Dispersion Relations for Proton Relaxation in Solid Dielectrics

Abstract

Frequency-temperature spectra of the complex permittivity are studied for proton semiconductors and dielectrics using the methods of a quasi-classical kinetic theory of dielectric relaxation (the Boltzmann kinetic theory) in the linear approximation with respect to the polarizing field in the radio frequency range at temperatures T = 50-450 K. The effect of the quantum transitions of protons on the Debye dispersion relations is taken into account for crystals with hydrogen bonds (HBC) at low temperatures (50-100 K). The diffusion coefficients and the mobilities under electrical transfer of protons in the HBCs are constructed at high temperatures (100-350 K) in a non-linear approximation with respect to the polarizing field.

Original language	English
Pages (from-to)	1-11
Number of pages	11
Journal	Russian Physics Journal
DOIs	https://doi.org/10.1007/s11182-017-1027-5
Publication status	Accepted/In press - 8 Apr 2017

Keywords

Cole-Cole diagrams
crystals with hydrogen bonds
dispersion relations
interlayer polarization
proton conductivity
spectra of the complex permittivity

ASJC Scopus subject areas

Physics and Astronomy(all)

Access to Document

10.1007/s11182-017-1027-5

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title = "Dispersion Relations for Proton Relaxation in Solid Dielectrics",

abstract = "Frequency-temperature spectra of the complex permittivity are studied for proton semiconductors and dielectrics using the methods of a quasi-classical kinetic theory of dielectric relaxation (the Boltzmann kinetic theory) in the linear approximation with respect to the polarizing field in the radio frequency range at temperatures T = 50-450 K. The effect of the quantum transitions of protons on the Debye dispersion relations is taken into account for crystals with hydrogen bonds (HBC) at low temperatures (50-100 K). The diffusion coefficients and the mobilities under electrical transfer of protons in the HBCs are constructed at high temperatures (100-350 K) in a non-linear approximation with respect to the polarizing field.",

keywords = "Cole-Cole diagrams, crystals with hydrogen bonds, dispersion relations, interlayer polarization, proton conductivity, spectra of the complex permittivity",

author = "Kalytka, {V. A.} and Korovkin, {M. V.}",

year = "2017",

month = apr,

day = "8",

doi = "10.1007/s11182-017-1027-5",

language = "English",

pages = "1--11",

journal = "Russian Physics Journal",

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TY - JOUR

T1 - Dispersion Relations for Proton Relaxation in Solid Dielectrics

AU - Kalytka, V. A.

AU - Korovkin, M. V.

PY - 2017/4/8

Y1 - 2017/4/8

N2 - Frequency-temperature spectra of the complex permittivity are studied for proton semiconductors and dielectrics using the methods of a quasi-classical kinetic theory of dielectric relaxation (the Boltzmann kinetic theory) in the linear approximation with respect to the polarizing field in the radio frequency range at temperatures T = 50-450 K. The effect of the quantum transitions of protons on the Debye dispersion relations is taken into account for crystals with hydrogen bonds (HBC) at low temperatures (50-100 K). The diffusion coefficients and the mobilities under electrical transfer of protons in the HBCs are constructed at high temperatures (100-350 K) in a non-linear approximation with respect to the polarizing field.

AB - Frequency-temperature spectra of the complex permittivity are studied for proton semiconductors and dielectrics using the methods of a quasi-classical kinetic theory of dielectric relaxation (the Boltzmann kinetic theory) in the linear approximation with respect to the polarizing field in the radio frequency range at temperatures T = 50-450 K. The effect of the quantum transitions of protons on the Debye dispersion relations is taken into account for crystals with hydrogen bonds (HBC) at low temperatures (50-100 K). The diffusion coefficients and the mobilities under electrical transfer of protons in the HBCs are constructed at high temperatures (100-350 K) in a non-linear approximation with respect to the polarizing field.

KW - Cole-Cole diagrams

KW - crystals with hydrogen bonds

KW - dispersion relations

KW - interlayer polarization

KW - proton conductivity

KW - spectra of the complex permittivity

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