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Germanium Metasurfaces with Lattice Kerker Effect in Near-Infrared Photodetectors

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posted on 2022-02-22, 19:00 authored by Zhong-Xing Zhou, Ming-Jyun Ye, Min-Wen Yu, Jhen-Hong Yang, Kuan-Lin Su, Chung-Ching Yang, Cheng-Yeh Lin, Viktoriia E. Babicheva, Ivan V. Timofeev, Kuo-Ping Chen
In O-and C-band optical communications, Ge is a promising material for detecting optical signals that are encoded into electrical signals. Herein, we study 2D periodic Ge metasurfaces that support optically induced electric dipole and magnetic dipole lattice resonances. By overlapping Mie resonances and electric dipole lattice resonances, we realize the resonant lattice Kerker effect and achieve narrowband absorption. This effect was applied to the photodetector demonstrated in this study. The absorptance of the Ge nanoantenna arrays increased 6-fold compared to that of the unpatterned Ge films. In addition, the photocurrent in such Ge metasurface photodetectors increases by approximately 5 times compared with that in plane Ge film photodetectors by the interaction of these strong near-fields with semiconductors and the further transformation of the optical energy into electricity.

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