TRANSPARENT SHELLs --- INVISIBLE TO ELECTROMAGNETIC WAVES

In this paper, the efficient transformation optics method has been utilized to design and analyze two-dimensional (2D) transparent cloaks, structures that can physically protect the devices inside but do not affect their electrical performances at all. The general and explicit expressions for the material parameters of the transformed space are derived. 2D transparent cloaks with arbitrarily conformal and nonconformal inner and outer boundaries and those working in gradually changing background and layered media are designed. Full-wave simulations combined with the Huygens’ principle are applied to validate the transparency of the cloaks. The simulation results under different circumstances demonstrate that the proposed method is correct and efficient. The work introduced here makes important progress in the theoretical design of the transparent cloak and expands the application of the transformation optics method.

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Diamond-shaped electromagnetic transparent devices with homogeneous material parameters

Li¹,

Huang²,

Yang³

et al. 2011

J. Phys. D: Appl. Phys.

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Based on the linear coordinate transformation method, two-dimensional and three-dimensional electromagnetic transparent devices with diamond shape composed of homogeneous and non-singular materials are proposed in this paper. The permittivity and permeability tensors of the transparent devices are derived. The performance and scattering properties of the transparent devices are confirmed by a full-wave simulation. It can physically protect electric devices such as an antenna and a radar station inside, without sacrificing their performance. This work represents important progress towards the practical realization of metamaterial-assisted transparent devices and expands the application of transformation optics.

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TRANSPARENT SHELLs --- INVISIBLE TO ELECTROMAGNETIC WAVES

Cited by 4 publications

References 48 publications

Electromagnetically induced transparency in novel dual-band metamaterial excited by toroidal dipolar response

Electromagnetically induced transparency in novel dual-band metamaterial excited by toroidal dipolar response

Design of transparent cloaks with arbitrarily inner and outer boundaries

Diamond-shaped electromagnetic transparent devices with homogeneous material parameters

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