A two-site Kitaev chain in a two-dimensional electron gas

Journal article (2024)

Authors

S.L.D. ten Haaf QuTech Advanced Research Centre, Kavli institute of nanoscience Delft, QRD/Goswami Lab - QuTech Advanced Research Centre
Q. Wang QRD/Goswami Lab - QuTech Advanced Research Centre , Kavli institute of nanoscience Delft, QuTech Advanced Research Centre
M.T. Wimmer QuTech Advanced Research Centre, Kavli institute of nanoscience Delft, QN/Wimmer Group - AS
S. Goswami QuTech Advanced Research Centre, Kavli institute of nanoscience Delft, QRD/Goswami Lab - QuTech Advanced Research Centre
A.M. Bozkurt QRD/Wimmer Group - QuTech Advanced Research Centre , Kavli institute of nanoscience Delft, QuTech Advanced Research Centre
C. Liu Kavli institute of nanoscience Delft, QuTech Advanced Research Centre, QRD/Wimmer Group - QuTech Advanced Research Centre
I. Kulesh QRD/Goswami Lab - QuTech Advanced Research Centre , Kavli institute of nanoscience Delft, QuTech Advanced Research Centre
Philip Kim Student
Di Xiao Purdue University
Candice Thomas Purdue University
Michael J. Manfra Purdue University
T. Dvir QRD/Kouwenhoven Lab - QuTech Advanced Research Centre , QuTech Advanced Research Centre, Kavli institute of nanoscience Delft
Research Group
QRD/Goswami Lab (QuTech Advanced Research Centre) (TU Delft)
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Published Date

2024

Language

English

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Faculty

QuTech Advanced Research Centre

Department

Qubit Research Division

Research Group

QRD/Goswami Lab

Abstract

Artificial Kitaev chains can be used to engineer Majorana bound states (MBSs) in superconductor–semiconductor hybrids1,2,3,4. In this work, we realize a two-site Kitaev chain in a two-dimensional electron gas by coupling two quantum dots through a region proximitized by a superconductor. We demonstrate systematic control over inter-dot couplings through in-plane rotations of the magnetic field and via electrostatic gating of the proximitized region. This allows us to tune the system to sweet spots in parameter space, where robust correlated zero-bias conductance peaks are observed in tunnelling spectroscopy. To study the extent of hybridization between localized MBSs, we probe the evolution of the energy spectrum with magnetic field and estimate the Majorana polarization, an important metric for Majorana-based qubits5,6. The implementation of a Kitaev chain on a scalable and flexible two-dimensional platform provides a realistic path towards more advanced experiments that require manipulation and readout of multiple MBSs.

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