Low-temperature nonequilibrium transport in a Luttinger liquid

Abstract

The temperature-dependent nonlinear conductance for transport of a Luttinger liquid through a barrier is calculated in the nonperturbative regime for g=1/2-ε, where g is the dimensionless interaction constant. To describe the low-energy behavior, we perform a leading-log summation of all diagrams contributing to the conductance which is valid for |ε| << 1. With increasing external voltage, the asymptotic low-temperature behavior displays a turnover from the T2/g-2 to a universal T2 law.

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