MEMS-integrated metasurfaces for dynamic linear polarizers

Yadong Deng; Chao Meng; Paul C.V. Thrane; Sören Im Sande; Sergey I. Bozhevolnyi; Fei Ding

doi:10.1364/OPTICA.515524

MEMS-integrated metasurfaces for dynamic linear polarizers

Yadong Deng, Chao Meng, Paul C.V. Thrane, Sören Im Sande, Sergey I. Bozhevolnyi, Fei Ding^*

^*Corresponding author for this work

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Abstract

Optical metasurfaces (OMSs), planar arrays of meticulously designed meta-atoms, are renowned for remarkable capabilities in manipulating the polarization state of light at subwavelength scales. Nevertheless, most OMS-empowered polarization optics remain static, featuringwell-defined optical responses determined by their configurations set during fabrication. Here, we demonstrate a MEMS-OMS-based dynamic linear polarizer (DLP) with an electrically controlled extinction ratio, which is tunable in a fast and reversible fashion, by combining an anisotropic plasmonic OMS with a thin-film piezoelectric MEMS mirror. Capitalizing on the MEMS-OMS DLP, we further implement voltage-controlled grayscale imaging and vector vortex beam generation under linearly and circularly polarized excitations, respectively. Our MEMS-OMS DLP design could enable adaptive photonic systems for advanced applications in optical image encryption, displays, and beyond.

Original language	English
Journal	Optica
Volume	11
Issue number	3
Pages (from-to)	326-332
ISSN	2334-2536
DOIs	https://doi.org/10.1364/OPTICA.515524
Publication status	Published - Mar 2024

Bibliographical note

Publisher Copyright:
© 2024 Optica Publishing Group.

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10.1364/OPTICA.515524Licence: Other

Open Access VersionFinal published version, 32 MBLicence: Other

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2 Ph.D. thesis

Shaping Classical and Quantum Light with Gap-Surface Plasmonic Metasurfaces
im Sande, S., 19. Mar 2025, Syddansk Universitet. Det Tekniske Fakultet. 103 p.
Research output: Thesis › Ph.D. thesis

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Plasmonic Optical Metasurfaces for Passive and Active Wavefront Shaping
Deng, Y., 16. Sept 2024, Syddansk Universitet. Det Tekniske Fakultet. 227 p.
Research output: Thesis › Ph.D. thesis

Open Access
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2 Active

Quantum metasurface: a novel platform for generating and manipulating single photons
Ding, F. (PI)
01/01/2021 → 31/12/2025
Project: Research
Tunable vortex lasers triggered by dynamic metasurfaces
Meng, C. (PI), Wang, C. (Student Assistant) & Kan, Y. (Postdoc)
01/03/2023 → 31/08/2025
Project: Private Foundations

Cite this

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title = "MEMS-integrated metasurfaces for dynamic linear polarizers",

abstract = "Optical metasurfaces (OMSs), planar arrays of meticulously designed meta-atoms, are renowned for remarkable capabilities in manipulating the polarization state of light at subwavelength scales. Nevertheless, most OMS-empowered polarization optics remain static, featuringwell-defined optical responses determined by their configurations set during fabrication. Here, we demonstrate a MEMS-OMS-based dynamic linear polarizer (DLP) with an electrically controlled extinction ratio, which is tunable in a fast and reversible fashion, by combining an anisotropic plasmonic OMS with a thin-film piezoelectric MEMS mirror. Capitalizing on the MEMS-OMS DLP, we further implement voltage-controlled grayscale imaging and vector vortex beam generation under linearly and circularly polarized excitations, respectively. Our MEMS-OMS DLP design could enable adaptive photonic systems for advanced applications in optical image encryption, displays, and beyond.",

author = "Yadong Deng and Chao Meng and Thrane, {Paul C.V.} and Sande, {S{\"o}ren Im} and Bozhevolnyi, {Sergey I.} and Fei Ding",

note = "Publisher Copyright: {\textcopyright} 2024 Optica Publishing Group.",

year = "2024",

month = mar,

doi = "10.1364/OPTICA.515524",

language = "English",

volume = "11",

pages = "326--332",

journal = "Optica",

issn = "2334-2536",

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TY - JOUR

T1 - MEMS-integrated metasurfaces for dynamic linear polarizers

AU - Deng, Yadong

AU - Meng, Chao

AU - Thrane, Paul C.V.

AU - Sande, Sören Im

AU - Bozhevolnyi, Sergey I.

AU - Ding, Fei

PY - 2024/3

Y1 - 2024/3

N2 - Optical metasurfaces (OMSs), planar arrays of meticulously designed meta-atoms, are renowned for remarkable capabilities in manipulating the polarization state of light at subwavelength scales. Nevertheless, most OMS-empowered polarization optics remain static, featuringwell-defined optical responses determined by their configurations set during fabrication. Here, we demonstrate a MEMS-OMS-based dynamic linear polarizer (DLP) with an electrically controlled extinction ratio, which is tunable in a fast and reversible fashion, by combining an anisotropic plasmonic OMS with a thin-film piezoelectric MEMS mirror. Capitalizing on the MEMS-OMS DLP, we further implement voltage-controlled grayscale imaging and vector vortex beam generation under linearly and circularly polarized excitations, respectively. Our MEMS-OMS DLP design could enable adaptive photonic systems for advanced applications in optical image encryption, displays, and beyond.

AB - Optical metasurfaces (OMSs), planar arrays of meticulously designed meta-atoms, are renowned for remarkable capabilities in manipulating the polarization state of light at subwavelength scales. Nevertheless, most OMS-empowered polarization optics remain static, featuringwell-defined optical responses determined by their configurations set during fabrication. Here, we demonstrate a MEMS-OMS-based dynamic linear polarizer (DLP) with an electrically controlled extinction ratio, which is tunable in a fast and reversible fashion, by combining an anisotropic plasmonic OMS with a thin-film piezoelectric MEMS mirror. Capitalizing on the MEMS-OMS DLP, we further implement voltage-controlled grayscale imaging and vector vortex beam generation under linearly and circularly polarized excitations, respectively. Our MEMS-OMS DLP design could enable adaptive photonic systems for advanced applications in optical image encryption, displays, and beyond.

U2 - 10.1364/OPTICA.515524

DO - 10.1364/OPTICA.515524

M3 - Journal article

AN - SCOPUS:85188672367

SN - 2334-2536

VL - 11

SP - 326

EP - 332

JO - Optica

JF - Optica

IS - 3

ER -

MEMS-integrated metasurfaces for dynamic linear polarizers

Abstract

Bibliographical note

Documents & Links

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Related research output

Shaping Classical and Quantum Light with Gap-Surface Plasmonic Metasurfaces

Plasmonic Optical Metasurfaces for Passive and Active Wavefront Shaping

Related projects

Quantum metasurface: a novel platform for generating and manipulating single photons

Tunable vortex lasers triggered by dynamic metasurfaces

Cite this