Three-Dimensional Atomic-Scale Tomography of Buried Semiconductor Heterointerfaces

Journal article (2022)

Authors

Sebastian Koelling Polytechnique Montreal
L.E.A. Stehouwer Kavli institute of nanoscience Delft, QCD/Scappucci Lab - QuTech Advanced Research Centre , QuTech Advanced Research Centre
B. Paquelet Wuetz QuTech Advanced Research Centre, BUS/Quantum Delft - QuTech Advanced Research Centre , QCD/Scappucci Lab - QuTech Advanced Research Centre , Kavli institute of nanoscience Delft
G. Scappucci QCD/Scappucci Lab - QuTech Advanced Research Centre , QuTech Advanced Research Centre, Kavli institute of nanoscience Delft
O. Moutanabbir Polytechnique Montreal
Research Group
QCD/Scappucci Lab (QuTech Advanced Research Centre) (TU Delft)
Copyright: © 2022 Sebastian Koelling, L.E.A. Stehouwer, B. Paquelet Wuetz, G. Scappucci, Oussama Moutanabbir
DOI: https://doi.org/10.1002/admi.202201189
Atom probe tomography Atomic scale microscopy Epitaxial interfaces Semiconductor heterostructures
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Published Date

2022

Language

English

Faculty

QuTech Advanced Research Centre

Department

Quantum Computing Division

Research Group

QCD/Scappucci Lab

Abstract

Atom probes generate three-dimensional atomic-scale tomographies of material volumes corresponding to the size of modern-day solid-state devices. Here, the capabilities of atom probe tomography are evaluated to analyze buried interfaces in semiconductor heterostructures relevant for electronic and quantum devices. Employing brute-force search, the current dominant reconstruction protocol to generate tomographic three-dimensional images from Atom Probe data is advanced to its limits. Using Si/SiGe heterostructure for qubits as a model system, the authors show that it is possible to extract interface properties like roughness and width that agree with transmission electron microscopy observations on the sub-nanometer scale in an automated and highly reproducible manner. The demonstrated approach is a versatile method for atomic-scale characterization of buried interfaces in semiconductor heterostructures.