Drude weight and dc-conductivity of correlated electrons
Abstract
The Drude weight D and the dc-conductivity σdc (T) of strongly correlated electrons are investigated theoretically. Analytic results are derived for the homogeneous phase of the Hubbard model in d = ∞ dimensions, and for spinless fermions in this limit with 1/d-corrections systematically included to lowest order. It is found that σdc(T) is finite for all T > 0, displaying Fermi liquid behavior, σdc 1/T2, at low temperatures. The validity of this result for finite dimensions is examined by investigating the importance of Umklapp scattering processes and vertex corrections. A finite dc-conductivity for T > 0 is argued to be a generic feature of correlated lattice electrons in not too low dimensions.
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