Design of transparent cloaks with arbitrarily inner and outer boundaries

Huang

et al. 2018

Sci Rep

Multifunctional device with homogeneous anisotropic material parameters are proposed and designed based on linear transformation optics and rotary medium. Four examples including rotating concentrator, rotating amplifying device, rotating shrinking device and rotating transparent device are reported. All of them have bi-functional effects, i.e., they possess concentrating, amplifying, shrinking and transparent effects respectively while have the fields been rotated an angle of π/N simultaneously in common, where N is the sides number of polygon. All these devices have potential applications, such as energy accumulation or controlling, military camouflage, wireless communication system and radar/antenna protection. Furthermore, alternating isotropic layered structure based on effective medium theory is utilized to remove the anisotropic property of these devices. Simulation results show that the layered structure device behaves almost as perfect as the ideal one when it has sufficient divided layers. The feasibility of designing multifunctional device by natural isotropic materials instead of metamaterials with complicated artificial composite structure would dramatically reduce the fabrication difficulty and move the device a step further towards the practical application.

Section: Introductionmentioning

confidence: 99%

Homogeneous Multifunction Devices Designing and Layered Implementing Based on Rotary Medium

Huang

et al. 2018

Sci Rep

“…[15][16][17][18][19][20][21][22][23][24][25][26][27][28][29] Among various novel applications, transparent devices have recently attracted widespread attention due to their ability to protect the device inside without affecting their performance, and they have shown great potential in antenna protection. By using the compressing or stretching transformation method, a twodimensional (2D) transparent device was first proposed by Yu et al [30] Later, the arbitrarily shaped transparent devices with either conformal or non-conformal boundaries were proposed by Yang et al [31] and Mei et al, [32] and the general expressions of material parameters were developed. However, it is worth mentioning that the fabrication of such a device has seldom been reported due to the inhomogeneous and anisotropic properties of the material parameters.…”

Section: Introductionmentioning

confidence: 99%

Homogeneous transparent device and its layered realization

Yang¹,

Huang²,

Yang³

et al. 2018

Chinese Phys. B

Arbitrarily shaped electromagnetic transparent devices with homogeneous, non-negative, anisotropic and generic constitutive parameters are proposed based on linear transformation optics, which provides the flexibility for device design that is applicable for the practical fabrication. To remove the anisotropic property, a layered structure is developed based on effective medium theory. Simulation results show that with sufficient layers, the performance of the layered transparent device is nearly as perfect as an ideal device, and it is able to protect an antenna without sacrificing its performance. The feasibility of designing a transparent device by using natural isotropic materials instead of metamaterials would dramatically reduce the difficulty of fabrication and further promote the practicality of the device.

“…[25] Among various devices, metamaterial transparent devices have recently aroused great attention due to their capability of protecting the device inside without affecting their performance-an important property for radome structures. Circular and elliptical transparent devices were firstly proposed by Yu et al [26] Later, the general expressions of material parameters for a transparent device with arbitrarily conformal and non-conformal inner and outer boundaries are developed by Mei et al [27] The foregoing investigations are really attractive and hold great promise for application in antenna protection. However, coordinate transformation for these transparent devices is conducted along the radial direction, resulting in the necessary material parameters being highly anisotropic inhomogeneous.…”

Section: Introductionmentioning

confidence: 99%

Inverse design-based metamaterial transparent device and its multilayer realization

Li¹,

Huang²,

Yang³

et al. 2014

Chinese Phys. B

We propose an inverse method to determine the material parameters of a transparent device without any knowledge of the corresponding transformation function. The required parameters are independently obtained and expressed as functions of the introduced generator. Moreover, to remove the inhomogeneity and anisotropy of material parameters, a layered transparent device composed of only homogeneous and isotropic materials is presented based on the effective medium theory. The feasibility of using the layered device in antenna protection is also investigated. Full-wave simulation is carried out for verification. This work paves a new way toward designing metamaterial devices without specifying the underlying coordinate transformation, and has great guiding significance for the practical fabrication of transparent devices.