Abstract
A concept of analyzing complex dielectric spectra under the assumption of a simultaneous contribution from two dispersion mechanisms to the dielectric response is proposed. It allows describing complex dielectric spectra of ferroelectrics and some conducting materials with unusual dispersions.
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G.I. Ovchinnikova, Yu.F. Korosteleva, and A.N. Sandalov, “Microwave Dielectric Spectra of Triglycine Sulfate,” Phys. Solid State. 35(9), 1259 (1993).
S.V. Ogurtsov, “Singularities of Triglycine Sulfate Permittivity Dispersion near the Phase Transition,” Sov. Phys.-Solid State. 20(6), 1612 (1978) [in Russian].
K. Funke, “Complex Conductivity of Solid Electrilytes in the Microwave Range,” Phys. Lett. A. 53(3), 215 (1975).
A.S. Bogatin, I.V. Lisitsa, and S.A. Bogatina, “The Effect of Percolation Conductivity on the Characteristics of Relaxation Polarization Processes,” Tech. Phys. Lett. 28(9), 779 (2002).
A.S. Bogatin, “Relaxation Polarizations: Strong and Weak Processes,” Phys. Solid State. 54(1), 62 (2012).
J. Grigas, “Microwave Dielectric Spectroscopy of Ferroelectrics and Related Materials,” Gordon and Breach Publishers. 9, 335 (1996).
A.A. Potapov, Orientation Polarization (Nauka, Novosibirsk, 2000), p. 334 [in Russian].
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Ovchinnikova, G.I., Eremeev, A.P., Polyakova, I.Y. et al. Relaxation dielectric spectra in the presence of conductivity. Phys. Wave Phen. 22, 262–265 (2014). https://doi.org/10.3103/S1541308X14040098
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DOI: https://doi.org/10.3103/S1541308X14040098