Dielectric dispersion of laminated dielectrics

Abstract

The results of the dependence of the real part ε′ of the complex permittivity and the loss factor tanδ study on temperature and frequency for the insulation, composite and the three-layer dielectrics with various position of the boundary between layers are presented. The anomalous dielectric dispersion in the three-layer dielectrics with optimal position of the boundary between layers was discovered. To describe the experimental data the Debye functions superposition was used. Using the Debye functions superposition allows to define the contribution of a separate components of spectrum of the dielectric relaxation to the total dielectric dispersion. Good agreement between the experimental data and model predictions was found.

Original language	English
Pages (from-to)	646-649
Number of pages	4
Journal	Vide: Science, Technique et Applications
Issue number	287 SUPPL.1
Publication status	Published - 1998

ASJC Scopus subject areas

Surfaces, Coatings and Films
Physics and Astronomy (miscellaneous)
Surfaces and Interfaces

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Gefle, O. S., Lebedev, S. M., Pokholkov, Y. P., & Chichikin, V. I. (1998). Dielectric dispersion of laminated dielectrics. Vide: Science, Technique et Applications, (287 SUPPL.1), 646-649.

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author = "Gefle, {O. S.} and Lebedev, {S. M.} and Pokholkov, {Yu P.} and Chichikin, {V. I.}",

year = "1998",

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T1 - Dielectric dispersion of laminated dielectrics

AU - Gefle, O. S.

AU - Lebedev, S. M.

AU - Pokholkov, Yu P.

AU - Chichikin, V. I.

PY - 1998

Y1 - 1998

N2 - The results of the dependence of the real part ε′ of the complex permittivity and the loss factor tanδ study on temperature and frequency for the insulation, composite and the three-layer dielectrics with various position of the boundary between layers are presented. The anomalous dielectric dispersion in the three-layer dielectrics with optimal position of the boundary between layers was discovered. To describe the experimental data the Debye functions superposition was used. Using the Debye functions superposition allows to define the contribution of a separate components of spectrum of the dielectric relaxation to the total dielectric dispersion. Good agreement between the experimental data and model predictions was found.

AB - The results of the dependence of the real part ε′ of the complex permittivity and the loss factor tanδ study on temperature and frequency for the insulation, composite and the three-layer dielectrics with various position of the boundary between layers are presented. The anomalous dielectric dispersion in the three-layer dielectrics with optimal position of the boundary between layers was discovered. To describe the experimental data the Debye functions superposition was used. Using the Debye functions superposition allows to define the contribution of a separate components of spectrum of the dielectric relaxation to the total dielectric dispersion. Good agreement between the experimental data and model predictions was found.

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