一类新的可调多层元曲面

2014 8th International Congress on Advanced Electromagnetic Materials in Microwaves and Optics Pub Date : 2014-11-06 DOI:10.1109/METAMATERIALS.2014.6948645

M. Mavridou, A. Feresidis

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引用次数: 3

摘要

提出了一类新的可调谐多层元表面，由此提出的结构在毫米波频率下产生非常低的损耗。研究了两种配置，作为所提出的调优技术的工作示例。最初，研究人员正在研究一种可调谐的高阻抗元表面，它由印刷在电介质衬底上的方形环路元件组成，并放置在一个接地平面上，形成一个空腔。在此基础上，研究了由两个方孔阵列组成的介质基板双层元表面的透射和反射特性。利用压电致动器对高阻抗元表面的反射相位和双层元表面的带通滤波器响应进行调谐。由于两种结构的致动器在直流偏置下具有垂直膨胀的特性，因此动态改变了两种结构的气腔厚度，从而调整了结构的反射和透射特性。

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A new class of tunable multi-layer meta-surfaces

A new class of tunable multi-layer meta-surfaces is presented whereby the proposed structures produce very low losses at millimeter wave frequencies. Two configurations are investigated as working examples of the proposed tuning technique. Initially, a tunable high impedance meta-surface is being studied, consisting of a square loop element printed on a dielectric substrate and placed over a ground plane creating an air cavity. Subsequently, the transmission and reflection properties of double layer meta-surfaces consisting of two square aperture arrays printed on dielectric substrates and separated by an air cavity are presented. Tuning of the reflection phase of the high impedance meta-surface and the bandpass filter response of the double layer meta-surface is achieved by means of piezoelectric actuators positioned around the surfaces. The proposed actuators dynamically change the thickness of the air cavities in both configurations, due to their property of expanding vertically under DC biasing, which results in tuning the reflection and transmission characteristics of the structures.

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来源期刊

2014 8th International Congress on Advanced Electromagnetic Materials in Microwaves and Optics

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