Spin-orbit interaction in a dual gated InAs/GaSb quantum well

Journal article (2017)

Authors

A.J.A. Beukman QuTech Advanced Research Centre, Kavli institute of nanoscience Delft, QRD/Kouwenhoven Lab - QuTech Advanced Research Centre
F.K. de Vries QRD/Kouwenhoven Lab - QuTech Advanced Research Centre , QuTech Advanced Research Centre, Kavli institute of nanoscience Delft
J. van Veen QuTech Advanced Research Centre, Kavli institute of nanoscience Delft, QRD/Kouwenhoven Lab - QuTech Advanced Research Centre
R.J. Skolasinski QuTech Advanced Research Centre, Kavli institute of nanoscience Delft, QRD/Wimmer Group - QuTech Advanced Research Centre
M.T. Wimmer QuTech Advanced Research Centre, Kavli institute of nanoscience Delft, QRD/Wimmer Group - QuTech Advanced Research Centre
F. Qu Kavli institute of nanoscience Delft, QRD/Kouwenhoven Lab - QuTech Advanced Research Centre , QuTech Advanced Research Centre
David T. De Vries Student, Kavli institute of nanoscience Delft
Binh Minh Nguyen HRL Laboratories
Leo P. Kouwenhoven QuTech Advanced Research Centre, Kavli institute of nanoscience Delft, QRD/Kouwenhoven Lab - QuTech Advanced Research Centre , Microsoft Quantum Lab Delft
Research Group
QRD/Kouwenhoven Lab (QuTech Advanced Research Centre) (TU Delft)
Copyright: © 2017 A.J.A. Beukman, F.K. de Vries, J. van Veen, R.J. Skolasinski, M.T. Wimmer, F. Qu, David T. De Vries, Binh Minh Nguyen, Leo P. Kouwenhoven
DOI: https://doi.org/10.1103/PhysRevB.96.241401
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Published Date

2017

Language

English

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Faculty

QuTech Advanced Research Centre

Department

Qubit Research Division

Research Group

QRD/Kouwenhoven Lab

Abstract

The spin-orbit interaction is investigated in a dual gated InAs/GaSb quantum well. Using an electric field, the quantum well can be tuned between a single-carrier regime with exclusively electrons as carriers and a two-carrier regime where electrons and holes coexist. The spin-orbit interaction in both regimes manifests itself as a beating in the Shubnikov-de Haas oscillations. In the single-carrier regime the linear Dresselhaus strength is characterized by β=28.5 meV Å and the Rashba coefficient α is tuned from 75 to 53 meV Å by changing the electric field. In the two-carrier regime a quenching of the spin splitting is observed and attributed to a crossing of spin bands.