Single-spin qubits in isotopically enriched silicon at low magnetic field

One of the main sources of decoherence in silicon electron spin qubits is their interaction with nearby fluctuating nuclear spins. Zhao et al. present a device made from enriched silicon to reduce the nuclear spin density and find its performance is still limited by fluctuations of residual spins.

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Autores principales: R. Zhao, T. Tanttu, K. Y. Tan, B. Hensen, K. W. Chan, J. C. C. Hwang, R. C. C. Leon, C. H. Yang, W. Gilbert, F. E. Hudson, K. M. Itoh, A. A. Kiselev, T. D. Ladd, A. Morello, A. Laucht, A. S. Dzurak
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2019
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Acceso en línea:https://doaj.org/article/cf49ea6f369f42d5a1c054defd311673
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spelling oai:doaj.org-article:cf49ea6f369f42d5a1c054defd3116732021-12-02T14:40:18ZSingle-spin qubits in isotopically enriched silicon at low magnetic field10.1038/s41467-019-13416-72041-1723https://doaj.org/article/cf49ea6f369f42d5a1c054defd3116732019-12-01T00:00:00Zhttps://doi.org/10.1038/s41467-019-13416-7https://doaj.org/toc/2041-1723One of the main sources of decoherence in silicon electron spin qubits is their interaction with nearby fluctuating nuclear spins. Zhao et al. present a device made from enriched silicon to reduce the nuclear spin density and find its performance is still limited by fluctuations of residual spins.R. ZhaoT. TanttuK. Y. TanB. HensenK. W. ChanJ. C. C. HwangR. C. C. LeonC. H. YangW. GilbertF. E. HudsonK. M. ItohA. A. KiselevT. D. LaddA. MorelloA. LauchtA. S. DzurakNature PortfolioarticleScienceQENNature Communications, Vol 10, Iss 1, Pp 1-9 (2019)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
R. Zhao
T. Tanttu
K. Y. Tan
B. Hensen
K. W. Chan
J. C. C. Hwang
R. C. C. Leon
C. H. Yang
W. Gilbert
F. E. Hudson
K. M. Itoh
A. A. Kiselev
T. D. Ladd
A. Morello
A. Laucht
A. S. Dzurak
Single-spin qubits in isotopically enriched silicon at low magnetic field
description One of the main sources of decoherence in silicon electron spin qubits is their interaction with nearby fluctuating nuclear spins. Zhao et al. present a device made from enriched silicon to reduce the nuclear spin density and find its performance is still limited by fluctuations of residual spins.
format article
author R. Zhao
T. Tanttu
K. Y. Tan
B. Hensen
K. W. Chan
J. C. C. Hwang
R. C. C. Leon
C. H. Yang
W. Gilbert
F. E. Hudson
K. M. Itoh
A. A. Kiselev
T. D. Ladd
A. Morello
A. Laucht
A. S. Dzurak
author_facet R. Zhao
T. Tanttu
K. Y. Tan
B. Hensen
K. W. Chan
J. C. C. Hwang
R. C. C. Leon
C. H. Yang
W. Gilbert
F. E. Hudson
K. M. Itoh
A. A. Kiselev
T. D. Ladd
A. Morello
A. Laucht
A. S. Dzurak
author_sort R. Zhao
title Single-spin qubits in isotopically enriched silicon at low magnetic field
title_short Single-spin qubits in isotopically enriched silicon at low magnetic field
title_full Single-spin qubits in isotopically enriched silicon at low magnetic field
title_fullStr Single-spin qubits in isotopically enriched silicon at low magnetic field
title_full_unstemmed Single-spin qubits in isotopically enriched silicon at low magnetic field
title_sort single-spin qubits in isotopically enriched silicon at low magnetic field
publisher Nature Portfolio
publishDate 2019
url https://doaj.org/article/cf49ea6f369f42d5a1c054defd311673
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