Scattering control using metasurfaces for objects beyond the quasi-static limit

Zhi Hao Jiang; Douglas H. Werner

Scattering control using metasurfaces for objects beyond the quasi-static limit

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

In this paper, we present a methodology for manipulating the scattering signature of an object using a single layer ultrathin metasurface. In contrast to previous work on metasurface cloaks where isotropic impedance surfaces have been considered, the metasurface coating considered here has both non-vanishing tangential and radial responses. As a result, its anisotropy can be engineered to tailor the scattering properties of a coated object with a moderate size beyond the quasi-static limit. As two proof-of-concept examples, near-perfect metasurface-based electromagnetic cloaking and illusion effects will be presented.

Original language	English (US)
Title of host publication	2015 31st International Review of Progress in Applied Computational Electromagnetics, ACES 2015
Publisher	Applied Computational Electromagnetics Society (ACES)
ISBN (Electronic)	9780996007818
State	Published - May 15 2015
Event	31st International Review of Progress in Applied Computational Electromagnetics, ACES 2015 - Williamsburg, United States Duration: Mar 22 2015 → Mar 26 2015

Publication series

Name	Annual Review of Progress in Applied Computational Electromagnetics
Volume	2015-May

Other

Other	31st International Review of Progress in Applied Computational Electromagnetics, ACES 2015
Country/Territory	United States
City	Williamsburg
Period	3/22/15 → 3/26/15

All Science Journal Classification (ASJC) codes

Electrical and Electronic Engineering

Cite this

Jiang, Z. H., & Werner, D. H. (2015). Scattering control using metasurfaces for objects beyond the quasi-static limit. In 2015 31st International Review of Progress in Applied Computational Electromagnetics, ACES 2015 Article 7109667 (Annual Review of Progress in Applied Computational Electromagnetics; Vol. 2015-May). Applied Computational Electromagnetics Society (ACES).

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title = "Scattering control using metasurfaces for objects beyond the quasi-static limit",

abstract = "In this paper, we present a methodology for manipulating the scattering signature of an object using a single layer ultrathin metasurface. In contrast to previous work on metasurface cloaks where isotropic impedance surfaces have been considered, the metasurface coating considered here has both non-vanishing tangential and radial responses. As a result, its anisotropy can be engineered to tailor the scattering properties of a coated object with a moderate size beyond the quasi-static limit. As two proof-of-concept examples, near-perfect metasurface-based electromagnetic cloaking and illusion effects will be presented.",

author = "Jiang, {Zhi Hao} and Werner, {Douglas H.}",

year = "2015",

month = may,

day = "15",

language = "English (US)",

series = "Annual Review of Progress in Applied Computational Electromagnetics",

publisher = "Applied Computational Electromagnetics Society (ACES)",

booktitle = "2015 31st International Review of Progress in Applied Computational Electromagnetics, ACES 2015",

address = "United States",

note = "31st International Review of Progress in Applied Computational Electromagnetics, ACES 2015 ; Conference date: 22-03-2015 Through 26-03-2015",

}

Jiang, ZH & Werner, DH 2015, Scattering control using metasurfaces for objects beyond the quasi-static limit. in 2015 31st International Review of Progress in Applied Computational Electromagnetics, ACES 2015., 7109667, Annual Review of Progress in Applied Computational Electromagnetics, vol. 2015-May, Applied Computational Electromagnetics Society (ACES), 31st International Review of Progress in Applied Computational Electromagnetics, ACES 2015, Williamsburg, United States, 3/22/15.

Scattering control using metasurfaces for objects beyond the quasi-static limit. / Jiang, Zhi Hao; Werner, Douglas H.
2015 31st International Review of Progress in Applied Computational Electromagnetics, ACES 2015. Applied Computational Electromagnetics Society (ACES), 2015. 7109667 (Annual Review of Progress in Applied Computational Electromagnetics; Vol. 2015-May).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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AU - Werner, Douglas H.

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N2 - In this paper, we present a methodology for manipulating the scattering signature of an object using a single layer ultrathin metasurface. In contrast to previous work on metasurface cloaks where isotropic impedance surfaces have been considered, the metasurface coating considered here has both non-vanishing tangential and radial responses. As a result, its anisotropy can be engineered to tailor the scattering properties of a coated object with a moderate size beyond the quasi-static limit. As two proof-of-concept examples, near-perfect metasurface-based electromagnetic cloaking and illusion effects will be presented.

AB - In this paper, we present a methodology for manipulating the scattering signature of an object using a single layer ultrathin metasurface. In contrast to previous work on metasurface cloaks where isotropic impedance surfaces have been considered, the metasurface coating considered here has both non-vanishing tangential and radial responses. As a result, its anisotropy can be engineered to tailor the scattering properties of a coated object with a moderate size beyond the quasi-static limit. As two proof-of-concept examples, near-perfect metasurface-based electromagnetic cloaking and illusion effects will be presented.

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BT - 2015 31st International Review of Progress in Applied Computational Electromagnetics, ACES 2015

PB - Applied Computational Electromagnetics Society (ACES)

T2 - 31st International Review of Progress in Applied Computational Electromagnetics, ACES 2015

Y2 - 22 March 2015 through 26 March 2015

ER -

Scattering control using metasurfaces for objects beyond the quasi-static limit

Abstract

Publication series

Other

All Science Journal Classification (ASJC) codes

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