3.9 Article

Leaky-Wave Structures and Techniques for Integrated Front-End Antenna Systems

Journal

IEEE JOURNAL OF MICROWAVES
Volume 3, Issue 1, Pages 368-397

Publisher

IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/JMW.2022.3220632

Keywords

MTT 70th Anniversary Special Issue; antenna engineering; antenna front-end systems; beam-scanning; filtering antenna; functionality; frequency-selectivity; frequency-scanning system; guided-wave structures; leaky waves; leaky-wave antenna (LWA); leaky-wave structure; low side-lobe; low cross-polarization; multifunctionality; periodic structures; open-stopband; radar; radiating discontinuity; rapid beam-scanning; stable radiation

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Leaky-wave antennas have been widely studied and recognized for their highly directive beam, easy feeding mechanism, simple configuration, and frequency-driven beam-scanning. Functional leaky-wave antennas, which exploit radiating discontinuities and waveguiding structures, have become a key research focus in the development of modern wireless RF/microwave systems. This article provides a review and investigation of enabling concepts, structures, and techniques for designing functional leaky-wave antennas with low side-lobe and cross-polarization behaviors, rapid beam-scanning, stable radiation, frequency-selectivity, and open-stopband suppression.
Leaky-wave antenna (LWA), as a special kind of waveguiding structure simultaneously characterized by both the guidance and radiation of electromagnetic waves along it, has received much attention and has been in the spotlight of both academia and industry since its inception in the 1940s. This is mainly because LWAs possess many appealing properties such as the highly directive beam, easy feeding mechanism, simple configuration, and particular frequency-driven beam-scanning, which enable them to hold promise in the development of a unique front-end antenna solution than others (e.g., reflector antenna and phased array). In addition to these inherent features, the exploitation of LWAs featuring multifarious sophisticated electrical functionalities (i.e., functional LWAs), with resort to engineering relevant radiating discontinuities and waveguiding structures, constitutes one mainstream research in the communities and increasingly prevails in the research & development of modern multifunctional wireless RF/microwave systems recently. This article is structured under this background, which is mainly dedicated to reviewing and investigating several enabling concepts, structures, and techniques that are specifically applied to the design of functional LWAs characterized by, for example, simultaneously low side-lobe and cross-polarization behaviors, rapid beam-scanning, stable radiation, frequency-selectivity, and open-stopband suppression. To make the technical discussions much more self-contained and systematic, this article begins with leaky-wave basics as well as general geometrical and electrical characteristics of LWAs. In addition, some representative system-level applications enabled by LWAs are briefly described, together with several promising research directions that can be further explored and galvanized, from the authors' perspective.

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