Kondo model for the "0.7 anomaly" in transport through a quantum point contact
Abstract
Experiments on quantum point contacts have highlighted an anomalous conductance plateau at 0.7 (2e2/h), with features suggestive of the Kondo effect. Here we present an Anderson model for transport through a point contact which we analyze in the Kondo limit. Hybridization to the band increases abruptly with energy but decreases with valence, so that the background conductance and the Kondo temperature TK are dominated by different valence transitions. This accounts for the high residual conductance above TK. A spin-polarized current is predicted for Zeeman splitting g* μB B > kB TK,kBT.
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