Anomalous Frequency-Dependent Conductivity in Disordered One-Dimensional Systems

26 March 1979

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 42 (13), 819-822
https://doi.org/10.1103/physrevlett.42.819

Abstract

Conduction by classical charge carriers is investigated for a one-dimensional system interrupted by barriers with a random distribution of activation energies. Under certain conditions the transport properties are dominated by disorder, and the model predicts an anomalous low-frequency conductivity

σ (ω) \sim {(- i ω)}^{ν}

, with

ν = \frac{(1 - \frac{T}{T_{m}})}{(1 + \frac{T}{T_{m}})}

, for

T < T_{m}

, and a mobility transition at

T = T_{m}

. The model is shown to describe recent experiments on the one-dimensional superionic conductor hollandite (

K_{1.54}

{Mg}_{0.77}

{Ti}_{7.23}

O_{16}

Keywords

This publication has 8 references indexed in Scilit:

Classical Diffusion in One-Dimensional Disordered Lattice
Physical Review Letters, 1978
Conductivity of quasi-one-dimensional metal systems
Advances in Physics, 1978
A theory of a.c. conduction in chalcogenide glasses
Philosophical Magazine, 1977
Cationic Short-Range Order in the Hollandite $K_{1.54}$ ${Mg}_{0.77}$ $T_{7.23}$ $O_{16}$ : Evidence for the Importance of Ion-Ion Interactions in Superionic Conductors
Physical Review Letters, 1976
Anomalous transit-time dispersion in amorphous solids
Physical Review B, 1975
Interrupted strand model for quasi one dimensional metals
Journal of Physics F: Metal Physics, 1973
Simple phenomenological model for the optical conductivity and dielectric constant of quasi one dimensional metallic conductors
Journal of Physics F: Metal Physics, 1972
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