Correlation-induced conductance suppression at level degeneracy in a quantum dot

Nilsson, H; Karlström, O; Larsson, Marcus; Caroff, Philippe; Pedersen, J N; Samuelson, Lars; Wacker, A; Wernersson, Lars-Erik; Xu, H. Q.

Correlation-induced conductance suppression at level degeneracy in a quantum dot

Date

2010

Authors

Nilsson, H

Karlström, O

Larsson, Marcus

Caroff, Philippe

Pedersen, J N

Samuelson, Lars

Wacker, A

Wernersson, Lars-Erik

Xu, H. Q.

Publisher

American Physical Society

Abstract

The large, level-dependent g factors in an InSb nanowire quantum dot allow for the occurrence of a variety of level crossings in the dot. While we observe the standard conductance enhancement in the Coulomb blockade region for aligned levels with different spins due to the Kondo effect, a vanishing of the conductance is found at the alignment of levels with equal spins. This conductance suppression appears as a canyon cutting through the web of direct tunneling lines and an enclosed Coulomb blockade region. In the center of the Coulomb blockade region, we observe the predicted correlation-induced resonance. Our findings are supported by numerical and analytical calculations.