准周期粒子链中的倒易和非倒易波现象

2015 9th International Congress on Advanced Electromagnetic Materials in Microwaves and Optics (METAMATERIALS) Pub Date : 2015-12-03 DOI:10.1109/METAMATERIALS.2015.7342574

Y. Mazor, B. Steinberg

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引用次数: 0

摘要

准周期(QP)粒子链表现出在周期链中观察不到的独特性质。此外，它们固有地支持重要的远程相互作用和对周围介质的辐射。因此，它们与由Harper’s模型或almost-Mathieu算子控制的传统QP结构有着根本的不同。我们提出了QP粒子链的数学框架，并研究了它们的电动力学。它们支持与光锥表现出复杂相互作用的引导模式，并且在频率波数空间中具有二维分形结构，从而使模态相速度的独特定义不可能。然而，由于分形的内部结构，揭示了一个明确的群速度。我们还展示了非互反QP结构的初步研究。

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Reciprocal and non-reciprocal wave phenomena in quasi-periodic particle chains

Quasi-Periodic (QP) particle chains exhibit unique properties not observed in periodic ones. Furthermore, they inherently support significant long-range interactions and radiation to the surrounding medium. Hence they are fundamentally different from traditional QP structures governed by the Harper's model or the almost-Mathieu operator. We present a mathematical framework for QP particle chains and study their electrodynamics. They support guided modes that exhibit a complex interaction with the light cone, and possess a two-dimensional fractal-like structure in the frequencywavenumber space thus making the unique definition of modal phase velocity impossible. However, a well-defined group velocity is revealed due to the fractals inner structure. We also show initial study of non-reciprocal QP structures.

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

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