Quantum tomography of electrical currents

Elementary excitations of electronic devices have potential use in quantum information but control and readout capabilities are not as developed as they are for more mature systems such as photonic qubits. Here the authors develop and demonstrate a tomographic protocol for electron and hole wavefunc...

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Auteurs principaux: R. Bisognin, A. Marguerite, B. Roussel, M. Kumar, C. Cabart, C. Chapdelaine, A. Mohammad-Djafari, J.-M. Berroir, E. Bocquillon, B. Plaçais, A. Cavanna, U. Gennser, Y. Jin, P. Degiovanni, G. Fève
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Langue:EN
Publié: Nature Portfolio 2019
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Accès en ligne:https://doaj.org/article/40b1ba7e6fca452d98e2c5b23afef54f
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spelling oai:doaj.org-article:40b1ba7e6fca452d98e2c5b23afef54f2021-12-02T14:35:44ZQuantum tomography of electrical currents10.1038/s41467-019-11369-52041-1723https://doaj.org/article/40b1ba7e6fca452d98e2c5b23afef54f2019-07-01T00:00:00Zhttps://doi.org/10.1038/s41467-019-11369-5https://doaj.org/toc/2041-1723Elementary excitations of electronic devices have potential use in quantum information but control and readout capabilities are not as developed as they are for more mature systems such as photonic qubits. Here the authors develop and demonstrate a tomographic protocol for electron and hole wavefunctions.R. BisogninA. MargueriteB. RousselM. KumarC. CabartC. ChapdelaineA. Mohammad-DjafariJ.-M. BerroirE. BocquillonB. PlaçaisA. CavannaU. GennserY. JinP. DegiovanniG. FèveNature PortfolioarticleScienceQENNature Communications, Vol 10, Iss 1, Pp 1-12 (2019)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
R. Bisognin
A. Marguerite
B. Roussel
M. Kumar
C. Cabart
C. Chapdelaine
A. Mohammad-Djafari
J.-M. Berroir
E. Bocquillon
B. Plaçais
A. Cavanna
U. Gennser
Y. Jin
P. Degiovanni
G. Fève
Quantum tomography of electrical currents
description Elementary excitations of electronic devices have potential use in quantum information but control and readout capabilities are not as developed as they are for more mature systems such as photonic qubits. Here the authors develop and demonstrate a tomographic protocol for electron and hole wavefunctions.
format article
author R. Bisognin
A. Marguerite
B. Roussel
M. Kumar
C. Cabart
C. Chapdelaine
A. Mohammad-Djafari
J.-M. Berroir
E. Bocquillon
B. Plaçais
A. Cavanna
U. Gennser
Y. Jin
P. Degiovanni
G. Fève
author_facet R. Bisognin
A. Marguerite
B. Roussel
M. Kumar
C. Cabart
C. Chapdelaine
A. Mohammad-Djafari
J.-M. Berroir
E. Bocquillon
B. Plaçais
A. Cavanna
U. Gennser
Y. Jin
P. Degiovanni
G. Fève
author_sort R. Bisognin
title Quantum tomography of electrical currents
title_short Quantum tomography of electrical currents
title_full Quantum tomography of electrical currents
title_fullStr Quantum tomography of electrical currents
title_full_unstemmed Quantum tomography of electrical currents
title_sort quantum tomography of electrical currents
publisher Nature Portfolio
publishDate 2019
url https://doaj.org/article/40b1ba7e6fca452d98e2c5b23afef54f
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AT amarguerite quantumtomographyofelectricalcurrents
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AT mkumar quantumtomographyofelectricalcurrents
AT ccabart quantumtomographyofelectricalcurrents
AT cchapdelaine quantumtomographyofelectricalcurrents
AT amohammaddjafari quantumtomographyofelectricalcurrents
AT jmberroir quantumtomographyofelectricalcurrents
AT ebocquillon quantumtomographyofelectricalcurrents
AT bplacais quantumtomographyofelectricalcurrents
AT acavanna quantumtomographyofelectricalcurrents
AT ugennser quantumtomographyofelectricalcurrents
AT yjin quantumtomographyofelectricalcurrents
AT pdegiovanni quantumtomographyofelectricalcurrents
AT gfeve quantumtomographyofelectricalcurrents
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