Universal Resistances of the Quantum RC circuit

Abstract

We examine the concept of universal quantized resistance in the AC regime through the fully coherent quantum RC circuit comprising a cavity (dot) capacitively coupled to a gate and connected via a single spin-polarized channel to a reservoir lead. As a result of quantum effects such as the Coulomb interaction in the cavity and global phase coherence, we show that the charge relaxation resistance Rq is identical for weak and large transmissions and it changes from h/2e2 to h/e2 when the frequency (times ) exceeds the level spacing of the cavity; h is the Planck constant and e the electron charge. For large cavities, we formulate a correspondence between the charge relaxation resistance h/e2 and the Korringa-Shiba relation of the Kondo model. Furthermore, we introduce a general class of models, for which the charge relaxation resistance is universal. Our results emphasize that the charge relaxation resistance is a key observable to understand the dynamics of strongly correlated systems.