Semiconductor-based electron flying qubits: Review on recent progress accelerated by numerical modelling

Abstract: The progress of charge manipulation in semiconductor-based nanoscale devices opened up a novel route to realise a flying qubit with a single electron. In the present review, we introduce the concept of these electron flying qubits, discuss their most promising realisations and show how numerical simulations are applicable to accelerate experimental development cycles. Addressing the technological challenges of flying qubits that are currently faced by academia and quantum enterprises, we underline the relevanc… Show more

“…Key enabling technologies are: electron sources (e.g., tunable quantum dot designs in Si 4 and MoS 2 5 and two-electron sources 6 ), coherent circuits, 7 and electron detection. 8 All these technologies are key to electronic quantum applications in sensing, 9 metrology, 10 tomography, 11 and information processing (i.e., flying charge qubit systems 1,12 ). As is shown in this work, electron quantum optics also provides particular exciting opportunities for a novel type of quantum interference structure.…”

Gate-controlled electron quantum interference logic

“…Key enabling technologies are: electron sources (e.g., tunable quantum dot designs in Si 4 and MoS 2 5 and two-electron sources 6 ), coherent circuits, 7 and electron detection. 8 All these technologies are key to electronic quantum applications in sensing, 9 metrology, 10 tomography, 11 and information processing (i.e., flying charge qubit systems 1,12 ). As is shown in this work, electron quantum optics also provides particular exciting opportunities for a novel type of quantum interference structure.…”

Gate-controlled electron quantum interference logic