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

Caroff, P.; Karlström, O.; Larsson, M.; Nilsson, H. A.; Pedersen, J. N.; Samuelson, L.; Wacker, A.; Wernersson, L. E.; Xu, H. Q.

research

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

Authors: P. Caroff
O. Karlström
M. Larsson
H. A. Nilsson
J. N. Pedersen
L. Samuelson
A. Wacker
L. E. Wernersson
H. Q. Xu
Publication date: 1 January 2010
Publisher: 'American Physical Society (APS)'
Doi

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, which now turns out to be part of a larger scenario. Our findings are supported by numerical and analytical calculations.Comment: 5 pages, 4 figure