Nonequilibrium Kondo Effect in a Multi-level Quantum Dot near
  singlet-triplet transition

B. Dong; B. Dong; B. Dong; Bing Dong; D. Goldhaber-Gordon; G. Kotliar; J. Nygȧrd; J. Schmid; M. Eto; M. Eto; M. Pustilnik; M. Pustilnik; M. Pustilnik; M. Pustilnik; M. Vojta; S. Sasaki; S.M. Cronenwett; V. Dorin; W. Hofstetter; W. Izumida; W.G. van der Wiel; W.G. van der Wiel; X. L. Lei

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Nonequilibrium Kondo Effect in a Multi-level Quantum Dot near singlet-triplet transition

Authors: B. Dong
B. Dong
B. Dong
Bing Dong
D. Goldhaber-Gordon
G. Kotliar
J. Nygȧrd
J. Schmid
M. Eto
M. Eto
M. Pustilnik
M. Pustilnik
M. Pustilnik
M. Pustilnik
M. Vojta
S. Sasaki
S.M. Cronenwett
V. Dorin
W. Hofstetter
W. Izumida
W.G. van der Wiel
W.G. van der Wiel
X. L. Lei
Publication date: 30 September 2002
Publisher: 'American Physical Society (APS)'
Doi

Abstract

The linear and nonlinear transport through a multi-level lateral quantum dot connected to two leads is investigated using a generalized finite-

U

slave-boson mean field approach. For a two-level quantum dot, our calculation demonstrates a substantial conductance enhancement near the degeneracy point of the spin singlet and triplet states, a non-monotonic temperature-dependence of conductance and a sharp dip and nonzero bias maximum of the differential conductance. These agree well with recent experiment observations. This two-stage Kondo effect in an out-of-equilibrium situation is attributed to the interference between the two energy levels.Comment: 4 pages, 3 figure

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