Using periodicity to control spectral characteristics of an array of narrow slots

IEEE Antennas and Propagation Society International Symposium 1997. Digest Pub Date : 1997-07-13 DOI:10.1109/APS.1997.625448

J. A. Reed, D. Byrne

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引用次数: 5

Abstract

We consider a frequency selective surface (FSS) consisting of a thin perfectly conducting sheet periodically perforated with narrow slot apertures. For wavelengths greater than the periodicity, such a surface performs similarly to a bandpass filter since the periodic elements within the FSS possess resonance characteristics. The effects on the spectral characteristics of varying the periodicity of a narrow slot array (or its complementary dipole array) was studied by Ott et al. (1967) and Munk et al. (1971). By changing the periodicity, they found it possible to change the location of the resonant wavelength and the bandpass width of the transmission/reflection spectrum. With advances in computational technology, we are able to study these effects of periodicity in narrow slot arrays in much more detail. In this study we used the methods described by Chen (1970) to predict the spectral characteristics of narrow slot arrays designed for use in the middle infrared spectral region. An algorithm was written in FORTRAN for use on either a PC or workstation. Although our work presented is limited to a normally incident plane wave, the approach can be extended to the case of oblique incidence.

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利用周期性控制窄槽阵列的频谱特性

我们考虑了一种频率选择表面(FSS)，它由一层具有完美导电性的薄板组成，上面周期性地有窄槽孔。对于大于周期的波长，由于FSS内的周期元素具有共振特性，因此这种表面的性能类似于带通滤波器。Ott et al.(1967)和Munk et al.(1971)研究了改变窄槽阵列(或其互补偶极子阵列)的周期性对光谱特性的影响。通过改变周期，他们发现可以改变共振波长的位置和透射/反射光谱的带通宽度。随着计算技术的进步，我们能够更详细地研究窄槽阵列中周期性的这些影响。在本研究中，我们使用了Chen(1970)描述的方法来预测设计用于中红外光谱区域的窄槽阵列的光谱特性。用FORTRAN编写了一个算法，可在PC机或工作站上使用。虽然我们的工作仅限于正常入射的平面波，但该方法可以扩展到斜入射的情况。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IEEE Antennas and Propagation Society International Symposium 1997. Digest

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