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Metadevice of three dimensional split ring resonators

Metadevice of three dimensional split ring resonators
Metadevice of three dimensional split ring resonators
Split-ring resonator (SRR), a kind of building block for metamaterial unit cell, has attracted wide attentions due to the resonance excitation of electric and magnetic dipolar response. Here, different from prior published lectures, fundamental plasmon properties and potential applications in novel three dimensional vertical split-ring resonators (VSRRs ) are designed and investigated. The resonant properties arose from the electric and magnetic interactions between the VSRR s and light are firstly theoretically and experimentally studied (Fig. 1(a)). Tuning the configuration of VSRR unit cells is able to generate various novel coupling phenomena in VSRRs, such as plasmon hybridization and Fano resonance, as shown in Figs. 1(b) and 1(c) . Subsequently, the VSRR-based refractive-index sensor will be demonstrated. Due to the unique structural configuration, the enhanced plasmon fields localized in VSRR gaps can be lifted off from the dielectric substrate, allowing for the increase of sensing volume and enhancing the sensitivity (Fig. 1(d)) . We further perform a VSRR based metasurface for light manipulation in optical communication frequency, as shown in Fig. 1(e). Moreover, isotropic VSRRs are approached by optimizing the structural arrangement within a unit cell (Fig. 1(f)). Figure 1(g) shows the schematic for isotropic VSRR-based perfect absorber. By incorporating a metallic mirror with isotropic VSRRs, a stronger field confinement happens to enhance the absorption ability, benefitting the development of refractive index sensor. Finally, a transverse toroidal moment generated by normal incident optical wave at gold dumbbell-shaped aperture and a VSRR is designed and experimentally demonstrated , as shown in Fig. 1(h).
Wu, P.C.
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Liao, C.Y.
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Tsai, W.Y.
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Chen, M.K.
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Chu, C.H.
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Wu, H.
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Wang, H.C.
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Sun, G.
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Liu, A.Q.
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Zheludev, N.I.
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Tsai, D.P.
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Wu, P.C.
eec3ecd5-e90b-432a-922d-c6adf0b70b66
Liao, C.Y.
dac84f98-82c5-41d8-94d7-9da03c2ed047
Tsai, W.Y.
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Chen, M.K.
8429a3c0-2b49-4198-8a4f-502a8f2cc2e0
Chu, C.H.
a50028dd-0df2-4a67-87d3-4286c646a741
Wu, H.
bd3d9722-7733-4f80-bcfe-1e736a050d16
Wang, H.C.
93ba8073-bc97-42e9-aa89-ecf483313872
Sun, G.
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Liu, A.Q.
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Zheludev, N.I.
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Tsai, D.P.
ac188460-c076-41ee-bce4-7aa873f757e3

Wu, P.C., Liao, C.Y., Tsai, W.Y., Chen, M.K., Chu, C.H., Wu, H., Wang, H.C., Sun, G., Liu, A.Q., Zheludev, N.I. and Tsai, D.P. (2017) Metadevice of three dimensional split ring resonators. 6th International Topical Meeting on Nanophotonics and Metamaterials (NanoMeta 2017), Tirol, Seefeld, Austria. 04 - 07 Jan 2017.

Record type: Conference or Workshop Item (Other)

Abstract

Split-ring resonator (SRR), a kind of building block for metamaterial unit cell, has attracted wide attentions due to the resonance excitation of electric and magnetic dipolar response. Here, different from prior published lectures, fundamental plasmon properties and potential applications in novel three dimensional vertical split-ring resonators (VSRRs ) are designed and investigated. The resonant properties arose from the electric and magnetic interactions between the VSRR s and light are firstly theoretically and experimentally studied (Fig. 1(a)). Tuning the configuration of VSRR unit cells is able to generate various novel coupling phenomena in VSRRs, such as plasmon hybridization and Fano resonance, as shown in Figs. 1(b) and 1(c) . Subsequently, the VSRR-based refractive-index sensor will be demonstrated. Due to the unique structural configuration, the enhanced plasmon fields localized in VSRR gaps can be lifted off from the dielectric substrate, allowing for the increase of sensing volume and enhancing the sensitivity (Fig. 1(d)) . We further perform a VSRR based metasurface for light manipulation in optical communication frequency, as shown in Fig. 1(e). Moreover, isotropic VSRRs are approached by optimizing the structural arrangement within a unit cell (Fig. 1(f)). Figure 1(g) shows the schematic for isotropic VSRR-based perfect absorber. By incorporating a metallic mirror with isotropic VSRRs, a stronger field confinement happens to enhance the absorption ability, benefitting the development of refractive index sensor. Finally, a transverse toroidal moment generated by normal incident optical wave at gold dumbbell-shaped aperture and a VSRR is designed and experimentally demonstrated , as shown in Fig. 1(h).

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Accepted/In Press date: 18 November 2016
e-pub ahead of print date: 4 January 2017
Venue - Dates: 6th International Topical Meeting on Nanophotonics and Metamaterials (NanoMeta 2017), Tirol, Seefeld, Austria, 2017-01-04 - 2017-01-07
Organisations: Optoelectronics Research Centre

Identifiers

Local EPrints ID: 405449
URI: http://eprints.soton.ac.uk/id/eprint/405449
PURE UUID: d6e4daf0-9c65-456c-9cdd-7e9e2e1c492d
ORCID for N.I. Zheludev: ORCID iD orcid.org/0000-0002-1013-6636

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Date deposited: 03 Feb 2017 16:22
Last modified: 16 Mar 2024 02:43

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Contributors

Author: P.C. Wu
Author: C.Y. Liao
Author: W.Y. Tsai
Author: M.K. Chen
Author: C.H. Chu
Author: H. Wu
Author: H.C. Wang
Author: G. Sun
Author: A.Q. Liu
Author: N.I. Zheludev ORCID iD
Author: D.P. Tsai

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