The comparisons between two retrieve algorithms for metamaterials

Ding, Min; Xue, Hasen; Bo, Wu; Sun, Bingbing; Liu, Zheng; Huang, Zhixiang; Xian-Liang, Wu

doi:10.7498/aps.62.044218

Acta Phys. Sin.

2013

DOI: 10.7498/aps.62.044218

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The comparisons between two retrieve algorithms for metamaterials

Min Ding¹,

Hasen Xue²,

Wu Bo³

et al.

Abstract: Extracting the equivalent parameters of the weak-coupling and strong-coupling fishnet structure metamaterial based on the traditional retrieval algorithm and the improved algorithm of Kramers-Kronig relations are proposed, respectively. A comparative analysis of the effectiveness and applicability of the two algorithms are also included. The theoretical analysis and numerical results show that the traditional retrieval algorithm can retrieve the equivalent parameters of the weak-coupling and strong-coupling ca… Show more

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Cited by 2 publications

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Retrieval of high-order susceptibilities of nonlinear metamaterials

Wang¹,

Qiu²,

Hua³

et al. 2017

Chinese Phys. B

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Active metamaterials embedded with nonlinear elements are able to exhibit strong nonlinearity in microwave regime. However, existing S-parameter based parameter retrieval approaches developed for linear metamaterials do not apply in nonlinear cases. In this paper, a retrieval algorithm of high-order susceptibilities for nonlinear metamaterials is derived. Experimental demonstration shows that, by measuring the power level of each harmonic while sweeping the incident power, high-order susceptibilities of a thin-layer nonlinear metamaterial can be effectively retrieved. The proposed approach can be widely used in the research of active metamaterials.

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Retrieval of high-order susceptibilities of nonlinear metamaterials

Wang¹,

Qiu²,

Hua³

et al. 2017

Chinese Phys. B

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Study on the super transmission in a typical dielectric structure

Wang¹,

Huang²,

Fang³

et al. 2015

Acta Phys. Sin.

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Reflection is a natural phenomenon that occurs when light passes the interface between materials with different refractive index. In many applications, such as solar cells, introduction of a substrate will result in an increase in reflection. There are many ways to reduce the reflection from a substrate, which have been investigated so far, including dielectric interference coatings, surface texturing, adiabatic index matching, and scattering from plasmonic nanoparticles etc. Here we present an entirely new concept to eliminate reflection from a silicon wafer, which makes use of much simpler method than the ones reported before, and can be applied to any high-index material. Finite-difference-time-domain (FDTD) method and auxiliary differential equations are used in this paper to simulate a new structure that can suppress the reflection of light from a silicon surface over a broad spectral range. A two-dimensional periodic array of subwavelength silicon nanocylinders is designed, which possesses a phenomenon strongly substrate-coupled to the Mie resonances, and which can produce an extraordinary transmission phenomenon similar to the metal surface plasmon that yields almost zero total reflectance over the entire spectral range from ultraviolet to near-infrared. This new antireflection concept relies on the strong forward scattering that occurs when a scattering structure is placed in close proximity to a high-index substrate with a high optical density of states. For a detailed description of the problem, we have carried out some simulations. From the results, one can see that although nano-pillar covers only 30% of the substrate surface area, it can reduce the reflection from the surface from 30% to under 10% at the Mie resonance. For the purpose of reducing reflection from the substrate, this new structure designed may provide a reference for the actual solar cells and optical antenna design.

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The comparisons between two retrieve algorithms for metamaterials

Cited by 2 publications

References 17 publications

Retrieval of high-order susceptibilities of nonlinear metamaterials

Retrieval of high-order susceptibilities of nonlinear metamaterials

Study on the super transmission in a typical dielectric structure

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