Hartree simulations of coupled quantum Hall edge states in corner-overgrown heterostructures

L. Steinke; P. Cantwell; E. Stach; D. Schuh; A. Fontcuberta I Morral; M. Bichler; G. Abstreiter; M. Grayson

doi:10.1103/PhysRevB.87.165428

Hartree simulations of coupled quantum Hall edge states in corner-overgrown heterostructures

L. Steinke, P. Cantwell, E. Stach, D. Schuh, A. Fontcuberta I Morral, M. Bichler, G. Abstreiter, M. Grayson

Natural Sciences

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

The electronic states in a corner-overgrown bent GaAs/AlGaAs quantum well heterostructure are studied with numerical Hartree simulations. Transmission electron microscope pictures of the junction sharpness are shown to justify the sharp-corner potential assumed for these calculations. In a tilted magnetic field, both facets of the bent quantum well are brought to a quantum Hall (QH) state, and the corner hosts an unconventional hybrid system of coupled counter-propagating quantum Hall edges and an additional 1D accumulation wire. We show how, in contrast to coplanar barrier-junctions of QH systems, the coupling between the three subsystems increases as a function of the applied magnetic field, and discuss the implications of the numerical results for the interpretation of experimental data on bent quantum Hall systems reported elsewhere.

Original language	English
Article number	165428
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	87
Issue number	16
DOIs	https://doi.org/10.1103/PhysRevB.87.165428
State	Published - 17 Apr 2013

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abstract = "The electronic states in a corner-overgrown bent GaAs/AlGaAs quantum well heterostructure are studied with numerical Hartree simulations. Transmission electron microscope pictures of the junction sharpness are shown to justify the sharp-corner potential assumed for these calculations. In a tilted magnetic field, both facets of the bent quantum well are brought to a quantum Hall (QH) state, and the corner hosts an unconventional hybrid system of coupled counter-propagating quantum Hall edges and an additional 1D accumulation wire. We show how, in contrast to coplanar barrier-junctions of QH systems, the coupling between the three subsystems increases as a function of the applied magnetic field, and discuss the implications of the numerical results for the interpretation of experimental data on bent quantum Hall systems reported elsewhere.",

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AU - Steinke, L.

AU - Cantwell, P.

AU - Stach, E.

AU - Schuh, D.

AU - Fontcuberta I Morral, A.

AU - Bichler, M.

AU - Abstreiter, G.

AU - Grayson, M.

PY - 2013/4/17

Y1 - 2013/4/17

N2 - The electronic states in a corner-overgrown bent GaAs/AlGaAs quantum well heterostructure are studied with numerical Hartree simulations. Transmission electron microscope pictures of the junction sharpness are shown to justify the sharp-corner potential assumed for these calculations. In a tilted magnetic field, both facets of the bent quantum well are brought to a quantum Hall (QH) state, and the corner hosts an unconventional hybrid system of coupled counter-propagating quantum Hall edges and an additional 1D accumulation wire. We show how, in contrast to coplanar barrier-junctions of QH systems, the coupling between the three subsystems increases as a function of the applied magnetic field, and discuss the implications of the numerical results for the interpretation of experimental data on bent quantum Hall systems reported elsewhere.

AB - The electronic states in a corner-overgrown bent GaAs/AlGaAs quantum well heterostructure are studied with numerical Hartree simulations. Transmission electron microscope pictures of the junction sharpness are shown to justify the sharp-corner potential assumed for these calculations. In a tilted magnetic field, both facets of the bent quantum well are brought to a quantum Hall (QH) state, and the corner hosts an unconventional hybrid system of coupled counter-propagating quantum Hall edges and an additional 1D accumulation wire. We show how, in contrast to coplanar barrier-junctions of QH systems, the coupling between the three subsystems increases as a function of the applied magnetic field, and discuss the implications of the numerical results for the interpretation of experimental data on bent quantum Hall systems reported elsewhere.

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Hartree simulations of coupled quantum Hall edge states in corner-overgrown heterostructures

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