可见光增益辅助金属半导体光子晶体全角负折射:等离子体金属效应及纳米光子器件应用

M. Rajput, R. Sinha
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引用次数: 0

摘要

研究了不同等离子体(Al, Ag, Au, Cu)纳米棒对增益辅助金属半导体光子晶体(MSPC)可见光全角负折射的影响。该结构在可见光下的磁导率(μ)和介电常数(ε)均为负实值,虚值极低。对于所提出的左旋结构,相斜率和相速度在蓝光下为负。比较了具有相似形状和几何形状的不同等离子体纳米复合材料的色散特性和左共振特性,得出了与介电常数相关的色散和共振特性。研究了极高的左手传输效率(> 99%)。近场和远场共振模式的展示揭示了纳米光子器件的应用潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
All-angle negative refraction in gain assisted Metallo- Semiconductor Photonic Crystal for visible light: Effect of plasmonic metals and nano-photonic device application
All-angle negative refraction (AANR) in a gain assisted Metallo-Semiconductor Photonic Crystal (MSPC) for visible light with effect of different plasmonic (Al, Ag, Au, Cu) nanorod inclusion, is demonstrated. Proposed structure provides negative real values of both permeability (μ) and permittivity (ε) and extremely low imaginary values for visible light. Phase slope and phase velocity is shown to be negative for blue light for proposed Left-Handed structure. A comparison of dispersion properties and left-handed resonance for different plasmonic nanocomposites of a similar shape and geometry shows permittivity-dependent dispersion and resonant properties. Extremely high Left-Handed Transmission Efficiency (≫99%) are also investigated. Demonstration of near and far-field resonance patterns reveal the nano-photonic device applications potential.
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