Non-ohmic effects of anderson localization
- 1 December 1980
- journal article
- research article
- Published by Taylor & Francis in Philosophical Magazine Part B
- Vol. 42 (6) , 827-833
- https://doi.org/10.1080/01418638008222330
Abstract
A scaling argument for the conductance G of a disordered electronic system is given. For dimensionality d > 2, there is a mobility edge at which the conductivity goes continuously to zero. At d = 2, there is no true metallic conduction; the conductivity goes smoothly from logarithmic to exponential decrease with sample size L. A perturbation calculation confirms the In L behaviour for weak disorder. At finite temperature T, electric field E or frequency ω, effective length scales depending upon T, E and ω are derived for purposes of comparison with experiments on thin films. These show non-Ohmic In (T, E, ω) contributions to the conductivity.Keywords
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