Litcius/Paper detail

Free-Space Optical Communication Link With Liquid Crystal Beam-Steering

Guanxiong Zhang, Andy Schreier, Xiuze Wang, William Matthews, James Farmer, Grahame Faulkner, Steve J. Elston, Stephen Morris, Dominic O’Brien

2023IEEE Photonics Technology Letters10 citationsDOIOpen Access PDF

Abstract

In this letter, we present a non-mechanical 2D beam-steering system suitable for optical wireless communication. Steering is achieved using polarization gratings combined with nematic liquid crystal cells operating as voltage-controlled polarization shifters. These steering elements are combined with a holographic diffuser matched to the discrete steering angles of the polarization grating, enabling continuous angular coverage. Beam-steering is also used at the receiver, allowing a large collection area receiver with a relatively narrow field of view to be used. The approach presented here could, in principle, be applied to a broad range of wavelengths (including visible light and near-infrared wavelengths). Furthermore, the technique does not inherently limit the transmission data rate. Besides, it improves the link margin and offers the potential for a bidirectional steered link using the same beam-steering elements. Details of the approach are set out in the paper, followed by experimental results from a 50 Mbit/s optical link operating over one meter. Future directions are then discussed.

Topics & Concepts

Beam steeringOpticsFree-space optical communicationPolarization (electrochemistry)Optical communicationOptical wirelessHolographyMaterials sciencePhased-array opticsOptoelectronicsBeam (structure)PhysicsComputer scienceCommunications systemTelecommunicationsPhased arrayAntenna (radio)ChemistryPhysical chemistryOptical Wireless Communication TechnologiesSemiconductor Lasers and Optical DevicesAdvanced Photonic Communication Systems