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Metamaterials: from 3D plasmonic nanostructure to reflective metasurface

Metamaterials: from 3D plasmonic nanostructure to reflective metasurface

Metamaterials: from 3D plasmonic nanostructure to reflective metasurface

Manipulating light is highly desired in photonics research. Restricted by the variable range of permittivity for natural materials, conventional photonic elements are often optically thick and their light-manipulation abilities are quite limited by chemical composition. Plasmonic metamaterials are artificial composite by sub-wavelength local resonance structures of electric and/or magnetic type with novel electromagnetic property such as negative refraction and perfect lens, etc. [1, 2]. Recently, ultra-thin metasurfaces with abrupt-varying material properties provided by the geometries of metallic nanostructures on the interface were found to exhibit boardband light-manipulation abilities [3- 5].

10.1364/JSAP.2014.19a_C3_1

Optical Society of America

Chen, Wei Ting

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Huang, Yao-Wei

f4ed558b-509d-476a-b114-8eb1beec2f02

Wu, Pin Chieh

1d63065a-5d41-4599-bca2-23bbf05ae42f

Liao, Chun Yen

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Yang, Kuang-Yu

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Lin, Hao-Tsun

73a5d306-e6f1-4b89-b7dd-8730660f51da

Fedotov, Vassili

3725f5cc-2d0b-4e61-95c5-26d187c84f25

Sun, Greg

b5ac4a68-f0ae-4ab5-82a1-40c7402fdf37

Sun, V.

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Zhou, Lei

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Liu, Ai Qun

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Zheludev, Nikolay I.

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Tsai, Din Ping

29dbf01e-c22a-45a5-95b3-839a185d1779

17 September 2014

Chen, Wei Ting

a10d22f3-d9cc-4769-8e16-d04ee6f33dd3

Huang, Yao-Wei

f4ed558b-509d-476a-b114-8eb1beec2f02

Wu, Pin Chieh

1d63065a-5d41-4599-bca2-23bbf05ae42f

Liao, Chun Yen

ace43f43-2ea7-4e57-9555-58555103859d

Yang, Kuang-Yu

07cb5a85-7d72-483d-956a-4b02362aedfb

Lin, Hao-Tsun

73a5d306-e6f1-4b89-b7dd-8730660f51da

Fedotov, Vassili

3725f5cc-2d0b-4e61-95c5-26d187c84f25

Sun, Greg

b5ac4a68-f0ae-4ab5-82a1-40c7402fdf37

Sun, V.

2b1eff71-9ece-4287-9e66-9702d3062b0b

Zhou, Lei

d8928e7f-b950-4b2d-9480-5b80c9a75163

Liu, Ai Qun

408a2bbb-a924-41b9-ae75-54997e861c1e

Zheludev, Nikolay I.

32fb6af7-97e4-4d11-bca6-805745e40cc6

Tsai, Din Ping

29dbf01e-c22a-45a5-95b3-839a185d1779

Chen, Wei Ting, Huang, Yao-Wei, Wu, Pin Chieh, Liao, Chun Yen, Yang, Kuang-Yu, Lin, Hao-Tsun, Fedotov, Vassili, Sun, Greg, Sun, V., Zhou, Lei, Liu, Ai Qun, Zheludev, Nikolay I. and Tsai, Din Ping (2014) Metamaterials: from 3D plasmonic nanostructure to reflective metasurface. In JSAP-OSA Joint Symposia 2014. Optical Society of America.. (doi:10.1364/JSAP.2014.19a_C3_1).

Record type: Conference or Workshop Item (Paper)

Abstract

Manipulating light is highly desired in photonics research. Restricted by the variable range of permittivity for natural materials, conventional photonic elements are often optically thick and their light-manipulation abilities are quite limited by chemical composition. Plasmonic metamaterials are artificial composite by sub-wavelength local resonance structures of electric and/or magnetic type with novel electromagnetic property such as negative refraction and perfect lens, etc. [1, 2]. Recently, ultra-thin metasurfaces with abrupt-varying material properties provided by the geometries of metallic nanostructures on the interface were found to exhibit boardband light-manipulation abilities [3- 5].

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More information

Published date: 17 September 2014

Venue - Dates: JSAP-OSA Joint Symposia 2014, , Sapporo, Hokkaido, Japan, 2014-09-17 - 2014-09-20

Learn more about Optoelectronics Research Centre research

Identifiers

Local EPrints ID: 442799

URI: http://eprints.soton.ac.uk/id/eprint/442799

DOI: doi:10.1364/JSAP.2014.19a_C3_1

PURE UUID: a6299bd4-c44b-4ee9-bd5a-c1c634f508b7

ORCID for Nikolay I. Zheludev:

orcid.org/0000-0002-1013-6636

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Date deposited: 27 Jul 2020 16:31

Last modified: 17 Mar 2024 02:38

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Contributors

Author: Wei Ting Chen

Author: Yao-Wei Huang

Author: Pin Chieh Wu

Author: Chun Yen Liao

Author: Kuang-Yu Yang

Author: Hao-Tsun Lin

Author: Vassili Fedotov

Author: Greg Sun

Author: V. Sun

Author: Lei Zhou

Author: Ai Qun Liu

Author: Nikolay I. Zheludev

Author: Din Ping Tsai

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