用于增强非线性、传感、光通信和能量收集的光学纳米天线

A. Alú, P. Chen, X. Liu
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引用次数: 1

摘要

我们讨论了使用等离子体纳米天线来大幅增强和定制光学材料的线性和非线性响应,以实现用于光通信和计算,能量收集和传感应用的新型光学纳米器件。通过将一些熟悉的射频天线概念转化为可见光谱,我们提出了各种令人兴奋的设计,以定制纳米粒子与光的纳米级相互作用,以实现传统光学材料和系统中无法实现的线性和非线性特性的纳米器件。我们提出单个和集合的等离子体纳米粒子可能实现非常规纳米级光学加工与远场传播和辐射之间的桥梁。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optical nanontennas for enhancing nonlinearities, sensing, optical communications and energy harvesting
We discuss the use of plasmonic nanoantennas to drastically enhance and tailor the linear and nonlinear response of optical materials to realize novel optical nanodevices for optical communications and computing, energy harvesting and sensing applications. By translating some of the familiar concepts of radio-frequency antennas to the visible spectrum, we propose a variety of exciting designs to tailor the nanoscale interaction of nanoparticles with light, in order to realize nanodevices with linear and nonlinear properties not available in conventional optical materials and systems. We propose individual and collections of plasmonic nanoparticles that may realize the bridge between unconventional nanoscale optical processing and far-field propagation and radiation.
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