Experimental demonstration of free-space multi-state orbital angular momentum shift keying

Shiyao Fu; Yanwang Zhai; Heng Zhou; Jianqiang Zhang; Tonglu Wang; Xueting Liu; Chunqing Gao

doi:10.1364/OE.27.033111

Experimental demonstration of free-space multi-state orbital angular momentum shift keying

Shiyao Fu, Yanwang Zhai, Heng Zhou, Jianqiang Zhang, Tonglu Wang, Xueting Liu, Chunqing Gao^*

^*Corresponding author for this work

School of Optics and Photonics

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

51 Citations (Scopus)

Abstract

Orbital angular momentum (OAM), a new dimension of photons, has potentials in lots of domains as high-dimensional data coding/decoding. Here we experimentally demonstrate a free-space data transmission system based on 8 bits multi-state OAM shift keying, where multiplexed optical vortices containing 8 various OAM states are employed to constitute 8 bits binary symbols. In the transmitter, the data coding of OAM shift keying is realized by switching a series of special-designed holograms. And in the receiver, the decoding is done by a single Dammann vortex grating along with image processing. We experimentally transmit data, including a gray-scale image, in free-space for 10 meters, showing zero bit-error-rate. The demonstrated results indicate a wide prospect for the future high-dimensional large data rate optical security communications.

Original language	English
Pages (from-to)	33111-33119
Number of pages	9
Journal	Optics Express
Volume	27
Issue number	23
DOIs	https://doi.org/10.1364/OE.27.033111
Publication status	Published - 11 Nov 2019

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title = "Experimental demonstration of free-space multi-state orbital angular momentum shift keying",

abstract = "Orbital angular momentum (OAM), a new dimension of photons, has potentials in lots of domains as high-dimensional data coding/decoding. Here we experimentally demonstrate a free-space data transmission system based on 8 bits multi-state OAM shift keying, where multiplexed optical vortices containing 8 various OAM states are employed to constitute 8 bits binary symbols. In the transmitter, the data coding of OAM shift keying is realized by switching a series of special-designed holograms. And in the receiver, the decoding is done by a single Dammann vortex grating along with image processing. We experimentally transmit data, including a gray-scale image, in free-space for 10 meters, showing zero bit-error-rate. The demonstrated results indicate a wide prospect for the future high-dimensional large data rate optical security communications.",

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AU - Fu, Shiyao

AU - Zhai, Yanwang

AU - Zhou, Heng

AU - Zhang, Jianqiang

AU - Wang, Tonglu

AU - Liu, Xueting

AU - Gao, Chunqing

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AB - Orbital angular momentum (OAM), a new dimension of photons, has potentials in lots of domains as high-dimensional data coding/decoding. Here we experimentally demonstrate a free-space data transmission system based on 8 bits multi-state OAM shift keying, where multiplexed optical vortices containing 8 various OAM states are employed to constitute 8 bits binary symbols. In the transmitter, the data coding of OAM shift keying is realized by switching a series of special-designed holograms. And in the receiver, the decoding is done by a single Dammann vortex grating along with image processing. We experimentally transmit data, including a gray-scale image, in free-space for 10 meters, showing zero bit-error-rate. The demonstrated results indicate a wide prospect for the future high-dimensional large data rate optical security communications.

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Experimental demonstration of free-space multi-state orbital angular momentum shift keying

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