Experimental Comparison of Anomalous Reflectors Implemented With Local and Nonlocal Design Approaches
Copyright policy )Experimental Comparison of Anomalous Reflectors Implemented With Local and Nonlocal Design Approaches
[EN] Developing intelligent radio environments with the ability to engineer and optimize propagation channels has been made possible by metasurfaces that perform anomalous reflection and control the direction of wave reflection at will. Several design methods for creation of anomalous reflectors have been developed, from the simplest locally periodic designs of individual unit cells to advanced global optimizations. In this study, we design, fabricate, and experimentally characterize anomalous reflectors that have the same size and perform the same function but are designed using two different, most commonly used methods. Experimental characterization of the reflector performance over a broad frequency range and for a variety of illumination angles allows comparison of the two methods and helps to select the most suitable design approach for specific application requirements.
This work was supported in part by the European Commission through the Horizon 2020 (H2020) Artificial Intelligence Aided D-Band Network for 5G Long Term Evolution (ARIADNE) Project under Grant 871464 and in part by the Research Council of Finland under Grant 345178 and Grant 330957.
- German Aerospace Center Germany
- Universitat Politècnica de València Spain
- Aalto University Finland
Freeports, reflection coefficient, scattering, Periodic structures, Metasurface, Reflection, optimized propagation channels, metasurfaces, Anomalous reflection, Angular respons, Metasurfaces, Harmonic analysis, Scattering, Ediffraction grating, bistatic scattering, Reflection coefficient, diffraction grating, angular response, measurements, Lighting
Freeports, reflection coefficient, scattering, Periodic structures, Metasurface, Reflection, optimized propagation channels, metasurfaces, Anomalous reflection, Angular respons, Metasurfaces, Harmonic analysis, Scattering, Ediffraction grating, bistatic scattering, Reflection coefficient, diffraction grating, angular response, measurements, Lighting
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