Induced superconductivity in antimony-based two-dimensional electron gases

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doi:10.4233/uuid:c4d83571-9445-44b7-b495-5d18ca66ef4f

Induced superconductivity in antimony-based two-dimensional electron gases

Doctoral Thesis (2023)

Author(s)

C.M. Möhle (TU Delft - QRD/Goswami Lab)

Research Group

QRD/Goswami Lab

Two-dimensional electron gases Planar Josephson junctions Mesoscopic superconductivity

DOI related publication

https://doi.org/10.4233/uuid:c4d83571-9445-44b7-b495-5d18ca66ef4f Final published version

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https://doi.org/10.4233/uuid:c4d83571-9445-44b7-b495-5d18ca66ef4f

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Publication Year

2023

Language

English

Research Group

QRD/Goswami Lab

ISBN (print)

978-90-8593-549-0

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180

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Abstract

Majorana zero modes (MZMs) are a topic of intense research as they constitute the main building block of topological qubits - a qubit type with potentially enhanced coherence time. A promising way to create these quantum states is to couple a one-dimensional (1D) semiconducting segment with spin-orbit interaction to a superconductor, in the presence of an external magnetic field. Growing the active semiconductor as a 2D layer and creating 1Dstructures by top-downprocessing might allowto realize complex multiqubit devices in the future. This thesis explores antimony-based two-dimensional electron gases (2DEGs), known for their favorable material properties, as platforms for topological superconductivity....

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