基于椭圆石英元件无限双周期阵列的人工拓扑绝缘子色散特性

L. Ivzhenko, S. Polevoy, E. Odarenko, S. Tarapov
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摘要

主题和目的。考虑了拓扑绝缘体(TI)全介质电磁类似物在微波范围内的特点,以二维双周期介质阵列为基础,研究了TI元素的几何参数和本构参数对拓扑绝缘体色散特性的影响。方法和方法论。利用数值模拟程序对拓扑绝缘子的色散特性和电磁场空间分布模式进行了评价。结果。研究了基于椭圆石英圆柱双周期阵列的拓扑绝缘子的电磁模拟。通过数值模拟表明,在不改变其他参数的情况下,通过改变石英的单轴各向异性方向可以控制结构的电磁特性。考虑了由两个相邻的不同形状的单晶组成的组合拓扑绝缘子,并通过选择石英的单轴各向异性方向来控制表面态的频率。结果表明,电磁场的表面态集中发生在两个形状不同的晶胞的界面上。结论。通过改变拓扑绝缘体的几何参数和介电常数,证明了控制拓扑绝缘体微波电磁特性的可能性。从实用的角度来看,拓扑绝缘体可以作为微波传输线和器件的元件,具有非常小的传播损耗。
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Dispersion properties of artifi cial topological insulators based on an infi nite double-periodic array of elliptical quartz elements
Subject and Purpose. Special features of all-dielectric electromagnetic analogues of topological insulators (TI) in the microwave range are considered, aiming at studying the influence of geometrical and constitutive parameters of TI elements on the dispersion properties of topological insulators based on a two-dimensional double-periodic array of dielectric elements. Methods and Methodology. The evaluation of dispersion properties and electromagnetic field spatial distribution patterns for topological insulators is performed using numerical simulation programs. Results. The electromagnetic analogue of a topological insulator based on a double-periodic array of elliptical quartz cylinders has been considered. By numerical simulation, it has been demonstrated that the electromagnetic properties of the structure are controllable by changing the quartz uniaxial anisotropy direction without any changes in other parameters. A combined topological insulator made up of two adjoining ones differing in shapes of their unit cells has been considered with the numerical demonstration that frequencies of surface states are controllable by choosing the quartz uniaxial anisotropy direction. It has been shown that it is at the interface of two different in shape unit cells that the electromagnetic field concentration at a surface state frequency takes place. Conclusion. A possibility has been demonstrated of controlling microwave electromagnetic properties of topological insulators by changing their geometric parameters and permittivity of the constituents. From a practical point of view, topological insulators can be used as components of microwave transmission lines and devices featuring very small propagation loss.
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