Giant Two-Mode Non-linearity Using a Single Quantum Dot Embedded in a Photonic Wire.

H.A. Nguyen, T. Grange, B. Reznychenko, I. Yeo, P.L. de Assis, D. Tumanov, F. Fratini, N.S. Malik, E. Dupuy, Niels Gregersen, A. Auffeves, J.M. Gerard, J. Claudon, J.P. Poizat

Research output: Contribution to conferencePaperResearchpeer-review

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Abstract

Optical logic down to the single photon level holds the promise of data processing with a better energy efficiency than electronic devices. In addition, preservation of quantum coherence in such logical components would enable optical quantum logical gates. Optical logic requires optical two-modes non-linearities to allow for photon-photon interactions. Non-linearities usually appear for large intensities, but discrete transitions in a well coupled single two-level system allow for giant non-linearities operating at the single photon level.
Original languageEnglish
Publication date2018
Number of pages1
Publication statusPublished - 2018
Event20th International Conference on Superlattices, Nanostructures and Nanodevices - Main Campus of the Spanish Research Council, Madrid, Spain
Duration: 23 Jul 201827 Jul 2018
https://www.icsnn2018.com/

Conference

Conference20th International Conference on Superlattices, Nanostructures and Nanodevices
LocationMain Campus of the Spanish Research Council
CountrySpain
CityMadrid
Period23/07/201827/07/2018
Internet address

Cite this

Nguyen, H. A., Grange, T., Reznychenko, B., Yeo, I., de Assis, P. L., Tumanov, D., ... Poizat, J. P. (2018). Giant Two-Mode Non-linearity Using a Single Quantum Dot Embedded in a Photonic Wire.. Paper presented at 20th International Conference on Superlattices, Nanostructures and Nanodevices, Madrid, Spain.
Nguyen, H.A. ; Grange, T. ; Reznychenko, B. ; Yeo, I. ; de Assis, P.L. ; Tumanov, D. ; Fratini, F. ; Malik, N.S. ; Dupuy, E. ; Gregersen, Niels ; Auffeves, A. ; Gerard, J.M. ; Claudon, J. ; Poizat, J.P. . / Giant Two-Mode Non-linearity Using a Single Quantum Dot Embedded in a Photonic Wire. Paper presented at 20th International Conference on Superlattices, Nanostructures and Nanodevices, Madrid, Spain.1 p.
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title = "Giant Two-Mode Non-linearity Using a Single Quantum Dot Embedded in a Photonic Wire.",
abstract = "Optical logic down to the single photon level holds the promise of data processing with a better energy efficiency than electronic devices. In addition, preservation of quantum coherence in such logical components would enable optical quantum logical gates. Optical logic requires optical two-modes non-linearities to allow for photon-photon interactions. Non-linearities usually appear for large intensities, but discrete transitions in a well coupled single two-level system allow for giant non-linearities operating at the single photon level.",
author = "H.A. Nguyen and T. Grange and B. Reznychenko and I. Yeo and {de Assis}, P.L. and D. Tumanov and F. Fratini and N.S. Malik and E. Dupuy and Niels Gregersen and A. Auffeves and J.M. Gerard and J. Claudon and J.P. Poizat",
year = "2018",
language = "English",
note = "20th International Conference on Superlattices, Nanostructures and Nanodevices, 2018 ICSNN ; Conference date: 23-07-2018 Through 27-07-2018",
url = "https://www.icsnn2018.com/",

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Nguyen, HA, Grange, T, Reznychenko, B, Yeo, I, de Assis, PL, Tumanov, D, Fratini, F, Malik, NS, Dupuy, E, Gregersen, N, Auffeves, A, Gerard, JM, Claudon, J & Poizat, JP 2018, 'Giant Two-Mode Non-linearity Using a Single Quantum Dot Embedded in a Photonic Wire.', Paper presented at 20th International Conference on Superlattices, Nanostructures and Nanodevices, Madrid, Spain, 23/07/2018 - 27/07/2018.

Giant Two-Mode Non-linearity Using a Single Quantum Dot Embedded in a Photonic Wire. / Nguyen, H.A.; Grange, T.; Reznychenko, B.; Yeo, I. ; de Assis, P.L.; Tumanov, D.; Fratini, F.; Malik, N.S.; Dupuy, E.; Gregersen, Niels; Auffeves, A.; Gerard, J.M.; Claudon, J.; Poizat, J.P. .

2018. Paper presented at 20th International Conference on Superlattices, Nanostructures and Nanodevices, Madrid, Spain.

Research output: Contribution to conferencePaperResearchpeer-review

TY - CONF

T1 - Giant Two-Mode Non-linearity Using a Single Quantum Dot Embedded in a Photonic Wire.

AU - Nguyen, H.A.

AU - Grange, T.

AU - Reznychenko, B.

AU - Yeo, I.

AU - de Assis, P.L.

AU - Tumanov, D.

AU - Fratini, F.

AU - Malik, N.S.

AU - Dupuy, E.

AU - Gregersen, Niels

AU - Auffeves, A.

AU - Gerard, J.M.

AU - Claudon, J.

AU - Poizat, J.P.

PY - 2018

Y1 - 2018

N2 - Optical logic down to the single photon level holds the promise of data processing with a better energy efficiency than electronic devices. In addition, preservation of quantum coherence in such logical components would enable optical quantum logical gates. Optical logic requires optical two-modes non-linearities to allow for photon-photon interactions. Non-linearities usually appear for large intensities, but discrete transitions in a well coupled single two-level system allow for giant non-linearities operating at the single photon level.

AB - Optical logic down to the single photon level holds the promise of data processing with a better energy efficiency than electronic devices. In addition, preservation of quantum coherence in such logical components would enable optical quantum logical gates. Optical logic requires optical two-modes non-linearities to allow for photon-photon interactions. Non-linearities usually appear for large intensities, but discrete transitions in a well coupled single two-level system allow for giant non-linearities operating at the single photon level.

M3 - Paper

ER -

Nguyen HA, Grange T, Reznychenko B, Yeo I, de Assis PL, Tumanov D et al. Giant Two-Mode Non-linearity Using a Single Quantum Dot Embedded in a Photonic Wire.. 2018. Paper presented at 20th International Conference on Superlattices, Nanostructures and Nanodevices, Madrid, Spain.