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A physics investigation on impedance matching theory in microwave absorption film—Part I. Theory

Ying Liu, Michael G. B. Drew, Yue Liu

2023Journal of Applied Physics21 citationsDOI

Abstract

The mechanism for microwave absorption in a film has previously been numerically verified from the theoretical formula for RL and attributed to angular and amplitude effects with a simple geometrical representation from energy conservation unique to the film. Starting from the case where |RL| = 0, using basic transmission-line theory and mathematics, it is confirmed theoretically here that the mechanism for absorption mechanism in a film, responsible for the minima of the reflection loss RL/dB, is best explained by wave cancelation theory rather than by impedance matching theory. This theoretical proof also reveals that the mechanisms for a film and material are different. The flaws of neglecting the phase effects of interfaces in a film in quarter-wavelength theory are also quantitatively discussed from transmission-line theory. Contrary to the theory held currently, the reported minima of RL/dB originate from phase effects in the film rather than from the resonance peaks for the intrinsic frequencies of a material.

Topics & Concepts

Maxima and minimaImpedance matchingMicrowaveAbsorption (acoustics)Resonance (particle physics)WavelengthTransmission lineOpticsElectrical impedanceReflection (computer programming)Phase (matter)PhysicsCharacteristic impedanceAmplitudeMatching (statistics)Computational physicsMaterials scienceCondensed matter physicsQuantum mechanicsMathematical analysisMathematicsComputer scienceStatisticsTelecommunicationsProgramming languageElectromagnetic wave absorption materialsMicrowave and Dielectric Measurement Techniques
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