以传输在线负载为模型的等离子体超表面的均匀化

Metamaterials Pub Date : 2011-06-01 DOI:10.1016/j.metmat.2011.05.001

Yang Zhao , Nader Engheta , Andrea Alù

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引用次数: 86

摘要

在这项工作中，我们讨论了用一个传输在线并联导纳模型对正常入射平面波激发的单和级联等离子体超表面的解析建模。我们推导了一个解析模型，该模型将单个超表面的有效表面光学导纳与其包涵极化率及其平面波反射和透射系数联系起来，并应用这些概念来预测更复杂设置中的波相互作用，其中两个堆叠的表面被不同的距离分开，并且可能相对于彼此旋转，用于法向入射激发。结果表明，该分析模型在适当的条件下具有良好的适用性，并通过全波数值模拟验证了分析结果，包括材料色散和光学材料的损耗。

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Homogenization of plasmonic metasurfaces modeled as transmission-line loads

In this work, we discuss the analytical modeling of single and cascaded plasmonic metasurfaces excited by normally incident plane waves using a transmission-line shunt admittance model. We derive an analytical model that relates the effective surface optical admittance of a single metasurface to its inclusion polarizability and its plane wave reflection and transmission coefficients, and we apply these concepts to predict the wave interaction of more complicated setups in which two stacked surfaces are separated by a varying distance, and possibly rotated with respect to one another, for normal incidence excitation. We show that the analytical model holds very well under suitable conditions, and we verify our analytical results with full-wave numerical simulations, including material dispersion and loss of optical materials.

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Metamaterials

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