Magdalena Huefner, Bruno Kueng, Stephan Schnez, Klaus Ensslin, Thomas Ihn, Matthias Reinwald, Werner Wegscheider
Published 2011-06-17Version 1
The metallic tip of a scanning force microscope operated at 300 mK is used to locally induce a potential in a fully controllable double quantum dot defined via local anodic oxidation in a GaAs/AlGaAs heterostructure. Using scanning gate techniques we record spatial images of the current through the sample for different numbers of electrons on the quantum dots (i.e., for different quantum states). Owing to the spatial resolution of current maps, we are able to determine the spatial position of the individual quantum dots, and investigate their apparent relative shifts due to the voltage applied to a single gate.
Journal: Physical Review B 83, 235326 (2011)
Backaction of a charge detector on a double quantum dot
Singlet-triplet splitting in double quantum dots due to spin orbit and hyperfine interactions
The Two-impurity Anderson Model Revisited: Competition between Kondo Effect and Reservoir-mediated Superexchange in Double Quantum Dots
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