Abstract
This paper reports on a detailed experimental study of quasioptical
dielectric resonators (QDRs) designed in the form of a truncated cone and
excited on whispering-gallery modes. One aim of this paper is to study of
the eigenfrequency spectrum and quality factors of single-crystal sapphire
resonators. A second aim is to show the applicability of the resonator technique
not only in optical but also in the millimeter-wave range, in particular,
for studying the surface resistance $(R_{s})$ of high-temperature superconducting films. The measured frequencies
of QDR as a function of the wedge angle of the cone resonator are in a good
agreement with those frequencies simulated using the CST Microwave
Studio 2006 program. Additionally, electrodynamic characteristics of the cone
resonator and hemispherical dielectric resonator with conducting endplate
are compared.
© 2008 IEEE
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