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Integration of Ultrathin Metasurfaces with a Lens for Efficient Polarization Division Multiplexing
Author(s) -
Cong Xuan,
Zhang Lei,
Li Jiaqi,
Zhang Min,
Su Hong,
Li Irene Ling,
Ruan Shuangchen,
Liang Huawei
Publication year - 2019
Publication title -
advanced optical materials
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.89
H-Index - 91
ISSN - 2195-1071
DOI - 10.1002/adom.201900116
Subject(s) - polarization (electrochemistry) , materials science , lens (geology) , multiplexing , optoelectronics , optics , luneburg lens , terahertz radiation , bessel function , electronic engineering , physics , engineering , refractive index , chemistry
Integration of an ultrathin (≈0.08 λ), flexible bilayer metasurface with a conventional lens is proposed to independently control two orthogonally polarized waves. By judiciously selecting the building blocks of the metasurfaces, several control functionalities are demonstrated such as generating Bessel beams and off‐axis and on‐axis focusing for the cross‐polarized THz waves generated in the polarization conversion resonance. Simultaneously, the lens focuses the copolarized waves normally. Then, THz polarization division multiplexing is achieved, and the total control efficiency is as high as 72–88% in the experiment. Furthermore, the proposed metasurface is fabricated via a cost‐effective standard flexible printed circuit technique, which shows high potential for integration with other functional devices. It is believed that the strategy to integrate metasurfaces with conventional elements will greatly enrich the family of THz functional devices.