Ultrathin cylindrical cloak

Jingjing Zhang; N. Asger Mortensen

doi:10.2528/PIER11091205

Ultrathin cylindrical cloak

Jingjing Zhang, N. Asger Mortensen

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

We propose a cylindrical invisibility cloak achieved utilizing two dimensional split-ring resonator structured metamaterials at microwave frequencies. The cloak has spatially uniform parameters in the axial direction, and can work very well even when the cloak shell is very thin compared with the concealed object and the working wavelength. Numerical simulation is performed to verify the functionality of the cloak, where the cloak layer is only around 1/4 of the operating wavelength. Our work provides a feasible solution to the experimental realization of cloaks with ideal parameters.

Original language	English
Journal	Electromagnetic Waves (Progress in electromagnetics research)
Volume	121
Pages (from-to)	381-389
ISSN	1070-4698
DOIs	https://doi.org/10.2528/PIER11091205
Publication status	Published - 2011

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http://www.jpier.org/pier/pier.php?paper=11091205

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title = "Ultrathin cylindrical cloak",

abstract = "We propose a cylindrical invisibility cloak achieved utilizing two dimensional split-ring resonator structured metamaterials at microwave frequencies. The cloak has spatially uniform parameters in the axial direction, and can work very well even when the cloak shell is very thin compared with the concealed object and the working wavelength. Numerical simulation is performed to verify the functionality of the cloak, where the cloak layer is only around 1/4 of the operating wavelength. Our work provides a feasible solution to the experimental realization of cloaks with ideal parameters.",

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AU - Zhang, Jingjing

AU - Mortensen, N. Asger

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AB - We propose a cylindrical invisibility cloak achieved utilizing two dimensional split-ring resonator structured metamaterials at microwave frequencies. The cloak has spatially uniform parameters in the axial direction, and can work very well even when the cloak shell is very thin compared with the concealed object and the working wavelength. Numerical simulation is performed to verify the functionality of the cloak, where the cloak layer is only around 1/4 of the operating wavelength. Our work provides a feasible solution to the experimental realization of cloaks with ideal parameters.

U2 - 10.2528/PIER11091205

DO - 10.2528/PIER11091205

M3 - Journal article

SN - 1070-4698

VL - 121

SP - 381

EP - 389

JO - Electromagnetic Waves (Progress in electromagnetics research)

JF - Electromagnetic Waves (Progress in electromagnetics research)

ER -

Ultrathin cylindrical cloak

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