Tunable electron counting statistics in a quantum dot at thermal equilibrium

X. C. Zhang; G. Mazzeo; Arne Brataas; Ming Xiao; Eli Yablonovitch; Hong-Wen Jiang

doi:10.1103/physrevb.80.035321

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Tunable electron counting statistics in a quantum dot at thermal equilibrium

Article 2009 en

Authors

XZ
X. C. Zhang
GM
G. Mazzeo
AB
Arne Brataas

Abstract

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Tunneling of individual electrons into and out of a GaAs quantum dot is measured in real time by an adjacent charge detector. By controllably increasing the tunneling rate at thermal equilibrium, the full-counting statistics of these tunneling events shows a sub- to super-Poissonian transition, accompanied by a sign reversal of its third statistical moment. These anomalies are believed to be caused by electron tunneling through the singlet-triplet states of an elongated double dot, confirmed by a self-consistent Poisson-Schr\"odinger wave-function calculation.

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