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Differential metamaterial based sensor for solid dielectric characterization with improved sensitivity

Kunal Kumar Singh (Department of ECE, Indian Institute of Information Technology Ranchi, Ranchi, India)
Santosh Kumar Mahto (Department of Electronics and Communication Engineering, Indian Institute of Information Technology Ranchi, Ranchi, India)
Rashmi Sinha (Department of Electronics and Communication Engineering, National Institute of Technology Jamshedpur, Jamshedpur, India)

Sensor Review

ISSN: 0260-2288

Article publication date: 9 April 2024

Issue publication date: 6 May 2024

86

Abstract

Purpose

The purpose of this study is to introduce a new type of sensor which uses microwave metamaterials and direct-coupled split-ring resonators (DC-SRRs) to measure the dielectric properties of solid materials in real time. The sensor uses a transmission line with a bridge-type structure to measure the differential frequency, which can be used to calculate the dielectric constant of the material being tested. The study aims to establish an empirical relationship between the dielectric properties of the material and the frequency measurements obtained from the sensor.

Design/methodology/approach

In the proposed design, the opposite arm of the bridge transmission line is loaded by DC-SRRs, and the distance between DC-SRRs is optimized to minimize the mutual coupling between them. The DC-SRRs are loaded with the material under test (MUT) to perform differential permittivity sensing. When identical MUT is placed on both resonators, a single transmission zero (notch) is obtained, but non-identical MUTs exhibit two split notches. For the design of differential sensors and comparators based on symmetry disruption, frequency splitting is highly useful.

Findings

The proposed structure is demonstrated using electromagnetic simulation, and a prototype of the proposed sensor is fabricated and experimentally validated to prove the differential sensing principle. Here, the sensor is analyzed for sensitivity by using different MUTs with relative permittivity ranges from 1.006 to 10 and with a fixed dimension of 9 mm × 10 mm ×1.2 mm. It shows a very good average frequency deviation per unit change in permittivity of the MUTs, which is around 743 MHz, and it also exhibits a very high average relative sensitivity and quality factor of around 11.5% and 323, respectively.

Originality/value

The proposed sensor can be used for differential characterization of permittivity and also as a comparator to test the purity of solid dielectric samples. This sensor most importantly strengthens robustness to environmental conditions that cause cross-sensitivity or miscalibration. The accuracy of the measurement is enhanced as compared to conventional single- and double-notch metamaterial-based sensors.

Keywords

Citation

Singh, K.K., Kumar Mahto, S. and Sinha, R. (2024), "Differential metamaterial based sensor for solid dielectric characterization with improved sensitivity", Sensor Review, Vol. 44 No. 3, pp. 221-230. https://doi.org/10.1108/SR-03-2023-0045

Publisher

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Emerald Publishing Limited

Copyright © 2024, Emerald Publishing Limited

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