Cavity-enhanced microwave readout of a solid-state spin sensor

Cavity-enhanced microwave readout of a solid-state spin sensor

Conventional optical readout limits the sensitivity of solid state spin sensors due to photon shot noise and poor contrast. Here, the authors demonstrate room-temperature microwave detection of an ensemble of NV centers embedded in a microwave cavity, which offers high-fidelity readout without time...

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Main Authors: Erik R. Eisenach, John F. Barry, Michael F. O’Keeffe, Jennifer M. Schloss, Matthew H. Steinecker, Dirk R. Englund, Danielle A. Braje
Format: Article
Language:English
Published: Nature Publishing Group 2021-03-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-021-21256-7
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spelling doaj-6522629fd0db49119a6e7648096c33382021-03-11T11:33:13ZengNature Publishing GroupNature Communications2041-17232021-03-011211710.1038/s41467-021-21256-7Cavity-enhanced microwave readout of a solid-state spin sensorErik R. Eisenach0John F. Barry1Michael F. O’Keeffe2Jennifer M. Schloss3Matthew H. Steinecker4Dirk R. Englund5Danielle A. Braje6Massachusetts Institute of TechnologyMIT Lincoln LaboratoryMIT Lincoln LaboratoryMIT Lincoln LaboratoryMIT Lincoln LaboratoryMassachusetts Institute of TechnologyMIT Lincoln LaboratoryConventional optical readout limits the sensitivity of solid state spin sensors due to photon shot noise and poor contrast. Here, the authors demonstrate room-temperature microwave detection of an ensemble of NV centers embedded in a microwave cavity, which offers high-fidelity readout without time overhead.https://doi.org/10.1038/s41467-021-21256-7
collection DOAJ
language English
format Article
sources DOAJ
author Erik R. Eisenach
John F. Barry
Michael F. O’Keeffe
Jennifer M. Schloss
Matthew H. Steinecker
Dirk R. Englund
Danielle A. Braje
spellingShingle Erik R. Eisenach
John F. Barry
Michael F. O’Keeffe
Jennifer M. Schloss
Matthew H. Steinecker
Dirk R. Englund
Danielle A. Braje
Cavity-enhanced microwave readout of a solid-state spin sensor
Nature Communications
author_facet Erik R. Eisenach
John F. Barry
Michael F. O’Keeffe
Jennifer M. Schloss
Matthew H. Steinecker
Dirk R. Englund
Danielle A. Braje
author_sort Erik R. Eisenach
title Cavity-enhanced microwave readout of a solid-state spin sensor
title_short Cavity-enhanced microwave readout of a solid-state spin sensor
title_full Cavity-enhanced microwave readout of a solid-state spin sensor
title_fullStr Cavity-enhanced microwave readout of a solid-state spin sensor
title_full_unstemmed Cavity-enhanced microwave readout of a solid-state spin sensor
title_sort cavity-enhanced microwave readout of a solid-state spin sensor
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2021-03-01
description Conventional optical readout limits the sensitivity of solid state spin sensors due to photon shot noise and poor contrast. Here, the authors demonstrate room-temperature microwave detection of an ensemble of NV centers embedded in a microwave cavity, which offers high-fidelity readout without time overhead.
url https://doi.org/10.1038/s41467-021-21256-7
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AT michaelfokeeffe cavityenhancedmicrowavereadoutofasolidstatespinsensor
AT jennifermschloss cavityenhancedmicrowavereadoutofasolidstatespinsensor
AT matthewhsteinecker cavityenhancedmicrowavereadoutofasolidstatespinsensor
AT dirkrenglund cavityenhancedmicrowavereadoutofasolidstatespinsensor
AT danielleabraje cavityenhancedmicrowavereadoutofasolidstatespinsensor
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