A silicon metal-oxide-semiconductor electron spin-orbit qubit

As the performance of silicon-based qubits has improved, there has been increasing focus on developing designs that are compatible with industrial processes. Here, Jock et al. exploit spin-orbit coupling to demonstrate full, all-electrical control of a metal-oxide-semiconductor electron spin qubit.

Guardado en:
Detalles Bibliográficos
Autores principales: Ryan M. Jock, N. Tobias Jacobson, Patrick Harvey-Collard, Andrew M. Mounce, Vanita Srinivasa, Dan R. Ward, John Anderson, Ron Manginell, Joel R. Wendt, Martin Rudolph, Tammy Pluym, John King Gamble, Andrew D. Baczewski, Wayne M. Witzel, Malcolm S. Carroll
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2018
Materias:
Q
Acceso en línea:https://doaj.org/article/17627a10d6ae4946a14c65fb8555a983
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
id oai:doaj.org-article:17627a10d6ae4946a14c65fb8555a983
record_format dspace
spelling oai:doaj.org-article:17627a10d6ae4946a14c65fb8555a9832021-12-02T17:33:15ZA silicon metal-oxide-semiconductor electron spin-orbit qubit10.1038/s41467-018-04200-02041-1723https://doaj.org/article/17627a10d6ae4946a14c65fb8555a9832018-05-01T00:00:00Zhttps://doi.org/10.1038/s41467-018-04200-0https://doaj.org/toc/2041-1723As the performance of silicon-based qubits has improved, there has been increasing focus on developing designs that are compatible with industrial processes. Here, Jock et al. exploit spin-orbit coupling to demonstrate full, all-electrical control of a metal-oxide-semiconductor electron spin qubit.Ryan M. JockN. Tobias JacobsonPatrick Harvey-CollardAndrew M. MounceVanita SrinivasaDan R. WardJohn AndersonRon ManginellJoel R. WendtMartin RudolphTammy PluymJohn King GambleAndrew D. BaczewskiWayne M. WitzelMalcolm S. CarrollNature PortfolioarticleScienceQENNature Communications, Vol 9, Iss 1, Pp 1-8 (2018)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Ryan M. Jock
N. Tobias Jacobson
Patrick Harvey-Collard
Andrew M. Mounce
Vanita Srinivasa
Dan R. Ward
John Anderson
Ron Manginell
Joel R. Wendt
Martin Rudolph
Tammy Pluym
John King Gamble
Andrew D. Baczewski
Wayne M. Witzel
Malcolm S. Carroll
A silicon metal-oxide-semiconductor electron spin-orbit qubit
description As the performance of silicon-based qubits has improved, there has been increasing focus on developing designs that are compatible with industrial processes. Here, Jock et al. exploit spin-orbit coupling to demonstrate full, all-electrical control of a metal-oxide-semiconductor electron spin qubit.
format article
author Ryan M. Jock
N. Tobias Jacobson
Patrick Harvey-Collard
Andrew M. Mounce
Vanita Srinivasa
Dan R. Ward
John Anderson
Ron Manginell
Joel R. Wendt
Martin Rudolph
Tammy Pluym
John King Gamble
Andrew D. Baczewski
Wayne M. Witzel
Malcolm S. Carroll
author_facet Ryan M. Jock
N. Tobias Jacobson
Patrick Harvey-Collard
Andrew M. Mounce
Vanita Srinivasa
Dan R. Ward
John Anderson
Ron Manginell
Joel R. Wendt
Martin Rudolph
Tammy Pluym
John King Gamble
Andrew D. Baczewski
Wayne M. Witzel
Malcolm S. Carroll
author_sort Ryan M. Jock
title A silicon metal-oxide-semiconductor electron spin-orbit qubit
title_short A silicon metal-oxide-semiconductor electron spin-orbit qubit
title_full A silicon metal-oxide-semiconductor electron spin-orbit qubit
title_fullStr A silicon metal-oxide-semiconductor electron spin-orbit qubit
title_full_unstemmed A silicon metal-oxide-semiconductor electron spin-orbit qubit
title_sort silicon metal-oxide-semiconductor electron spin-orbit qubit
publisher Nature Portfolio
publishDate 2018
url https://doaj.org/article/17627a10d6ae4946a14c65fb8555a983
work_keys_str_mv AT ryanmjock asiliconmetaloxidesemiconductorelectronspinorbitqubit
AT ntobiasjacobson asiliconmetaloxidesemiconductorelectronspinorbitqubit
AT patrickharveycollard asiliconmetaloxidesemiconductorelectronspinorbitqubit
AT andrewmmounce asiliconmetaloxidesemiconductorelectronspinorbitqubit
AT vanitasrinivasa asiliconmetaloxidesemiconductorelectronspinorbitqubit
AT danrward asiliconmetaloxidesemiconductorelectronspinorbitqubit
AT johnanderson asiliconmetaloxidesemiconductorelectronspinorbitqubit
AT ronmanginell asiliconmetaloxidesemiconductorelectronspinorbitqubit
AT joelrwendt asiliconmetaloxidesemiconductorelectronspinorbitqubit
AT martinrudolph asiliconmetaloxidesemiconductorelectronspinorbitqubit
AT tammypluym asiliconmetaloxidesemiconductorelectronspinorbitqubit
AT johnkinggamble asiliconmetaloxidesemiconductorelectronspinorbitqubit
AT andrewdbaczewski asiliconmetaloxidesemiconductorelectronspinorbitqubit
AT waynemwitzel asiliconmetaloxidesemiconductorelectronspinorbitqubit
AT malcolmscarroll asiliconmetaloxidesemiconductorelectronspinorbitqubit
AT ryanmjock siliconmetaloxidesemiconductorelectronspinorbitqubit
AT ntobiasjacobson siliconmetaloxidesemiconductorelectronspinorbitqubit
AT patrickharveycollard siliconmetaloxidesemiconductorelectronspinorbitqubit
AT andrewmmounce siliconmetaloxidesemiconductorelectronspinorbitqubit
AT vanitasrinivasa siliconmetaloxidesemiconductorelectronspinorbitqubit
AT danrward siliconmetaloxidesemiconductorelectronspinorbitqubit
AT johnanderson siliconmetaloxidesemiconductorelectronspinorbitqubit
AT ronmanginell siliconmetaloxidesemiconductorelectronspinorbitqubit
AT joelrwendt siliconmetaloxidesemiconductorelectronspinorbitqubit
AT martinrudolph siliconmetaloxidesemiconductorelectronspinorbitqubit
AT tammypluym siliconmetaloxidesemiconductorelectronspinorbitqubit
AT johnkinggamble siliconmetaloxidesemiconductorelectronspinorbitqubit
AT andrewdbaczewski siliconmetaloxidesemiconductorelectronspinorbitqubit
AT waynemwitzel siliconmetaloxidesemiconductorelectronspinorbitqubit
AT malcolmscarroll siliconmetaloxidesemiconductorelectronspinorbitqubit
_version_ 1718379985851383808