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 relevance of interdisciplinary cooperation to move emerging quantum industry forward. The review consists of two main sections: Pathways towards the electron flying qubit: We address three routes of single-electron transport in GaAs-based devices focusing on surface acoustic waves, hot-electron emission from quantum dot pumps and Levitons. For each approach, we discuss latest experimental results and point out how numerical simulations facilitate engineering the electron flying qubit. Numerical modelling of quantum devices: We review the full stack of numerical simulations needed for fabrication of the flying qubits. Choosing appropriate models, examples of basic quantum mechanical simulations are explained in detail. We discuss applications of open-source (KWANT) and the commercial (nextnano) platforms for modelling the flying qubits. The discussion points out the large relevance of software tools to design quantum devices tailored for efficient operation.
Cite
@article{arxiv.2207.01318,
title = {Semiconductor-based electron flying qubits: Review on recent progress accelerated by numerical modelling},
author = {Hermann Edlbauer and Junliang Wang and Thierry Crozes and Pierre Perrier and Seddik Ouacel and Clément Geffroy and Giorgos Georgiou and Eleni Chatzikyriakou and Antonio Lacerda-Santos and Xavier Waintal and D. Christian Glattli and Preden Roulleau and Jayshankar Nath and Masaya Kataoka and Janine Splettstoesser and Matteo Acciai and Maria Cecilia da Silva Figueira and Kemal Öztas and Alex Trellakis and Thomas Grange and Oleg M. Yevtushenko and Stefan Birner and Christopher Bäuerle},
journal= {arXiv preprint arXiv:2207.01318},
year = {2022}
}
Comments
44 pages, 13 figure, this review will be published in Collection on "Quantum Industry" of EPJ Quantum Technology