期刊
IEEE ANTENNAS AND WIRELESS PROPAGATION LETTERS
卷 22, 期 9, 页码 2155-2159出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/LAWP.2023.3278990
关键词
Diffraction; Impedance; PIN photodiodes; Reflection; Wires; Metasurfaces; Mathematical models; Anomalous reflection; beam engineering; bifunctional metagratings; diffraction pattern manipulation
In this letter, a bifunctional metagrating that can differently allocate energy of distinct diffraction orders at the same frequency is designed. By introducing a switchable meta-atom, the diffraction energy can be manipulated, paving the way for efficient real-time programmable functionalities such as wireless power transmission, beam manipulation, and imaging holography.
The concept of metagratings is a powerful means to control diffracted electromagnetic fields by accurately engineering the near-field. In this letter, a bifunctional metagrating that can differently allocate energy of distinct diffraction orders at the same frequency is designed. In one mode, the metagrating anomalously reflects total diffracted power in-1st order, and in the other mode, the diffracted power is equally redirected between the -1st order and+1st order. Tomanipulate the diffraction pattern, ameta-atom is designed to be switchable via the incorporation of a pin diode, which is compatible with low-complexity external control circuits. A prototype is fabricated and measured in an anechoic chamber. The measured results, consistent with full-wave numerical simulations, demonstrate an excellent qualitative manipulation of the diffracted energy. The proposed switchable metagrating paves the way for the implementation of metagratings in efficient real-time programmable functionalities for wireless power transmission, beam manipulation, and imaging holography.
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