Resonant Tunneling Spectroscopy of Interacting Localised States -- Observation of the Correlated Current Through Two Impurities
V. V. Kuznetsov, A. K. Savchenko (Exeter University, UK), D. R. Mace,, E. H. Linfield, D. A. Ritchie (Cavendish Laboratory, Cambridge, UK)
TL;DR
This paper investigates how Coulomb interactions between localized states in a barrier influence resonant tunneling, revealing correlated electron flow through two interacting localized states, supported by experimental spectra and theoretical calculations.
Contribution
It presents the first detailed experimental observation of correlated current flow through two interacting localized states in a tunneling structure.
Findings
Distinct peaks in conductance linked to localized states.
Electric field induces new states contributing to current.
Correlated electron flow confirmed by calculations.
Abstract
We study effects of Coulomb interactions between localised states in a potential barrier by measuring resonant-tunneling spectra with a small bias applied along the barrier. In the ohmic regime the conductance of 0.2um--gate lateral GaAs microstructures shows distinct peaks associated with individual localised states. However, when an electric field is applied new states start contributing to the current, which becomes a correlated electron flow through two interacting localised states. Several situations of such correlations have been observed, and the conclusions are confirmed by calculations.
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Taxonomy
TopicsSemiconductor Quantum Structures and Devices · Quantum and electron transport phenomena · Molecular Junctions and Nanostructures