麦克斯韦-加内特理论中任意形状的纳米粒子

2015 9th International Congress on Advanced Electromagnetic Materials in Microwaves and Optics (METAMATERIALS) Pub Date : 2015-12-03 DOI:10.1109/METAMATERIALS.2015.7342455

S. Kozik, M. Binhussain, N. Kazak, V. Agabekov, A. Smirnov

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引用次数: 2

摘要

对麦克斯韦-加内特介电常数平均理论进行了改进，提出了一种精确评价复合材料色散的方法。根据该方法，引入了一组可调的去极化因子系数，这些系数是在模拟光谱与实验测量光谱拟合过程中确定的。本文给出了用时域有限差分法模拟测试结构的反射和透射光谱，以及用非均匀纳米颗粒分布样品的实验测量光谱计算退极化系数的结果。该方法与实验数据具有较好的收敛性，可作为一种多用途色散模型用于内含物浓度和形状未知的复合材料光学计量。

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Nanoparticles of arbitrary form in the Maxwell-Garnett theory

The technique of improvement of the Maxwell-Garnett theory of electric permittivity averaging for precise evaluation of composite material dispersion is demonstrated. According to this approach, a set of adjustable coefficients in depolarization factor are introduced, which are determined in the process of fitting simulated optical spectra to experimentally measured ones. The presentation gives the results of depolarization coefficient calculation from reflection and transmission spectra of simulated in finite difference time domain method test structures and from experimentally measured spectra of samples with non-uniform nanoparticles distribution. The proposed approach shows good convergence with the experimental data and could be used as a versatile dispersion model in optical metrology of composite materials with unknown arbitrary concentration and shapes of inclusions.

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2015 9th International Congress on Advanced Electromagnetic Materials in Microwaves and Optics (METAMATERIALS)

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