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Performance analysis of a spatial diversity coherent free-space optical communication system based on optimal branch block phase correction

Liqian Wang, Jichen Wang, Xinyu Tang, Huan Chen, Xue Chen

2022Optics Express27 citationsDOIOpen Access PDF

Abstract

Coherent optical communication systems have high receiver sensitivities, high spectral efficiencies, and high-capacity information transmission, which are widely used in free-space optical communications. However, atmospheric turbulence affects the power budget of coherent receiving systems. Diversity can effectively suppress atmospheric turbulence, but relative phase differences caused by phase asynchrony degrade the performances of diversity systems. Hence, spatial diversity reception based on optimal branch block phase correction is proposed herein and verified through simulations and experiments to improve diversity gain and reduce the complexity and outage probability of diversity systems effectively. This scheme is promising for application to high-speed low Earth orbit satellite-to-ground communications.

Topics & Concepts

Computer scienceOptical communicationBlock (permutation group theory)Free-space optical communicationPhase (matter)Diversity gainOpticsCommunications systemAntenna diversityElectronic engineeringPower (physics)Diversity combiningDiversity schemeAdaptive opticsCommunications satelliteOutage probabilityAlgorithmAtmospheric turbulenceSynchronization (alternating current)Spectral densityPhase noiseDiversity (politics)Bit error rateTelecommunicationsPhotonicsTime diversityPower budgetComputer simulationCoherence (philosophical gambling strategy)PhysicsSignal-to-noise ratio (imaging)Phase modulationFadingPerformance improvementOptical Wireless Communication TechnologiesSatellite Communication SystemsOptical Network Technologies
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