Compensation-free high-dimensional free-space optical communication using turbulence-resilient vector beams

Compensation-free high-dimensional free-space optical communication using turbulence-resilient vector beams

Resistance to turbulence is an ongoing challenge for point-to-point freespace communications. Here the authors present a protocol for encoding a large amount of information in vector beams that are transmittable through a moderately strong turbulent channel without adaptive beam compensation.

Bibliographic Details
Main Authors: Ziyi Zhu, Molly Janasik, Alexander Fyffe, Darrick Hay, Yiyu Zhou, Brian Kantor, Taylor Winder, Robert W. Boyd, Gerd Leuchs, Zhimin Shi
Format: Article
Language:English
Published: Nature Publishing Group 2021-03-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-021-21793-1
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spelling doaj-58bfc891499a4b75b7685b6ed0cad9d32021-03-14T12:07:08ZengNature Publishing GroupNature Communications2041-17232021-03-011211810.1038/s41467-021-21793-1Compensation-free high-dimensional free-space optical communication using turbulence-resilient vector beamsZiyi Zhu0Molly Janasik1Alexander Fyffe2Darrick Hay3Yiyu Zhou4Brian Kantor5Taylor Winder6Robert W. Boyd7Gerd Leuchs8Zhimin Shi9Department of Physics, University of South FloridaDepartment of Physics, University of South FloridaDepartment of Physics, University of South FloridaDepartment of Physics, University of South FloridaThe Institute of Optics, University of RochesterDepartment of Physics, University of South FloridaDepartment of Physics, University of South FloridaThe Institute of Optics, University of RochesterMax Plank Institute for the Science of LightDepartment of Physics, University of South FloridaResistance to turbulence is an ongoing challenge for point-to-point freespace communications. Here the authors present a protocol for encoding a large amount of information in vector beams that are transmittable through a moderately strong turbulent channel without adaptive beam compensation.https://doi.org/10.1038/s41467-021-21793-1
collection DOAJ
language English
format Article
sources DOAJ
author Ziyi Zhu
Molly Janasik
Alexander Fyffe
Darrick Hay
Yiyu Zhou
Brian Kantor
Taylor Winder
Robert W. Boyd
Gerd Leuchs
Zhimin Shi
spellingShingle Ziyi Zhu
Molly Janasik
Alexander Fyffe
Darrick Hay
Yiyu Zhou
Brian Kantor
Taylor Winder
Robert W. Boyd
Gerd Leuchs
Zhimin Shi
Compensation-free high-dimensional free-space optical communication using turbulence-resilient vector beams
Nature Communications
author_facet Ziyi Zhu
Molly Janasik
Alexander Fyffe
Darrick Hay
Yiyu Zhou
Brian Kantor
Taylor Winder
Robert W. Boyd
Gerd Leuchs
Zhimin Shi
author_sort Ziyi Zhu
title Compensation-free high-dimensional free-space optical communication using turbulence-resilient vector beams
title_short Compensation-free high-dimensional free-space optical communication using turbulence-resilient vector beams
title_full Compensation-free high-dimensional free-space optical communication using turbulence-resilient vector beams
title_fullStr Compensation-free high-dimensional free-space optical communication using turbulence-resilient vector beams
title_full_unstemmed Compensation-free high-dimensional free-space optical communication using turbulence-resilient vector beams
title_sort compensation-free high-dimensional free-space optical communication using turbulence-resilient vector beams
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2021-03-01
description Resistance to turbulence is an ongoing challenge for point-to-point freespace communications. Here the authors present a protocol for encoding a large amount of information in vector beams that are transmittable through a moderately strong turbulent channel without adaptive beam compensation.
url https://doi.org/10.1038/s41467-021-21793-1
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