Twofold Polarization‐Selective All‐Dielectric Trifoci Metalens for Linearly Polarized Visible Light

Twofold Polarization‐Selective All‐Dielectric Trifoci Metalens for Linearly Polarized Visible Light

A metasurface that features an exotic ability to arbitrarily manipulate properties of light waves at the subwavelength scale has received a burgeoning amount of interest in the field of photonic multitasking. Unlike the previous multifunctional metasurfaces, which rely on the spatial multiplexing of...

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Bibliographic Details
Published in:Advanced optical materials Vol. 7; no. 21
Main Authors: Gao, Song, Park, Chul‐Soon, Zhou, Changyi, Lee, Sang‐Shin, Choi, Duk‐Yong
Format: Journal Article
Language:English
Published: Weinheim Wiley Subscription Services, Inc 01-11-2019
Subjects:
Amorphous silicon
Crosstalk
dielectric metasurface
Encryption
Holography
Linear polarization
Materials science
multifoci metalens
Multiplexing
Multitasking
Nanorods
optical vortex multiplexing
Optics
Phase control
Photonics
spatial multiplexing metasurface
twofold polarization‐selective metasurface
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Summary:A metasurface that features an exotic ability to arbitrarily manipulate properties of light waves at the subwavelength scale has received a burgeoning amount of interest in the field of photonic multitasking. Unlike the previous multifunctional metasurfaces, which rely on the spatial multiplexing of plasmonic nanorods/nanoapertures with identical dimensions and spatially varying orientations, multiple distinct rectangular‐shaped hydrogenated amorphous silicon nanoposts are tapped into to create a twofold all‐polarization‐controlled trifunctional metasurface. By judiciously interleaving the dielectric nanoposts, of which the lateral widths and angles of orientation can be adjusted to allow for a full 2π‐phase control, the metasurface shows a salient feature to empower triple functionalities by simultaneously tailoring the linear polarization of incident and transmitted light. As a proof of concept, a visible‐frequency trifoci metalens is designed, fabricated, and characterized, from which the three foci at distinct focal planes along the longitudinal direction are successfully attained. Substantially reduced functional crosstalk among different foci is also experimentally validated. The proposed approach is straightforward and thus can lead to the development of a wide array of multifunctional metadevices for diverse optical wave manipulations, such as the multiplexing of optical vortices and various applications in anticounterfeiting, high‐density information encryption, holography, and display. A twofold polarization‐selective all‐dielectric trifoci metalens consisting of multiple distinct rectangular‐shaped hydrogenated amorphous silicon (a‐Si:H) nanoposts with modulated size, orientation angle, and position, is proposed and developed to enable the focusing of visible light at three distinct focal positions by simultaneously controlling the linear polarization states of both incident and transmitted light.
ISSN:2195-1071
2195-1071
DOI:10.1002/adom.201900883