Electrical Conductivity of Fermi Liquids. I. Many-body Effect on the Drude Weight

Abstract

On the basis of the Fermi liquid theory, we investigate the many-body effect on the Drude weight. In a lattice system, the Drude weight D is modified by electron-electron interaction due to Umklapp processes, while it is not renormalized in a Galilean invariant system. This is explained by showing that the effective mass m' for D n/m' is defined through the current, not velocity, of quasiparticle. It is shown that the inequality D>0 is required for the stability against the uniform shift of the Fermi surface. The result of perturbation theory applied for the Hubbard model indicates that D as a function of the density n is qualitatively modified around half filling n 1 by Umklapp processes.

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