Weak localization effects in granular metals
Abstract
The weak localization correction to the conductivity of a granular metal is calculated using the diagrammatic technique in the reciprocal grain lattice representation. The properties of this correction are very similar to that one in disordered metal, with the replacement of the electron mean free path by the grain diameter d and the dimensionless conductance g by the tunnelling dimensionless conductance gT. In particular, we demonstrate that at zero temperature no conducting phase can exist for dimensions D≤ 2. We also analyze the WL correction to magnetoconductivity in the weak field limit.
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