Recent Progress on Ultrathin Metalenses for Flat Optics

Seong Won Moon; Yeseul Kim; Gwanho Yoon; Junsuk Rho

doi:10.1016/j.isci.2020.101877

Recent Progress on Ultrathin Metalenses for Flat Optics

Seong Won Moon, Yeseul Kim, Gwanho Yoon, Junsuk Rho

Dept. of Manufacturing Systems and Design Engineering

Pohang University of Science and Technology

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

71 Scopus citations

Abstract

As technology advances, electrical devices such as smartphones have become more and more compact, leading to a demand for the continuous miniaturization of optical components. Metalenses, ultrathin flat optical elements composed of metasurfaces consisting of arrays of subwavelength optical antennas, provide a method of meeting those requirements. Moreover, metalenses have many other distinctive advantages including aberration correction, active tunability, and semi-transparency, compared to their conventional refractive and diffractive counterparts. Therefore, over the last decade, great effort has been focused on developing metalenses to investigate and broaden the capabilities of metalenses for integration into future applications. Here, we discuss recent progress on metalenses including their basic design principles and notable characteristics such as aberration correction, tunability, and multifunctionality.

Original language	English
Article number	101877
Journal	iScience
Volume	23
Issue number	12
DOIs	https://doi.org/10.1016/j.isci.2020.101877
State	Published - 18 Dec 2020

Keywords

Metamaterials
Optical Imaging
Optical Materials
Optical Physics

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10.1016/j.isci.2020.101877

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title = "Recent Progress on Ultrathin Metalenses for Flat Optics",

abstract = "As technology advances, electrical devices such as smartphones have become more and more compact, leading to a demand for the continuous miniaturization of optical components. Metalenses, ultrathin flat optical elements composed of metasurfaces consisting of arrays of subwavelength optical antennas, provide a method of meeting those requirements. Moreover, metalenses have many other distinctive advantages including aberration correction, active tunability, and semi-transparency, compared to their conventional refractive and diffractive counterparts. Therefore, over the last decade, great effort has been focused on developing metalenses to investigate and broaden the capabilities of metalenses for integration into future applications. Here, we discuss recent progress on metalenses including their basic design principles and notable characteristics such as aberration correction, tunability, and multifunctionality.",

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AU - Moon, Seong Won

AU - Kim, Yeseul

AU - Yoon, Gwanho

AU - Rho, Junsuk

PY - 2020/12/18

Y1 - 2020/12/18

N2 - As technology advances, electrical devices such as smartphones have become more and more compact, leading to a demand for the continuous miniaturization of optical components. Metalenses, ultrathin flat optical elements composed of metasurfaces consisting of arrays of subwavelength optical antennas, provide a method of meeting those requirements. Moreover, metalenses have many other distinctive advantages including aberration correction, active tunability, and semi-transparency, compared to their conventional refractive and diffractive counterparts. Therefore, over the last decade, great effort has been focused on developing metalenses to investigate and broaden the capabilities of metalenses for integration into future applications. Here, we discuss recent progress on metalenses including their basic design principles and notable characteristics such as aberration correction, tunability, and multifunctionality.

AB - As technology advances, electrical devices such as smartphones have become more and more compact, leading to a demand for the continuous miniaturization of optical components. Metalenses, ultrathin flat optical elements composed of metasurfaces consisting of arrays of subwavelength optical antennas, provide a method of meeting those requirements. Moreover, metalenses have many other distinctive advantages including aberration correction, active tunability, and semi-transparency, compared to their conventional refractive and diffractive counterparts. Therefore, over the last decade, great effort has been focused on developing metalenses to investigate and broaden the capabilities of metalenses for integration into future applications. Here, we discuss recent progress on metalenses including their basic design principles and notable characteristics such as aberration correction, tunability, and multifunctionality.

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KW - Optical Materials

KW - Optical Physics

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Recent Progress on Ultrathin Metalenses for Flat Optics

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Keywords

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