Cole-Cole Broadening in Dielectric Relaxation and Strange Kinetics
Overview
Affiliations
We present a fresh appraisal of the Cole-Cole (CC) description of dielectric relaxation. While the approach is phenomenological, it demonstrates a fundamental connection between the parameters of the CC dispersion. Based on the fractal nature of the time set representing the interaction of the relaxing dipole with its encompassing matrix, and the Kirkwood-Froehlich correlation factor, a new 3D phase space linking together the kinetic and structural properties is proposed. The evolution of the relaxation process is represented in this phase space by a trajectory, which is determined by the variation of external macroscopic parameters. As an example, the validity of the approach is demonstrated on two porous silica glasses exhibiting a CC relaxation process.
Galindo C, Livshits L, Tarabeih L, Barshtein G, Einav S, Feldman Y Eur Biophys J. 2024; 53(4):183-192.
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Yagihara S, Watanabe S, Abe Y, Asano M, Shimizu K, Saito H Gels. 2023; 9(7).
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Siwach P, Levy E, Livshits L, Feldman Y, Kaganovich D Sci Rep. 2020; 10(1):9095.
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Continuous noninvasive glucose monitoring; water as a relevant marker of glucose uptake in vivo.
Caduff A, Ben Ishai P, Feldman Y Biophys Rev. 2019; 11(6):1017-1035.
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Broadband dielectric spectroscopy from sub GHz to THz of hydrated lipid bilayer of DMPC.
Kadomura Y, Yamamoto N, Tominaga K Eur Phys J E Soft Matter. 2019; 42(10):139.
PMID: 31664606 DOI: 10.1140/epje/i2019-11901-1.