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The Road to High Data Rates in Space: Terahertz Versus Optical Wireless Communication

Ali J. Alqaraghuli, Jose V. Siles, Josep M. Jornet

2023IEEE Aerospace and Electronic Systems Magazine27 citationsDOI

Abstract

With the ultimate vision of ubiquitous egalitarian worldwide coverage, private companies are launching satellite constellations at unprecedented rates. The large projected traffic in orbital cross-link communication will demand more spectrum to suit more users and to satisfy higher data rates. In this article, terahertz and optical wireless communication technologies are explored as the two projected high-data-rate cross-link communication technologies and are compared in terms of device technology capabilities and wireless propagation properties. A performance analysis including a link budget directly compares the two technologies for space communication in low Earth orbit constellations. More importantly, a roadmap is provided paving the way to push both ultrabroadband wireless technologies forward.

Topics & Concepts

WirelessConstellationOptical wirelessLink budgetCommunications satelliteComputer scienceFree-space optical communicationTelecommunicationsTerahertz radiationOptical wireless communicationsFixed wirelessOptical communicationSatelliteSpacecraftHigh data rateEmerging technologiesElectronic engineeringWi-Fi arrayEngineeringWireless networkAerospace engineeringPhysicsArtificial intelligenceAstronomyOptoelectronicsOptical Wireless Communication TechnologiesSatellite Communication SystemsMillimeter-Wave Propagation and Modeling
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