Dual‐Functional Optical Waveplates Based on Gap‐Surface Plasmon Metasurfaces

Gap‐surface plasmon (GSP) metasurfaces have attracted increasing attention and have become an emerging research area due to their planar configurations, high efficiencies, ease of fabrication, and unprecedented capabilities in manipulating reflected fields, thereby allowing one to reduce a set of bu...

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Bibliographic Details
Published in:Advanced optical materials 2021-06, Vol.9 (11), p.n/a
Main Authors: Cai, Ziru, Deng, Yadong, Wu, Cuo, Meng, Chao, Ding, Yingtao, Bozhevolnyi, Sergey I., Ding, Fei
Format: Article
Language:English
Subjects:
Conversion
dual‐functional waveplate
gap‐surface plasmon metasurfaces
Linear polarization
Materials science
Metasurfaces
Multiplexing
Optical components
Optical polarization
optical range
Optics
waveplates
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Summary:Gap‐surface plasmon (GSP) metasurfaces have attracted increasing attention and have become an emerging research area due to their planar configurations, high efficiencies, ease of fabrication, and unprecedented capabilities in manipulating reflected fields, thereby allowing one to reduce a set of bulky optical components to a single ultrathin element with multiplexed functionalities. Herein, a reflective dual‐functional optical waveplate based on periodic GSP meta‐molecules is designed and experimentally demonstrated, exhibiting combined quarter‐waveplate and half‐waveplate functionalities, i.e., providing linear‐to‐circular and linear‐to‐linear polarization conversion simultaneously, at the same operating wavelength for orthogonal linear polarizations. The proof‐of‐concept fabricated metasurface demonstrates excellent and distinct polarization conversion functionalities with the efficiencies of ≈73% and 30% at the design wavelength of 850 nm for the orthogonal incident polarizations, well in agreement with the simulations. Owing to the compactness and excellent performance, the demonstrated reflective dual‐functional optical waveplate opens yet another avenue for further development of flat polarization optical components with multiplexed functionalities. A reflective dual‐functional optical waveplate based on periodic gap‐surface plasmon meta‐molecules is experimentally demonstrated, exhibiting combined quarter‐ and half‐waveplate functionalities, i.e., providing linear‐to‐circular and linear‐to‐linear polarization conversion simultaneously. The proof‐of‐concept fabricated metasurface demonstrates excellent and distinct polarization conversion functionalities with efficiencies approaching ≈73% and 30% at the design wavelength of 850 nm for the orthogonal incident polarizations.
ISSN:2195-1071
2195-1071
DOI:10.1002/adom.202002253