Analysis of plasmonic Bloch waves and band structures of 1D plasmonic photonic crystals

Metamaterials Pub Date : 2010-12-01 DOI:10.1016/j.metmat.2010.09.002

A.P. Vinogradov, A.V. Dorofeenko, I.A. Nechepurenko

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引用次数: 24

Abstract

We consider such passbands that appear due to excitation of plasmons inside the one-dimensional photonic crystal with elementary cells containing layers of positive and negative permittivities. The corresponding Bloch waves can be regarded as surface plasmon chains that are subsequently excited at the layers’ boundaries. The band structure depends on the elementary cell composition that also determines the plasmon type. The excited plasmons can be similar to surface plasmons that propagate along a dielectric slab “sandwiched” between two semi-spaces with negative permittivity, or to surface plasmons that propagate along a negative permittivity slab sandwiched between two dielectric semi-spaces. It is shown that the existence of negative refraction does not depend on the frequency dispersion of permittivity. The latter fact permits us to distinguish six elementary cell compositions with qualitatively different band structures. The frequency evolution of the band structure of a plasmonic PC with a given frequency dispersion of the permittivity can be considered as a transition between various kinds of band structures.

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一维等离子体光子晶体的等离子体布洛赫波及能带结构分析

我们考虑了由于一维光子晶体内等离子激元的激发而出现的这种通带，其基本细胞含有正负介电常数层。相应的布洛赫波可以看作是表面等离子体链，随后在层的边界被激发。带的结构取决于基本的细胞组成，这也决定了等离子体的类型。被激发的等离子体激元可以类似于沿“夹”在两个负介电常数半空间之间的介质板传播的表面等离子体激元，或者沿夹在两个介电半空间之间的负介电常数板传播的表面等离子体激元。结果表明，负折射的存在与介电常数的频散无关。后一事实使我们能够区分六种具有不同波段结构的基本细胞组成。在给定介电常数频散的情况下，等离子体等离子体带结构的频率演化可以看作是各种带结构之间的过渡。

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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Metamaterials

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