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Gomes, J.M., Bédard, C., Valtcheva, S., Nelson, M., Khokhlova, V., Pouget, P., Venance, L., Bal, T. and Destexhe, A. (2016) Intracellular Impedance Measurements Reveal Non-Ohmic Properties of the Extracellular Medium around Neurons. Biophysical Journal, 110, 234-246.
https://doi.org/10.1016/j.bpj.2015.11.019

has been cited by the following article:

• TITLE: Kramers-Kronig Relations and the Properties of Conductivity and Permittivity in Heterogeneous Media

  AUTHORS: Claude Bédard, Alain Destexhe

  KEYWORDS: Inhomogeneous Materials, Impedance, Mean-Field, Maxwell Equations, Hilbert Transform

  JOURNAL NAME: Journal of Electromagnetic Analysis and Applications, Vol.10 No.2, February 13, 2018

  ABSTRACT: The macroscopic electric permittivity of a given medium may depend on frequency, but this frequency dependence cannot be arbitrary, its real and imaginary parts are related by the well-known Kramers-Kronig relations. Here, we show that an analogous paradigm applies to the macroscopic electric conductivity. If the causality principle is taken into account, there exist Kramers-Kronig relations for conductivity, which are mathematically equivalent to the Hilbert transform. These relations impose strong constraints that models of heterogeneous media should satisfy to have a physically plausible frequency dependence of the conductivity and permittivity. We illustrate these relations and constraints by a few examples of known physical media. These extended relations constitute important constraints to test the consistency of past and future experimental measurements of the electric properties of heterogeneous media.