On the Aperture Size of Digitally Coded Metasurfaces for Beam Steering Applications using Anomalous Reflection

2023 International Microwave and Antenna Symposium (IMAS) Pub Date : 2023-02-07 DOI:10.1109/IMAS55807.2023.10066942

Raju Malleboina, J. C. Dash, Atli Lemma, D. Sarkar

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Abstract

This paper investigates the minimum size of the metasurface needed for beam steering applications using anomalous reflection. First, using 1-bit and 2-bit digitally coded unit cells, we analytically model a programmable metasurface in MATLAB for a reflected beam direction of $\theta_{r}=30^{\circ}, \phi_{r}=0^{\circ}$, and perform the far-field radiation pattern analysis for different aperture sizes. We observe the metasurface size of $10\lambda_{0}\times 10\lambda_{0}$ (where $\lambda_{0}$ is the free-space wavelength at 10.5 GHz) provides anomalous reflection in the desired direction having beamwidth of nearly 5° for both 1-bit and 2-bit coding. We verify the reflection angle and half-power beamwidth (HPBW) obtained from the analytical method with the full-wave electromagnetic simulation using CST Microwave Studio. It is also observed that the 2-bit coded metasurface having $10\lambda_{0}\times 10\lambda_{0}$ size provides a far-field pattern with a reduced sidelobe level (SLL) of nearly −11.54 dB compared to 1-bit.

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利用异常反射进行光束导向的数字编码超表面孔径大小研究

本文研究了利用异常反射进行光束导向应用所需的最小超表面尺寸。首先，利用1位和2位数字编码单元，在MATLAB中对反射光束方向为$\theta_{r}=30^{\circ}, \phi_{r}=0^{\circ}$的可编程超表面进行解析建模，并对不同孔径尺寸的远场辐射方向图进行分析。我们观察到$10\lambda_{0}\times 10\lambda_{0}$的超表面尺寸(其中$\lambda_{0}$是10.5 GHz的自由空间波长)在期望的方向上提供了异常反射，对于1位和2位编码具有近5°的波束宽度。利用CST Microwave Studio进行全波电磁仿真，验证了解析法得到的反射角和半功率波束宽度。还观察到，具有$10\lambda_{0}\times 10\lambda_{0}$大小的2位编码超表面提供了远场模式，与1位相比，其旁瓣电平(SLL)降低了近- 11.54 dB。

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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2023 International Microwave and Antenna Symposium (IMAS)

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