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Mid-wave and long-wave infrared transmitters and detectors for optical satellite communications—a review

Liam Flannigan, Liam Yoell, Chang‐Qing Xu

2022Journal of Optics76 citationsDOIOpen Access PDF

Abstract

Abstract There has been a recent surge in interest for optical satellite communication (SatCom) utilizing lasers. It is clear to see why, as optical SatCom is capable of higher speed, lighter weight, higher directionality, and higher efficiency versus their radio-based counterparts. Research into optical SatCom has focused on devices operating in the short-wave infrared (SWIR), which is due to the maturity and commercial availability of such component’s thanks to significant development in terrestrial telecommunications networks. However, SWIR performs poorly in fog and heavy weather, prompting investigations into longer mid-wave and long-wave infrared bands for optical communication instead due to reduced atmospheric losses. This paper provides a comprehensive review of laser transmitters, detectors, and the science behind selecting longer wavelengths for optical SatCom to boost optical SatCom between ground stations and low earth orbit satellite constellations being deployed.

Topics & Concepts

Optical communicationDetectorSatelliteInfraredWavelengthLaserFree-space optical communicationRemote sensingCommunications satelliteOpticsTelecommunicationsPhysicsEnvironmental scienceComputer scienceAstronomyGeologyOptical Wireless Communication TechnologiesSemiconductor Lasers and Optical DevicesPhotonic and Optical Devices
Mid-wave and long-wave infrared transmitters and detectors for optical satellite communications—a review | Litcius