The principle and research progress of metasurfaces

Tian You Li; Ling Ling Huang; Yong Tian Wang

doi:10.3788/CO.20171005.0523

The principle and research progress of metasurfaces

Tian You Li, Ling Ling Huang^*, Yong Tian Wang

^*Corresponding author for this work

School of Optics and Photonics

Beijing Institute of Technology

Research output: Contribution to journal › Review article › peer-review

9 Citations (Scopus)

Abstract

Metasurfaces, a specific type of subwavelength-scale two-dimensional(2D) array, have shown great flexibilities to control the light field. Metasurfaces possess the unique advantages of ultrathin, low-loss and easy fabrication, therefore attract immense attentions and show broad prospects for applications. This paper reviews recent progress in the physics of metasurfaces and the applications for generalized refraction and reflection, polarization conversion, controlling the orbit angular moment of light and computer generated holography(CGH). Due to the extra design freedom and powerful functionality, metasurfaces allow the possibility to substitute the conventional optical components in a variety of applications. In the future, novel types of metasurfaces with broadband, high efficiency, multi-task and active tunability are still highly desired and of great value.

Original language	English
Pages (from-to)	523-540
Number of pages	18
Journal	Chinese Optics
Volume	10
Issue number	5
DOIs	https://doi.org/10.3788/CO.20171005.0523
Publication status	Published - 1 Oct 2017

Keywords

Computer generated holography(CGH)
Metasurface
Orbit angular momentum
Polarization conversion

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abstract = "Metasurfaces, a specific type of subwavelength-scale two-dimensional(2D) array, have shown great flexibilities to control the light field. Metasurfaces possess the unique advantages of ultrathin, low-loss and easy fabrication, therefore attract immense attentions and show broad prospects for applications. This paper reviews recent progress in the physics of metasurfaces and the applications for generalized refraction and reflection, polarization conversion, controlling the orbit angular moment of light and computer generated holography(CGH). Due to the extra design freedom and powerful functionality, metasurfaces allow the possibility to substitute the conventional optical components in a variety of applications. In the future, novel types of metasurfaces with broadband, high efficiency, multi-task and active tunability are still highly desired and of great value.",

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T1 - The principle and research progress of metasurfaces

AU - Li, Tian You

AU - Huang, Ling Ling

AU - Wang, Yong Tian

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N2 - Metasurfaces, a specific type of subwavelength-scale two-dimensional(2D) array, have shown great flexibilities to control the light field. Metasurfaces possess the unique advantages of ultrathin, low-loss and easy fabrication, therefore attract immense attentions and show broad prospects for applications. This paper reviews recent progress in the physics of metasurfaces and the applications for generalized refraction and reflection, polarization conversion, controlling the orbit angular moment of light and computer generated holography(CGH). Due to the extra design freedom and powerful functionality, metasurfaces allow the possibility to substitute the conventional optical components in a variety of applications. In the future, novel types of metasurfaces with broadband, high efficiency, multi-task and active tunability are still highly desired and of great value.

AB - Metasurfaces, a specific type of subwavelength-scale two-dimensional(2D) array, have shown great flexibilities to control the light field. Metasurfaces possess the unique advantages of ultrathin, low-loss and easy fabrication, therefore attract immense attentions and show broad prospects for applications. This paper reviews recent progress in the physics of metasurfaces and the applications for generalized refraction and reflection, polarization conversion, controlling the orbit angular moment of light and computer generated holography(CGH). Due to the extra design freedom and powerful functionality, metasurfaces allow the possibility to substitute the conventional optical components in a variety of applications. In the future, novel types of metasurfaces with broadband, high efficiency, multi-task and active tunability are still highly desired and of great value.

KW - Computer generated holography(CGH)

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KW - Orbit angular momentum

KW - Polarization conversion

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JO - Chinese Optics

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The principle and research progress of metasurfaces

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Keywords

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