Vibrational Analysis of Ba5−xSrxNb4O15Microwave Dielectric Ceramic Resonators

The coupled vibration of piezoelectric ceramic disk resonators was analyzed using an analytical method whilst considering the piezoelectric effect. By introducing a mechanical coupling coefficient, the coupled vibration of the disk resonators was divided into two equivalent vibrations, which are the

## In this article we analyze the resonant characteristics of cylindrical dielectric-loaded resonators based on a two-dimensional cylin-( ) drical finite-difference᎐time-domain method 2D-CFDTD . First, we ¨alidate our approach by comparing the computed data for a specified structure with that a¨ai

Based on the piezoelectric e!ect and the wave equation, the coupled vibration of the piezoelectric ceramic thick disk resonator is studied when the shearing and torsion are neglected. The coupled vibration of the disk resonator is reduced to two equivalent vibrations, one being the equivalent radial

In this study, the microwave dielectric properties of (1-x)La(Mg 0.5 Sn 0.5 )O 3 -x(Sr 0.8 Ca 0.2 ) 3 Ti 2 O 7 ceramic system prepared by the conventional solid-state method have been investigated for application in mobile communication. It was found that the diffraction peaks of (1-x)La(Mg 0.5 Sn 0

Rigorous analysis of uniaxial bi-anisotropic dielectric resonators is carried out by the mode matching method. To validate our numerical model, results are satisfactorily ( ) compared with the literature for a uniaxial electric anisotropic dielectric resonator DR . Then bi-anisotropy effects of DRs