Fundamental Mechanisms Responsible for the Temperature Coefficient of Resonant Frequency in Microwave Dielectric Ceramics
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BRONZE
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Abstract
The temperature coefficient of resonant frequency (τf) of a microwave resonator is determined by three materials parameters according to the following equation: τf=−(½ τε + ½ τμ + αL), where αL, τε, and τμ are defined as the linear temperature coefficients of the lattice constant, dielectric constant, and magnetic permeability, respectively. We have experimentally determined each of these parameters for Ba(Zn1/3Ta2/3)O3, 0.8 at.% Ni-doped Ba(Zn1/3Ta2/3)O3, and Ba(Ni1/3Ta2/3)O3 ceramics. These results, in combination with density functional theory calculations, have allowed us to develop a much improved understanding of the fundamental physical mechanisms responsible for the temperature coefficient of resonant frequency, τf.
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Keywords
Density functional theory, Dilatation/dilatometry, Electron Spin Resonance, Microwave resonators, Doping (additives), Dilatation/dilatometry, Physics, Density functional theory, Doping (additives), Electron Spin Resonance, Microwave resonators
Fields of Science
0103 physical sciences, 02 engineering and technology, 0210 nano-technology, 01 natural sciences
Citation
Zhang, S., Şahin, H., Torun, E., Peeters, F., Martien, D., DaPron, T., Dilley, N., and Newman, N. (2017). Fundamental mechanisms responsible for the temperature coefficient of resonant frequency in microwave dielectric ceramics. Journal of the American Ceramic Society, 100(4), 1508-1516. doi:10.1111/jace.14648
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OpenCitations Citation Count
19
Volume
100
Issue
4
Start Page
1508
End Page
1516
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