Cloaking a sensor via transformation optics

Allan Greenleaf; Yaroslav Kurylev; Matti Lassas; Gunther Uhlmann

doi:10.1103/PhysRevE.83.016603

Cloaking a sensor via transformation optics

Allan Greenleaf^*, Yaroslav Kurylev, Matti Lassas, Gunther Uhlmann

^*Corresponding author for this work

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

65 Citations (Scopus)

Abstract

Ideal transformation optics cloaking at positive frequency, besides rendering the cloaked region invisible to detection by scattering of incident waves, also shields the region from those same waves. In contrast, we demonstrate that approximate cloaking permits a strong coupling between the cloaked and uncloaked regions; careful choice of parameters allows this coupling to be amplified, leading to effective cloaks with degraded shielding. The sensor modes we describe are close to but distinct from interior resonances, which destroy cloaking. As one application, we describe how to use transformation optics to hide sensors in the cloaked region and yet enable the sensors to efficiently measure incident waves on the exterior of the cloak, an effect similar to the plasmon-based approach of Alù and Engheta.

Original language	English
Article number	016603
Journal	Physical Review E
Volume	83
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevE.83.016603
Publication status	Published - 21 Jan 2011
Externally published	Yes

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title = "Cloaking a sensor via transformation optics",

abstract = "Ideal transformation optics cloaking at positive frequency, besides rendering the cloaked region invisible to detection by scattering of incident waves, also shields the region from those same waves. In contrast, we demonstrate that approximate cloaking permits a strong coupling between the cloaked and uncloaked regions; careful choice of parameters allows this coupling to be amplified, leading to effective cloaks with degraded shielding. The sensor modes we describe are close to but distinct from interior resonances, which destroy cloaking. As one application, we describe how to use transformation optics to hide sensors in the cloaked region and yet enable the sensors to efficiently measure incident waves on the exterior of the cloak, an effect similar to the plasmon-based approach of Al{\`u} and Engheta.",

author = "Allan Greenleaf and Yaroslav Kurylev and Matti Lassas and Gunther Uhlmann",

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AU - Greenleaf, Allan

AU - Kurylev, Yaroslav

AU - Lassas, Matti

AU - Uhlmann, Gunther

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Y1 - 2011/1/21

N2 - Ideal transformation optics cloaking at positive frequency, besides rendering the cloaked region invisible to detection by scattering of incident waves, also shields the region from those same waves. In contrast, we demonstrate that approximate cloaking permits a strong coupling between the cloaked and uncloaked regions; careful choice of parameters allows this coupling to be amplified, leading to effective cloaks with degraded shielding. The sensor modes we describe are close to but distinct from interior resonances, which destroy cloaking. As one application, we describe how to use transformation optics to hide sensors in the cloaked region and yet enable the sensors to efficiently measure incident waves on the exterior of the cloak, an effect similar to the plasmon-based approach of Alù and Engheta.

AB - Ideal transformation optics cloaking at positive frequency, besides rendering the cloaked region invisible to detection by scattering of incident waves, also shields the region from those same waves. In contrast, we demonstrate that approximate cloaking permits a strong coupling between the cloaked and uncloaked regions; careful choice of parameters allows this coupling to be amplified, leading to effective cloaks with degraded shielding. The sensor modes we describe are close to but distinct from interior resonances, which destroy cloaking. As one application, we describe how to use transformation optics to hide sensors in the cloaked region and yet enable the sensors to efficiently measure incident waves on the exterior of the cloak, an effect similar to the plasmon-based approach of Alù and Engheta.

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JO - Physical Review E

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Cloaking a sensor via transformation optics

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