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A flat lens with tunable phase gradient by using random access reconfigurable metamaterial

A flat lens with tunable phase gradient by using random access reconfigurable metamaterial
A flat lens with tunable phase gradient by using random access reconfigurable metamaterial
The first demonstration of an optofluidic metamaterial is reported where resonant properties of every individual metamolecule can be continuously tuned at will using a microfluidic system. This is called a random-access reconfigurable metamaterial, which is used to provide the first demonstration of a tunable flat lens with wavefront-reshaping capabilities.
1521-4095
4739-4743
Zhu, W.M.
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Song, Q.H.
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Yan, B.L.
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Zhang, W.
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Wu, P.C.
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Chin, L.K.
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Cai, H.
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Tsai, D.P.
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Shen, Z.X.
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Deng, T.W.
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Ting, S.K.
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Gu, Y.D.
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Lo, G.Q.
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Kwong, D.L.
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Yang, Z.C.
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Huang, R.
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Liu, A.Q.
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Zheludev, N.I.
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Zhu, W.M.
e170dfcf-121f-48ff-8a3a-211f4521c051
Song, Q.H.
aa7c9165-c6f3-4f4c-b647-748661e87611
Yan, B.L.
fe39c0b8-a959-4556-9092-43a621b2103e
Zhang, W.
1c80d4f2-4ba8-41f6-85a6-a76a4d65dc9b
Wu, P.C.
eec3ecd5-e90b-432a-922d-c6adf0b70b66
Chin, L.K.
d742ce36-11ba-4618-9ce5-cb7301dcafb6
Cai, H.
b50ecca5-ee0a-4778-94b6-598959608574
Tsai, D.P.
ac188460-c076-41ee-bce4-7aa873f757e3
Shen, Z.X.
b08ee537-c8bc-4c7d-beda-c177b51bcc52
Deng, T.W.
1f45e433-db1a-4bde-a22d-09f470c09843
Ting, S.K.
5bd9d490-55b1-4ec1-b74c-29b588ce721f
Gu, Y.D.
23a8beb2-f22e-4142-a888-20027bb6f97f
Lo, G.Q.
19836cca-596c-4575-92df-b63c7169189c
Kwong, D.L.
9c0450a2-945d-4e3f-b7c4-94e0d18f9c8a
Yang, Z.C.
88d4549d-8146-4014-8ea6-7bbddfa9783f
Huang, R.
6f358ca8-2c2c-4867-914d-f25d9021e6ef
Liu, A.Q.
b1a9be75-8e2d-4e6c-8fcf-f532a7a83d71
Zheludev, N.I.
32fb6af7-97e4-4d11-bca6-805745e40cc6

Zhu, W.M., Song, Q.H., Yan, B.L., Zhang, W., Wu, P.C., Chin, L.K., Cai, H., Tsai, D.P., Shen, Z.X., Deng, T.W., Ting, S.K., Gu, Y.D., Lo, G.Q., Kwong, D.L., Yang, Z.C., Huang, R., Liu, A.Q. and Zheludev, N.I. (2015) A flat lens with tunable phase gradient by using random access reconfigurable metamaterial. Advanced Materials, 27 (32), 4739-4743. (doi:10.1002/adma.201501943).

Record type: Article

Abstract

The first demonstration of an optofluidic metamaterial is reported where resonant properties of every individual metamolecule can be continuously tuned at will using a microfluidic system. This is called a random-access reconfigurable metamaterial, which is used to provide the first demonstration of a tunable flat lens with wavefront-reshaping capabilities.

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Accepted/In Press date: 3 June 2015
e-pub ahead of print date: 16 July 2015
Organisations: Optoelectronics Research Centre
Learn more about Optoelectronics Research Centre research

Identifiers

Local EPrints ID: 381210
URI: http://eprints.soton.ac.uk/id/eprint/381210
DOI: doi:10.1002/adma.201501943
ISSN: 1521-4095
PURE UUID: 763b1083-a737-4e13-91d5-d12c3609730e
ORCID for N.I. Zheludev: ORCID iD orcid.org/0000-0002-1013-6636

Catalogue record

Date deposited: 01 Oct 2015 08:11
Last modified: 15 Mar 2024 02:45

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Contributors

Author: W.M. Zhu
Author: Q.H. Song
Author: B.L. Yan
Author: W. Zhang
Author: P.C. Wu
Author: L.K. Chin
Author: H. Cai
Author: D.P. Tsai
Author: Z.X. Shen
Author: T.W. Deng
Author: S.K. Ting
Author: Y.D. Gu
Author: G.Q. Lo
Author: D.L. Kwong
Author: Z.C. Yang
Author: R. Huang
Author: A.Q. Liu
Author: N.I. Zheludev ORCID iD

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