High-efficiency beam manipulation combining geometric phase with anisotropic Huygens surface

Wenyu Zhao; Huan Jiang; Bingyi Liu; Jie Song; Yongyuan Jiang

doi:10.1063/1.4948518

High-efficiency beam manipulation combining geometric phase with anisotropic Huygens surface

Wenyu Zhao
, Huan Jiang
, Bingyi Liu
, Jie Song
, Yongyuan Jiang^*

^*Corresponding author for this work

School of Physics

Harbin Institute of Technology
Key Lab of Micro-Optics and Photonic Technology of Heilongjiang Province

Research output: Contribution to journal › Article › peer-review

22 Scopus citations

Abstract

Conventional geometric metasurfaces relying on space-variant metal antennas for beam manipulation suffer from strong Ohmic loss and incomplete polarization conversion. The efficiency is often limited to rather small values, especially when operating in transmission mode. Here, we tackle this challenge by deliberately constructing an equivalent sheet with anisotropic surface electric and magnetic polarizabilities using cross-shaped dielectric antennas. An incident circularly polarized light can be almost fully converted to a transmitted light of opposite helicity with an unprecedented efficiency up to 98%. Such a transmissive metasurface possessing the merits of high-efficiency, non-dispersion, and robust against variations can serve as an outstanding candidate for flat optics, such as anomalous refraction and beam focusing.

Original language	English
Article number	181102
Journal	Applied Physics Letters
Volume	108
Issue number	18
DOIs	https://doi.org/10.1063/1.4948518
State	Published - 2 May 2016

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title = "High-efficiency beam manipulation combining geometric phase with anisotropic Huygens surface",

abstract = "Conventional geometric metasurfaces relying on space-variant metal antennas for beam manipulation suffer from strong Ohmic loss and incomplete polarization conversion. The efficiency is often limited to rather small values, especially when operating in transmission mode. Here, we tackle this challenge by deliberately constructing an equivalent sheet with anisotropic surface electric and magnetic polarizabilities using cross-shaped dielectric antennas. An incident circularly polarized light can be almost fully converted to a transmitted light of opposite helicity with an unprecedented efficiency up to 98\%. Such a transmissive metasurface possessing the merits of high-efficiency, non-dispersion, and robust against variations can serve as an outstanding candidate for flat optics, such as anomalous refraction and beam focusing.",

author = "Wenyu Zhao and Huan Jiang and Bingyi Liu and Jie Song and Yongyuan Jiang",

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AU - Zhao, Wenyu

AU - Jiang, Huan

AU - Liu, Bingyi

AU - Song, Jie

AU - Jiang, Yongyuan

PY - 2016/5/2

Y1 - 2016/5/2

N2 - Conventional geometric metasurfaces relying on space-variant metal antennas for beam manipulation suffer from strong Ohmic loss and incomplete polarization conversion. The efficiency is often limited to rather small values, especially when operating in transmission mode. Here, we tackle this challenge by deliberately constructing an equivalent sheet with anisotropic surface electric and magnetic polarizabilities using cross-shaped dielectric antennas. An incident circularly polarized light can be almost fully converted to a transmitted light of opposite helicity with an unprecedented efficiency up to 98%. Such a transmissive metasurface possessing the merits of high-efficiency, non-dispersion, and robust against variations can serve as an outstanding candidate for flat optics, such as anomalous refraction and beam focusing.

AB - Conventional geometric metasurfaces relying on space-variant metal antennas for beam manipulation suffer from strong Ohmic loss and incomplete polarization conversion. The efficiency is often limited to rather small values, especially when operating in transmission mode. Here, we tackle this challenge by deliberately constructing an equivalent sheet with anisotropic surface electric and magnetic polarizabilities using cross-shaped dielectric antennas. An incident circularly polarized light can be almost fully converted to a transmitted light of opposite helicity with an unprecedented efficiency up to 98%. Such a transmissive metasurface possessing the merits of high-efficiency, non-dispersion, and robust against variations can serve as an outstanding candidate for flat optics, such as anomalous refraction and beam focusing.

UR - https://www.scopus.com/pages/publications/84973369464

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DO - 10.1063/1.4948518

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SN - 0003-6951

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JO - Applied Physics Letters

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ER -

High-efficiency beam manipulation combining geometric phase with anisotropic Huygens surface

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