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Mobile THz communications using photonic assisted beam steering leaky-wave antennas

Peng Lü, Thomas Haddad, Jonas Tebart, Matthias Steeg, Benedikt Sievert, J. Lackmann, Andreas Rennings, Andreas Stöhr

2021Optics Express43 citationsDOIOpen Access PDF

Abstract

THz communications is envisaged for wide bandwidth mobile communications eventually reaching data capacities exceeding 100 Gbit/s. The technology enabling compact chip-integrated transceivers with highly directive, steerable antennas is the key challenge at THz frequencies to overcome the very high free-space path losses and to support user mobility. In this article, we report on mobile and multi-user THz communications using a photonic THz transmitter chip featuring 1D beam steering for the first time. In the proposed approach, 1D THz beam steering is achieved by using a photodiode excited leaky-wave antenna (LWA) in the transmitter chip. The on-chip LWA allows to steer the directive THz beam from 6° to 39° within the upper WR3-band (0.28-0.33 THz). The antenna's directivity is 14 dBi which is further increased to 23 dBi using an additional hemicylindrical Teflon lens. The 3-dB beam width and coherence bandwidth of the fabricated THz transmitter chips with lens are 9° and 12 GHz, respectively. The proposed approach allows steering the THz beam via the beat frequency of an optical heterodyne system at a speed up to 28°/s. Without using a THz amplifier in the transmitter chip, a data rate of 24 Gbit/s is achieved for a single user for all beam directions and at short wireless distances up to 6 cm. The wireless distance is successfully increased to 32 cm for a lower data rate of 4 Gbit/s, still without using a transmitter amplifier. Also, multi-user THz communications and the overall capacity of the developed THz transmitter chip is studied revealing that up to 12 users could be supported together with a total wireless data capacity of 48 Gbit/s. Fully integrated 2D transmitter chips are expected to reach wireless distances of several meters without additional amplifiers.

Topics & Concepts

TransmitterTerahertz radiationOpticsBeam steeringAmplifierPhysicsBandwidth (computing)PhotodiodeOptoelectronicsComputer scienceTelecommunicationsBeam (structure)Channel (broadcasting)Terahertz technology and applicationsPhotonic and Optical DevicesMillimeter-Wave Propagation and Modeling
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