Design and Analysis of a Compact Frequency Beam-scanning Leaky-wave Antenna Based on Slow-wave Half-mode Substrate Integrated Waveguide and Spoof Surface Plasmon Polaritons
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Abstract
In this paper, a compact leaky-wave antenna (LWA) using slow-wave half-mode substrate integrated waveguide (SW-HMSIW) and spoof surface plasmon polariton (SSPP) is proposed. The slow-wave effect is introduced by the blind via-holes at the bottom substrate and the periodical slots etched on the top metal layer. The LWA's radiation is subsequently realized by introducing a simple single-sided sinusoidal modulation to the periodic slots on the top metal layer. Owing to the slow-wave structure, the proposed LWA has a compact size $(3.65\lambda_{0}\times 0.4\lambda_{0}\times 0.03\lambda_{0})$. Within the operating bandwidth 8.9-9.5 GHz, the simulated scanning range is from 4° to 78° with the simulated realized gain all above 6.5 dBi.
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