Enabling remote quantum emission in 2D semiconductors via porous metallic networks

Here, the authors develop a reverse epitaxial process whereby a nanocrystalline Au film becomes highly textured and support a suspended 2D WSe2 overlayer. Surface plasmon polaritons are launched in nanostructured Au by laser excitation and couple remotely to single photon emitters present in WSe2.

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Autores principales: Jose J. Fonseca, Andrew L. Yeats, Brandon Blue, Maxim K. Zalalutdinov, Todd Brintlinger, Blake S. Simpkins, Daniel C. Ratchford, James C. Culbertson, Joel Q. Grim, Samuel G. Carter, Masa Ishigami, Rhonda M. Stroud, Cory D. Cress, Jeremy T. Robinson
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Lenguaje:EN
Publicado: Nature Portfolio 2020
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Acceso en línea:https://doaj.org/article/e449e5423cd74f4cbe882bc2b0ef461c
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spelling oai:doaj.org-article:e449e5423cd74f4cbe882bc2b0ef461c2021-12-02T14:43:01ZEnabling remote quantum emission in 2D semiconductors via porous metallic networks10.1038/s41467-019-13857-02041-1723https://doaj.org/article/e449e5423cd74f4cbe882bc2b0ef461c2020-01-01T00:00:00Zhttps://doi.org/10.1038/s41467-019-13857-0https://doaj.org/toc/2041-1723Here, the authors develop a reverse epitaxial process whereby a nanocrystalline Au film becomes highly textured and support a suspended 2D WSe2 overlayer. Surface plasmon polaritons are launched in nanostructured Au by laser excitation and couple remotely to single photon emitters present in WSe2.Jose J. FonsecaAndrew L. YeatsBrandon BlueMaxim K. ZalalutdinovTodd BrintlingerBlake S. SimpkinsDaniel C. RatchfordJames C. CulbertsonJoel Q. GrimSamuel G. CarterMasa IshigamiRhonda M. StroudCory D. CressJeremy T. RobinsonNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-8 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Jose J. Fonseca
Andrew L. Yeats
Brandon Blue
Maxim K. Zalalutdinov
Todd Brintlinger
Blake S. Simpkins
Daniel C. Ratchford
James C. Culbertson
Joel Q. Grim
Samuel G. Carter
Masa Ishigami
Rhonda M. Stroud
Cory D. Cress
Jeremy T. Robinson
Enabling remote quantum emission in 2D semiconductors via porous metallic networks
description Here, the authors develop a reverse epitaxial process whereby a nanocrystalline Au film becomes highly textured and support a suspended 2D WSe2 overlayer. Surface plasmon polaritons are launched in nanostructured Au by laser excitation and couple remotely to single photon emitters present in WSe2.
format article
author Jose J. Fonseca
Andrew L. Yeats
Brandon Blue
Maxim K. Zalalutdinov
Todd Brintlinger
Blake S. Simpkins
Daniel C. Ratchford
James C. Culbertson
Joel Q. Grim
Samuel G. Carter
Masa Ishigami
Rhonda M. Stroud
Cory D. Cress
Jeremy T. Robinson
author_facet Jose J. Fonseca
Andrew L. Yeats
Brandon Blue
Maxim K. Zalalutdinov
Todd Brintlinger
Blake S. Simpkins
Daniel C. Ratchford
James C. Culbertson
Joel Q. Grim
Samuel G. Carter
Masa Ishigami
Rhonda M. Stroud
Cory D. Cress
Jeremy T. Robinson
author_sort Jose J. Fonseca
title Enabling remote quantum emission in 2D semiconductors via porous metallic networks
title_short Enabling remote quantum emission in 2D semiconductors via porous metallic networks
title_full Enabling remote quantum emission in 2D semiconductors via porous metallic networks
title_fullStr Enabling remote quantum emission in 2D semiconductors via porous metallic networks
title_full_unstemmed Enabling remote quantum emission in 2D semiconductors via porous metallic networks
title_sort enabling remote quantum emission in 2d semiconductors via porous metallic networks
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/e449e5423cd74f4cbe882bc2b0ef461c
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