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Fast and Robust Characterization of Lossy Dielectric Slabs Using Rectangular Waveguides
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A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä
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10
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IEEE Transactions on Microwave Theory and Techniques, Volume 70, issue 4, pp. 2341-2350
Abstract
Waveguide characterization of dielectric materials is a convenient and broadband approach for measuring dielectric constant. In conventional microwave measurements, material samples are usually mechanically shaped to fit waveguide opening and measured in closed waveguides. This method is not practical for millimeter-wave and sub-millimeter-wave measurements where waveguide openings become tiny, and it is rather difficult to shape the sample to exactly the same dimensions as the waveguide cross section. In this article, we present a method that allows one to measure arbitrarily shaped dielectric slabs that extend outside waveguides. In this method, the measured sample is placed between two waveguide flanges, creating a discontinuity. The measurement system is characterized as an equivalent Π-circuit, and the circuit elements of the Π -circuit are extracted from the scattering parameters. We have found that the equivalent shunt impedance of the measured sample is only determined by the material permittivity and is rather insensitive to the sample shape, position, sizes, and other structural details of the discontinuity. This feature can be leveraged for accurate measurements of permittivity. We provide an analytical extraction formula for thin-layer dielectric samples. For thick layers, a numerical optimization method based on a feed-forward neural network is introduced to retrieve the permittivity. The proposed method is very useful for measuring the permittivity of medium-loss and high-loss dielectrics from microwave to sub-terahertz frequencies.
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Wang, X & Tretyakov, S A 2022, 'Fast and Robust Characterization of Lossy Dielectric Slabs Using Rectangular Waveguides', IEEE Transactions on Microwave Theory and Techniques, vol. 70, no. 4, pp. 2341-2350. https://doi.org/10.1109/TMTT.2022.3143827