Fermi liquid theory for the Anderson model out of equilibrium
Abstract
We study low-energy properties of the Anderson impurity under a finite bias voltage V using the perturbation theory in U of Yamada and Yosida in the nonequilibrium Keldysh diagrammatic formalism, and obtain the Ward identities for the derivative of the self-energy with respect to V. The self-energy is calculated exactly up to terms of order ω2, T2 and V2, and the coefficients are defined with respect to the equilibrium ground state. From these results, the nonlinear response of the current through the impurity has been deduced up to order V3.
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