Frequency-dependent (ac) Conduction in Disordered Composites: a Percolative Study
Abstract
In a recent paper [Phys. Rev. B{\bf57}, 3375 (1998)], we examined in detail the nonlinear (electrical) dc response of a random resistor cum tunneling bond network (, introduced by us elsewhere to explain nonlinear response of metal-insulator type mixtures). In this work which is a sequel to that paper, we consider the ac response of the -based correlated () model. Numerical solutions of the Kirchoff's laws for the model give a power-law exponent (= 0.7 near ) of the modulus of the complex ac conductance at moderately low frequencies, in conformity with experiments on various types of disordered systems. But, at very low frequencies, it gives a simple quadratic or linear dependence on the frequency depending upon whether the system is percolating or not. We do also discuss the effective medium approximation () of our and the traditional random network model, and discuss their comparative successes and shortcomings.
Cite
@article{arxiv.cond-mat/9806282,
title = {Frequency-dependent (ac) Conduction in Disordered Composites: a Percolative Study},
author = {Asok K. Sen and Abhijit Kar Gupta},
journal= {arXiv preprint arXiv:cond-mat/9806282},
year = {2009}
}
Comments
Revised and reduced version with 17 LaTeX pages plus 8 JPEG figures