Vacuum-field-induced THz transport gap in a carbon nanotube quantum dot

Vacuum-field-induced THz transport gap in a carbon nanotube quantum dot

Strong light-matter coupling has been realized at the level of single atoms and photons throughout most of the electromagnetic spectrum, except for the THz range. Here, the authors report a THz-scale transport gap, induced by vacuum fluctuations in carbon nanotube quantum dot through the deep strong...

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Autores principales: F. Valmorra, K. Yoshida, L. C. Contamin, S. Messelot, S. Massabeau, M. R. Delbecq, M. C. Dartiailh, M. M. Desjardins, T. Cubaynes, Z. Leghtas, K. Hirakawa, J. Tignon, S. Dhillon, S. Balibar, J. Mangeney, A. Cottet, T. Kontos
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2021
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Q
Acceso en línea:https://doaj.org/article/5cd2932845984f2092d105526d8c6df8
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spelling oai:doaj.org-article:5cd2932845984f2092d105526d8c6df82021-12-02T18:49:54ZVacuum-field-induced THz transport gap in a carbon nanotube quantum dot10.1038/s41467-021-25733-x2041-1723https://doaj.org/article/5cd2932845984f2092d105526d8c6df82021-09-01T00:00:00Zhttps://doi.org/10.1038/s41467-021-25733-xhttps://doaj.org/toc/2041-1723Strong light-matter coupling has been realized at the level of single atoms and photons throughout most of the electromagnetic spectrum, except for the THz range. Here, the authors report a THz-scale transport gap, induced by vacuum fluctuations in carbon nanotube quantum dot through the deep strong coupling of a single electron to a THz resonator.F. ValmorraK. YoshidaL. C. ContaminS. MesselotS. MassabeauM. R. DelbecqM. C. DartiailhM. M. DesjardinsT. CubaynesZ. LeghtasK. HirakawaJ. TignonS. DhillonS. BalibarJ. MangeneyA. CottetT. KontosNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-8 (2021)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
F. Valmorra
K. Yoshida
L. C. Contamin
S. Messelot
S. Massabeau
M. R. Delbecq
M. C. Dartiailh
M. M. Desjardins
T. Cubaynes
Z. Leghtas
K. Hirakawa
J. Tignon
S. Dhillon
S. Balibar
J. Mangeney
A. Cottet
T. Kontos
Vacuum-field-induced THz transport gap in a carbon nanotube quantum dot
description Strong light-matter coupling has been realized at the level of single atoms and photons throughout most of the electromagnetic spectrum, except for the THz range. Here, the authors report a THz-scale transport gap, induced by vacuum fluctuations in carbon nanotube quantum dot through the deep strong coupling of a single electron to a THz resonator.
format article
author F. Valmorra
K. Yoshida
L. C. Contamin
S. Messelot
S. Massabeau
M. R. Delbecq
M. C. Dartiailh
M. M. Desjardins
T. Cubaynes
Z. Leghtas
K. Hirakawa
J. Tignon
S. Dhillon
S. Balibar
J. Mangeney
A. Cottet
T. Kontos
author_facet F. Valmorra
K. Yoshida
L. C. Contamin
S. Messelot
S. Massabeau
M. R. Delbecq
M. C. Dartiailh
M. M. Desjardins
T. Cubaynes
Z. Leghtas
K. Hirakawa
J. Tignon
S. Dhillon
S. Balibar
J. Mangeney
A. Cottet
T. Kontos
author_sort F. Valmorra
title Vacuum-field-induced THz transport gap in a carbon nanotube quantum dot
title_short Vacuum-field-induced THz transport gap in a carbon nanotube quantum dot
title_full Vacuum-field-induced THz transport gap in a carbon nanotube quantum dot
title_fullStr Vacuum-field-induced THz transport gap in a carbon nanotube quantum dot
title_full_unstemmed Vacuum-field-induced THz transport gap in a carbon nanotube quantum dot
title_sort vacuum-field-induced thz transport gap in a carbon nanotube quantum dot
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/5cd2932845984f2092d105526d8c6df8
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