Singular Effect of Disorder on Electronic Transport in Strong Coupling Electron-Phonon Systems
Abstract
We solve the disordered Holstein model in three dimensions considering the phonon variables to be classical. After mapping out the phases of the `clean' strong coupling problem, we focus on the effect of disorder at strong electron-phonon (EP) coupling. The presence of even weak disorder (i) enormously enhances the resistivity () at T=0, simultaneously suppressing the density of states at the Fermi level, (ii) suppresses the temperature dependent increase of , and (iii) leads to a regime with d/dT <0. We locate the origin of these anomalies in the disorder induced tendency towards polaron formation, and the associated suppression in effective carrier density and mobility. These results, explicitly at `metallic' density, are of direct relevance to disordered EP materials like covalent semiconductors, the manganites, and to anomalous transport in the A-15 compounds.
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