Abstract
This paper describes the characterization of high-permittivity materials with a dielectric constant ( $\epsilon _{r}$ ) up to 3000 using resonant phenomena. We propose and demonstrate two types of measurement techniques: the rectangular resonator method by controlling the sample insertion length and the waveguide reflection method with a sample terminated by a short circuit. We investigate the validity and the range of application of both methods by performing numerical calculations. We also experimentally demonstrate these two methods by measuring dielectric materials with $\epsilon _{r}$ ~100 and 200 for the former method and those with $\epsilon _{r}$ ~200, 1400, 1700, and 2900 for the latter method. By estimating the measurement uncertainty using Monte Carlo calculations, we clarify that the results obtained by both methods for a dielectric material with $\epsilon _{r}$ ~ 200 are almost consistent within the ranges of the uncertainties.
Published Version
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call