等离子体子
谐波
非线性系统
高次谐波产生
太赫兹辐射
物理
天线(收音机)
非线性光学
光电子学
谱线
计算物理学
光学
材料科学
电信
量子力学
电压
计算机科学
激光器
作者
Mario Hentschel,Tobias Utikal,Harald Gießen,Markus Lippitz
出处
期刊:Nano Letters
[American Chemical Society]
日期:2012-06-11
卷期号:12 (7): 3778-3782
被引量:169
摘要
Plasmonic dimer nanoantennas are characterized by a strong enhancement of the optical field, leading to large nonlinear effects. The third harmonic emission spectrum thus depends strongly on the antenna shape and size as well as on its gap size. Despite the complex shape of the nanostructure, we find that for a large range of different geometries the nonlinear spectral properties are fully determined by the linear response of the antenna. We find excellent agreement between the measured spectra and predictions from a simple nonlinear oscillator model. We extract the oscillator parameters from the linear spectrum and use the amplitude of the nonlinear perturbation only as scaling parameter of the third harmonic spectra. Deviations from the model only occur for gap sizes below 20 nm, indicating that only for these small distances the antenna hot spot contributes noticeable to the third harmonic generation. Because of its simplicity and intuitiveness, our model allows for the rational design of efficient plasmonic nonlinear light sources and is thus crucial for the design of future plasmonic devices that give substantial enhancement of nonlinear processes such as higher harmonics generation as well as difference frequency mixing for plasmonically enhanced terahertz generation.
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