Features of transmission of electromagnetic waves through composite nanoresonators including epsilon-near-zero metamaterials

IF 1.5 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

EPJ Applied Metamaterials Pub Date : 2020-01-01 DOI:10.1051/epjam/2020001

E. Starodubtsev

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引用次数: 3

Abstract

Transmission of electromagnetic waves through nanometric multilayers (nanoresonators) including a main composite layer made of two alternating strips of low-absorbing dielectrics that is sandwiched between epsilon-near-zero (ENZ) or metallic spacer layers has been modeled. Analytical models are based on exact solutions of electromagnetic boundary problems. The spacers with the definite properties lead to extreme dependences of amplitude transmission coefficients on the system parameters and drastic increase in phase difference of the transmitted waves. These effects are most pronounced for subwavelength multilayer thicknesses due to multibeam interference features in the nanoresonator, and they can be amplified when the main layer and (or) the whole system thicknesses decrease. The investigated transmission features take place under variations of the system parameters such as anisotropy of the main layer materials, non-ideal realization of ENZ materials, oblique incidence of the exciting radiation (for small incidence angles). The obtained results can have applications in development of ultra-thin nanophotonics devices using phase transformation of transmitted waves.

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包含epsilon-近零超材料的复合纳米谐振器中电磁波的传输特性

电磁波通过纳米多层(纳米谐振器)的传输已经建模，其中包括由两个低吸收介电体交替带组成的主复合层，夹在接近零的介电体(ENZ)或金属间隔层之间。解析模型基于电磁边界问题的精确解。具有确定性质的间隔器导致了振幅透射系数对系统参数的极端依赖和透射波相位差的急剧增加。由于纳米谐振器中的多波束干涉特性，这些影响在亚波长多层厚度下最为明显，并且当主层和(或)整个系统厚度减小时，这些影响会被放大。所研究的传输特性发生在主层材料的各向异性、ENZ材料的非理想实现、激发辐射的斜入射(小入射角)等系统参数的变化下。所得结果可用于利用透射波相变技术研制超薄纳米光子学器件。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

EPJ Applied Metamaterials MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

3.10

自引率

6.20%

发文量

审稿时长

8 weeks