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High-Directivity Orbital Angular Momentum Antenna for Millimeter-Wave Wireless Communications

Ingeun Lee, Ashwini Sawant, EunMi Choi

2020IEEE Transactions on Antennas and Propagation28 citationsDOI

Abstract

Although orbital angular momentum (OAM) millimeter-wave wireless communications have attracted much attention given their potential to provide an additional degree of freedom in channel capacity, they still face challenges for realization. For instance, the OAM beam diverges rapidly in free space, limiting the coverage of wireless communication. To increase the communication range, we propose a high-directivity broad-bandwidth OAM antenna, which consists of a nonlinear taper and a lens-integrated metamaterial structure (MMS). A linearly polarized TE (transverse electric) <sub xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">11</sub> mode traverses through the antenna to generate two OAM modes with the low reflectance of the MMS and a low divergence angle (DiA). We evaluate these two factors separately and analyze the effect of reducing the OAM DiA. Then, we validate the OAM antenna using the CST Microwave Studio software and experimentally verify its performance. The measured mode patterns are quantitatively analyzed using a cross correlation function and by calculating the beam DiA from beam radius variations. The proposed OAM antenna provides a novel approach to effectively reduce the DiA of the OAM beam and may be suitable for realizing millimeter-wave wireless communications.

Topics & Concepts

DirectivityAngular momentumPhysicsOpticsWirelessComputer scienceAntenna (radio)TelecommunicationsQuantum mechanicsOrbital Angular Momentum in OpticsMetamaterials and Metasurfaces ApplicationsPlasmonic and Surface Plasmon Research
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