自组织金属纳米线阵列的非线性圆二色性

A. Belardini1, M. C. Larciprete1, M. Centini, E. Fazio, C. Sibilia, D. Chiappe, C. Martella, A. Toma, F. B. de Mongeot
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引用次数: 0

摘要

作为纳米级光学器件(如纳米等离子体器件或平面超材料)的构建单元,介质基板上支撑的金属纳米结构引起了人们的极大兴趣。在此框架下,研究了人造圆二色性[1],用于开发新型主动偏振控制器器件,如旋转器和调制器以及高效分子传感器。本文报道了具有亚波长周期性的自组织金纳米线阵列[3]产生的二次谐波(SH)场的非线性外在手性[2](圆二色性)的实验观察。在这种材料中,手性源于自组装导线的曲率,导致在斜入射处缺乏对称性[2]。这种圆二色性在SH场是样品形态的明显特征,可以用于开发更有效的分子传感器,基于金属增强荧光或表面增强拉曼散射。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nonlinear circular dichroism in self-organized metal nanowires arrays
Metal nanostructures supported on dielectric substrates have attracted great interest as building blocks of nanoscale optical devices such nano-plasmonic devices or planar metamaterials. In this framework artificial circular dichroism [1] is investigated for developing novel devices for active polarization controllers, like rotators and modulators and high efficient molecular sensors. Here we report the experimental observation of nonlinear extrinsic chirality [2] (circular dichroism) of the second harmonic (SH) field generated by self-organized gold nanowire arrays with sub-wavelength periodicity [3]. In this material the chirality arises from the curvature of the self-assembled wires, producing a lack of symmetry at oblique incidence [2]. Such circular dichroism in the SH field is the evident signature of the sample morphology and can be used in order to develop more efficient molecular sensors, based on metal enhanced fluorescence or surface enhanced Raman scattering.
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