用表面等离子体共振评价化学镀金属薄层

2008 International Students and Young Scientists Workshop - Photonics and Microsystems Pub Date : 2008-06-20 DOI:10.1109/STYSW.2008.5164135

R. Herschel, T. Schuster, C. Schaffer

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引用次数: 2

摘要

本文的研究对象是等离子体激元沿薄金属层的激发和传播。主要的焦点是等离子激元激发沿化学镀金属层利用克雷奇曼-宁愿耦合器，其概念被详细说明。为此，提出了一种计算多层系统反射率的阻抗模型。利用Kretschmann-Rather耦合器，得到了所分析金属层反射率的实验结果。将理论计算的反射率值与实验结果进行比较，得到了样品的厚度、复介电常数和金属层两侧的散射特性。从层参数的外推中获得的信息为进一步开发光纤生物传感器提供了基础。

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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The evaluation of thin electroless plated metal layers by means of Surface Plasmon Resonance

The object of the presented work is the excitation and propagation of plasmons along thin metal layers. The main focus is on plasmon excitation along electroless plated metal layers by utilizing a Kretschmann-Rather coupler, whose concept is shown in detail. Therefore an impedance model is presented for calculating the reflectivity of multilayer systems. With the Kretschmann-Rather coupler experimental results for the reflectivity of the analysed metal layers were obtained. Comparing the theoretically calculated reflectivity values with the experimental results the samples are characterised in terms of thickness, complex permittivity and scattering on both sides of the metal layer. The information gained from the extrapolation of the layer parameters provides a basis for the further development of a fibre optic biosensor.

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2008 International Students and Young Scientists Workshop - Photonics and Microsystems

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