Sequential generation of linear cluster states from a single photon emitter

Generating photonic cluster states using a single non-heralded source and a single entangling gate would optimise scalability and reduce resource overhead. Here, the authors generate up to 4-photon cluster states using a quantum dot coupled to a fibre loop, with a fourfold generation rate of 10 Hz.

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Autores principales: D. Istrati, Y. Pilnyak, J. C. Loredo, C. Antón, N. Somaschi, P. Hilaire, H. Ollivier, M. Esmann, L. Cohen, L. Vidro, C. Millet, A. Lemaître, I. Sagnes, A. Harouri, L. Lanco, P. Senellart, H. S. Eisenberg
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Publicado: Nature Portfolio 2020
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Acceso en línea:https://doaj.org/article/003939d3d1754db8a27e1bc35d1bc1ea
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spelling oai:doaj.org-article:003939d3d1754db8a27e1bc35d1bc1ea2021-12-02T15:39:23ZSequential generation of linear cluster states from a single photon emitter10.1038/s41467-020-19341-42041-1723https://doaj.org/article/003939d3d1754db8a27e1bc35d1bc1ea2020-10-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-19341-4https://doaj.org/toc/2041-1723Generating photonic cluster states using a single non-heralded source and a single entangling gate would optimise scalability and reduce resource overhead. Here, the authors generate up to 4-photon cluster states using a quantum dot coupled to a fibre loop, with a fourfold generation rate of 10 Hz.D. IstratiY. PilnyakJ. C. LoredoC. AntónN. SomaschiP. HilaireH. OllivierM. EsmannL. CohenL. VidroC. MilletA. LemaîtreI. SagnesA. HarouriL. LancoP. SenellartH. S. EisenbergNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-8 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
D. Istrati
Y. Pilnyak
J. C. Loredo
C. Antón
N. Somaschi
P. Hilaire
H. Ollivier
M. Esmann
L. Cohen
L. Vidro
C. Millet
A. Lemaître
I. Sagnes
A. Harouri
L. Lanco
P. Senellart
H. S. Eisenberg
Sequential generation of linear cluster states from a single photon emitter
description Generating photonic cluster states using a single non-heralded source and a single entangling gate would optimise scalability and reduce resource overhead. Here, the authors generate up to 4-photon cluster states using a quantum dot coupled to a fibre loop, with a fourfold generation rate of 10 Hz.
format article
author D. Istrati
Y. Pilnyak
J. C. Loredo
C. Antón
N. Somaschi
P. Hilaire
H. Ollivier
M. Esmann
L. Cohen
L. Vidro
C. Millet
A. Lemaître
I. Sagnes
A. Harouri
L. Lanco
P. Senellart
H. S. Eisenberg
author_facet D. Istrati
Y. Pilnyak
J. C. Loredo
C. Antón
N. Somaschi
P. Hilaire
H. Ollivier
M. Esmann
L. Cohen
L. Vidro
C. Millet
A. Lemaître
I. Sagnes
A. Harouri
L. Lanco
P. Senellart
H. S. Eisenberg
author_sort D. Istrati
title Sequential generation of linear cluster states from a single photon emitter
title_short Sequential generation of linear cluster states from a single photon emitter
title_full Sequential generation of linear cluster states from a single photon emitter
title_fullStr Sequential generation of linear cluster states from a single photon emitter
title_full_unstemmed Sequential generation of linear cluster states from a single photon emitter
title_sort sequential generation of linear cluster states from a single photon emitter
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/003939d3d1754db8a27e1bc35d1bc1ea
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