Affiliation:
1. Research Center for Electrical and Information Technology, Seoul National University of Science and Technology Seoul Republic of Korea
2. Department of Electrical and Information Engineering Seoul National University of Science and Technology Seoul Republic of Korea
Abstract
AbstractThe proposed paper presents the design of a leaky‐wave antenna inspired by holographic metasurfaces employing thin film. Leveraging the holographic principle, this metasurface showcases its transformative capacity by converting an omnidirectionally radiating monopole into a highly directional antenna emitting leaky waves. The holographic metasurface is constructed using a thin film of polyimide (PI) (Df = 0.008; Dk = 3.5), measuring 50 μm in thickness. The antenna structure comprises multiple layers, commencing with the top PI layer, succeeded by a 40 μm thick adhesive layer (Df = 0.004; Dk = 6). Subsequent layer includes the Rogers RT/duroid 5880 substrate (Df = 0.0009; Dk = 2.20), grounded at the bottom and has a thickness of 1.6 mm. The meticulously tailored design of the proposed antenna ensures optimal performance at 15 GHz, facilitating directional radiation and precise beam steering at 10 degrees (ϴ = 10°). This innovative design, incorporating the holographic metasurface on thin film, significantly enhances the antenna's performance, increasing gain from 1.5 dBi to 13.8 dBi.
Funder
Seoul National University of Science and Technology
Cited by
1 articles.
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1. Holographic Metasurface Design for Flexible Beamforming Antennas;2024 IEEE Space, Aerospace and Defence Conference (SPACE);2024-07-22