrature phase shift keying Signal to noise ratio
title	Demonstration of 10-channel mode- and polarization-division multiplexed free-space optical transmission with successive interference cancellation DSP
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