Variable-range hopping in quasi-one-dimensional electron crystals
摘要
We study the effect of impurities on the ground state and the low-temperature dc transport in a 1D chain and quasi-1D systems of many parallel chains. We assume that strong interactions impose a short-range periodicicity of the electron positions. The long-range order of such an electron crystal (or equivalently, a charge-density wave) is destroyed by impurities. The 3D array of chains behaves differently at large and at small impurity concentrations . At large , impurities divide the chains into metallic rods. The low-temperature conductivity is due to the variable-range hopping of electrons between the rods. It obeys the Efros-Shklovskii (ES) law and increases exponentially as decreases. When is small, the metallic-rod picture of the ground state survives only in the form of rare clusters of atypically short rods. They are the source of low-energy charge excitations. In the bulk the charge excitations are gapped and the electron crystal is pinned collectively. A strongly anisotropic screening of the Coulomb potential produces an unconventional linear in energy Coulomb gap and a new law of the variable-range hopping . remains constant over a finite range of impurity concentrations. At smaller the 2/5-law is replaced by the Mott law, where the conductivity gets suppressed as goes down. Thus, the overall dependence of on is nonmonotonic. In 1D, the granular-rod picture and the ES apply at all . The conductivity decreases exponentially with . Our theory provides a qualitative explanation for the transport in organic charge-density wave compounds.
引用
@article{arxiv.cond-mat/0307299,
title = {Variable-range hopping in quasi-one-dimensional electron crystals},
author = {M. M. Fogler and S. Teber and B. I. Shklovskii},
journal= {arXiv preprint arXiv:cond-mat/0307299},
year = {2007}
}
备注
20 pages, 7 figures. (v1) The abstract is abridged to 24 lines. For the full abstract, see the manuscript (v2) several changes in presentation per referee's comments. No change in results