Optofluidic Control of Colours with Metasurfaces

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

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  • King's College London
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OriginalspracheEnglisch
Titel des Sammelwerks17th International Congress on Artificial Materials for Novel Wave Phenomena
UntertitelMetamaterials 2023
Herausgeber (Verlag)Institute of Electrical and Electronics Engineers Inc.
Seiten448-449
Seitenumfang2
ISBN (elektronisch)9798350332445
ISBN (Print)979-8-3503-3245-2
PublikationsstatusVeröffentlicht - 2023
Veranstaltung17th International Congress on Artificial Materials for Novel Wave Phenomena, Metamaterials 2023 - Crete, Griechenland
Dauer: 11 Sept. 202316 Sept. 2023

Abstract

We demonstrate theoretically and experimentally dynamic tuning of optical response of dielectric metasurfaces based on the high-sensitivity of surface lattice resonances to their surrounding environment. This tuneability is achieved by controlling a dielectric permittivity contrast between the substrate and the superstrate, which leads to two different tuning mechanisms: a spectral shift or an on/off switching of surface lattice resonances. Experimentally, we demonstrate this tuning using an optofluidic platform combining a silicon metasurface on a glass substrate and a variable water level to control the refractive index of the superstrate and show a dynamic change of the optical response of the metasurface, manifested through change of its colouring. This concept may be applied for various applications, including high-resolution dynamic displays, sensing and anticounterfeiting protection.

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Optofluidic Control of Colours with Metasurfaces. / Roth, Diane J.; Allayarov, Izzatjon; Evlyukhin, Andrey et al.
17th International Congress on Artificial Materials for Novel Wave Phenomena: Metamaterials 2023. Institute of Electrical and Electronics Engineers Inc., 2023. S. 448-449.

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Roth, DJ, Allayarov, I, Evlyukhin, A, Chichkov, B, Calà Lesina, A & Zayats, AV 2023, Optofluidic Control of Colours with Metasurfaces. in 17th International Congress on Artificial Materials for Novel Wave Phenomena: Metamaterials 2023. Institute of Electrical and Electronics Engineers Inc., S. 448-449, 17th International Congress on Artificial Materials for Novel Wave Phenomena, Metamaterials 2023, Crete, Griechenland, 11 Sept. 2023. https://doi.org/10.1109/Metamaterials58257.2023.10289626
Roth, D. J., Allayarov, I., Evlyukhin, A., Chichkov, B., Calà Lesina, A., & Zayats, A. V. (2023). Optofluidic Control of Colours with Metasurfaces. In 17th International Congress on Artificial Materials for Novel Wave Phenomena: Metamaterials 2023 (S. 448-449). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/Metamaterials58257.2023.10289626
Roth DJ, Allayarov I, Evlyukhin A, Chichkov B, Calà Lesina A, Zayats AV. Optofluidic Control of Colours with Metasurfaces. in 17th International Congress on Artificial Materials for Novel Wave Phenomena: Metamaterials 2023. Institute of Electrical and Electronics Engineers Inc. 2023. S. 448-449 doi: 10.1109/Metamaterials58257.2023.10289626
Roth, Diane J. ; Allayarov, Izzatjon ; Evlyukhin, Andrey et al. / Optofluidic Control of Colours with Metasurfaces. 17th International Congress on Artificial Materials for Novel Wave Phenomena: Metamaterials 2023. Institute of Electrical and Electronics Engineers Inc., 2023. S. 448-449
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title = "Optofluidic Control of Colours with Metasurfaces",
abstract = "We demonstrate theoretically and experimentally dynamic tuning of optical response of dielectric metasurfaces based on the high-sensitivity of surface lattice resonances to their surrounding environment. This tuneability is achieved by controlling a dielectric permittivity contrast between the substrate and the superstrate, which leads to two different tuning mechanisms: a spectral shift or an on/off switching of surface lattice resonances. Experimentally, we demonstrate this tuning using an optofluidic platform combining a silicon metasurface on a glass substrate and a variable water level to control the refractive index of the superstrate and show a dynamic change of the optical response of the metasurface, manifested through change of its colouring. This concept may be applied for various applications, including high-resolution dynamic displays, sensing and anticounterfeiting protection.",
author = "Roth, {Diane J.} and Izzatjon Allayarov and Andrey Evlyukhin and Boris Chichkov and {Cal{\`a} Lesina}, Antonio and Zayats, {Anatoly V.}",
note = "Funding Information: This work was supported, in part, by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) under Germany{\textquoteright}s Excellence Strategy within the Cluster of Excellence PhoenixD (EXC 2122, Project ID 390833453), Alexander von Humboldt Foundation, the ERC iCOMM project (789340) and the UK EPSRC project EP/W017075/1. The authors acknowledge Cornerstone for the help in sample fabrication. ; 17th International Congress on Artificial Materials for Novel Wave Phenomena, Metamaterials 2023 ; Conference date: 11-09-2023 Through 16-09-2023",
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Download

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T1 - Optofluidic Control of Colours with Metasurfaces

AU - Roth, Diane J.

AU - Allayarov, Izzatjon

AU - Evlyukhin, Andrey

AU - Chichkov, Boris

AU - Calà Lesina, Antonio

AU - Zayats, Anatoly V.

N1 - Funding Information: This work was supported, in part, by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) under Germany’s Excellence Strategy within the Cluster of Excellence PhoenixD (EXC 2122, Project ID 390833453), Alexander von Humboldt Foundation, the ERC iCOMM project (789340) and the UK EPSRC project EP/W017075/1. The authors acknowledge Cornerstone for the help in sample fabrication.

PY - 2023

Y1 - 2023

N2 - We demonstrate theoretically and experimentally dynamic tuning of optical response of dielectric metasurfaces based on the high-sensitivity of surface lattice resonances to their surrounding environment. This tuneability is achieved by controlling a dielectric permittivity contrast between the substrate and the superstrate, which leads to two different tuning mechanisms: a spectral shift or an on/off switching of surface lattice resonances. Experimentally, we demonstrate this tuning using an optofluidic platform combining a silicon metasurface on a glass substrate and a variable water level to control the refractive index of the superstrate and show a dynamic change of the optical response of the metasurface, manifested through change of its colouring. This concept may be applied for various applications, including high-resolution dynamic displays, sensing and anticounterfeiting protection.

AB - We demonstrate theoretically and experimentally dynamic tuning of optical response of dielectric metasurfaces based on the high-sensitivity of surface lattice resonances to their surrounding environment. This tuneability is achieved by controlling a dielectric permittivity contrast between the substrate and the superstrate, which leads to two different tuning mechanisms: a spectral shift or an on/off switching of surface lattice resonances. Experimentally, we demonstrate this tuning using an optofluidic platform combining a silicon metasurface on a glass substrate and a variable water level to control the refractive index of the superstrate and show a dynamic change of the optical response of the metasurface, manifested through change of its colouring. This concept may be applied for various applications, including high-resolution dynamic displays, sensing and anticounterfeiting protection.

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U2 - 10.1109/Metamaterials58257.2023.10289626

DO - 10.1109/Metamaterials58257.2023.10289626

M3 - Conference contribution

AN - SCOPUS:85177574021

SN - 979-8-3503-3245-2

SP - 448

EP - 449

BT - 17th International Congress on Artificial Materials for Novel Wave Phenomena

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 17th International Congress on Artificial Materials for Novel Wave Phenomena, Metamaterials 2023

Y2 - 11 September 2023 through 16 September 2023

ER -

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