RF Imaging of Dielectric Samples Using Complementary Split Ring Resonator Array

2019 IEEE MTT-S International Microwave and RF Conference (IMARC) Pub Date : 2019-12-01 DOI:10.1109/IMaRC45935.2019.9118691

Greeshmaja Govind, M. Akhtar

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Abstract

A microwave subsurface imaging scheme using a planar sensor based on an array of complementary split ring resonator (CSRR) is proposed. Conventionally, sensors based on single CSRR element are used for near field microwave imaging in which the sensor is made to scan the target region. However, while imaging larger test regions, sensor with multiple CSRR elements is extremely advantageous as it reduces the scanning time drastically by a factor that depends on the number of resonating units present in the array. The proposed sensor comprises of a 3×3 array of CSRR sensing elements, resonating at three different frequencies. The CSRR structures have a meandered configuration, possessing improved sensing capabilities compared to a conventional rectangular resonating unit of same dimensions. When the object to be imaged is placed on top of the CSRR structures, the sensor responds with a change in the transmission minimum frequency, with the shift proportional to the dielectric properties of the target region. The practical utility of the proposed scheme is established with the help of retrieved images of a checkerboard-like test sample.

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利用互补裂环谐振器阵列对介电样品进行射频成像

提出了一种基于互补裂环谐振器阵列的平面传感器微波地下成像方案。传统上，基于单个CSRR元件的传感器用于近场微波成像，其中传感器被制成扫描目标区域。然而，当成像较大的测试区域时，具有多个CSRR元件的传感器是非常有利的，因为它大大减少了扫描时间，这取决于阵列中存在的谐振单元的数量。所提出的传感器包括3×3 CSRR传感元件阵列，在三个不同的频率上谐振。CSRR结构具有弯曲的结构，与相同尺寸的传统矩形谐振单元相比，具有改进的传感能力。当要成像的物体被放置在CSRR结构的顶部时，传感器的响应是传输最小频率的变化，其位移与目标区域的介电特性成正比。通过棋盘状测试样本的图像检索，验证了该方案的实用性。

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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2019 IEEE MTT-S International Microwave and RF Conference (IMARC)

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