Author
Listed:
- Tzu-Kan Hsiao
(University of Cambridge
Delft University of Technology)
- Antonio Rubino
(University of Cambridge
LS Instruments AG)
- Yousun Chung
(University of Cambridge
University of New South Wales)
- Seok-Kyun Son
(University of Cambridge
Mokpo National University)
- Hangtian Hou
(University of Cambridge)
- Jorge Pedrós
(University of Cambridge
Universidad Polit écnica de Madrid)
- Ateeq Nasir
(University of Cambridge
National Physical Laboratory)
- Gabriel Éthier-Majcher
(University of Cambridge)
- Megan J. Stanley
(University of Cambridge
University of California)
- Richard T. Phillips
(University of Cambridge)
- Thomas A. Mitchell
(University of Cambridge)
- Jonathan P. Griffiths
(University of Cambridge)
- Ian Farrer
(University of Cambridge
University of Sheffield)
- David A. Ritchie
(University of Cambridge)
- Christopher J. B. Ford
(University of Cambridge)
Abstract
The long-distance quantum transfer between electron-spin qubits in semiconductors is important for realising large-scale quantum computing circuits. Electron-spin to photon-polarisation conversion is a promising technology for achieving free-space or fibre-coupled quantum transfer. In this work, using only regular lithography techniques on a conventional 15 nm GaAs quantum well, we demonstrate acoustically-driven generation of single photons from single electrons, without the need for a self-assembled quantum dot. In this device, a single electron is carried in a potential minimum of a surface acoustic wave (SAW) and is transported to a region of holes to form an exciton. The exciton then decays and creates a single optical photon within 100 ps. This SAW-driven electroluminescence, without optimisation, yields photon antibunching with g(2)(0) = 0.39 ± 0.05 in the single-electron limit (g(2)(0) = 0.63 ± 0.03 in the raw histogram). Our work marks the first step towards electron-to-photon (spin-to-polarisation) qubit conversion for scaleable quantum computing architectures.
Suggested Citation
Tzu-Kan Hsiao & Antonio Rubino & Yousun Chung & Seok-Kyun Son & Hangtian Hou & Jorge Pedrós & Ateeq Nasir & Gabriel Éthier-Majcher & Megan J. Stanley & Richard T. Phillips & Thomas A. Mitchell & Jonat, 2020.
"Single-photon emission from single-electron transport in a SAW-driven lateral light-emitting diode,"
Nature Communications, Nature, vol. 11(1), pages 1-7, December.
Handle:
RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-14560-1
DOI: 10.1038/s41467-020-14560-1
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