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Single-photon nonlinearity at room temperature

Single-photon nonlinearity at room temperature
Single-photon nonlinearity at room temperature
The recent progress in nanotechnology1,2 and single-molecule spectroscopy3,4,5 paves the way for emergent cost-effective organic quantum optical technologies with potential applications in useful devices operating at ambient conditions. We harness a π-conjugated ladder-type polymer strongly coupled to a microcavity forming hybrid light–matter states, so-called exciton-polaritons, to create exciton-polariton condensates with quantum fluid properties. Obeying Bose statistics, exciton-polaritons exhibit an extreme nonlinearity when undergoing bosonic stimulation6, which we have managed to trigger at the single-photon level, thereby providing an efficient way for all-optical ultrafast control over the macroscopic condensate wavefunction. Here, we utilize stable excitons dressed with high-energy molecular vibrations, allowing for single-photon nonlinear operation at ambient conditions. This opens new horizons for practical implementations like sub-picosecond switching, amplification and all-optical logic at the fundamental quantum limit.
0028-0836
493–497
Lagoudakis, Pavlos
ea50c228-f006-4edf-8459-60015d961bbf
Zasedatelev, Anton
dc71c70b-62fd-4297-8ea3-d3fe88418371
Baranikov, Anton
ca9fb292-7df0-4b5b-8746-723a00921a24
Sannikov, Denis A.
8712f2bf-5b5b-4017-8eee-a8a20001c1a9
Urbonas, Darius
a43479a7-c3c8-49a5-92a6-7a88118e25c5
Scafirimuto, Fabio
506be0c3-a5ad-40d9-aab1-f7f8c28cccb2
Shishkov, Vladislav
bf1246e4-887a-431c-bc1a-3f520c8898ca
Andrianov, Evgeny
496d51f7-697d-4c4c-82a6-6c27d738c16c
Lozovik, Yurii
dd0af974-742b-4a51-81ac-823318a6f002
Scherf, Ullrich
917142be-4e69-4b01-97a7-acaef0b040c8
Stöferle, Thilo
ae851565-5fa0-42b9-afb2-ee458a7f757f
Mahrt, Rainer
7135d146-9663-474d-a46e-d2840fefed8e
Lagoudakis, Pavlos
ea50c228-f006-4edf-8459-60015d961bbf
Zasedatelev, Anton
dc71c70b-62fd-4297-8ea3-d3fe88418371
Baranikov, Anton
ca9fb292-7df0-4b5b-8746-723a00921a24
Sannikov, Denis A.
8712f2bf-5b5b-4017-8eee-a8a20001c1a9
Urbonas, Darius
a43479a7-c3c8-49a5-92a6-7a88118e25c5
Scafirimuto, Fabio
506be0c3-a5ad-40d9-aab1-f7f8c28cccb2
Shishkov, Vladislav
bf1246e4-887a-431c-bc1a-3f520c8898ca
Andrianov, Evgeny
496d51f7-697d-4c4c-82a6-6c27d738c16c
Lozovik, Yurii
dd0af974-742b-4a51-81ac-823318a6f002
Scherf, Ullrich
917142be-4e69-4b01-97a7-acaef0b040c8
Stöferle, Thilo
ae851565-5fa0-42b9-afb2-ee458a7f757f
Mahrt, Rainer
7135d146-9663-474d-a46e-d2840fefed8e

Lagoudakis, Pavlos, Zasedatelev, Anton, Baranikov, Anton, Sannikov, Denis A., Urbonas, Darius, Scafirimuto, Fabio, Shishkov, Vladislav, Andrianov, Evgeny, Lozovik, Yurii, Scherf, Ullrich, Stöferle, Thilo and Mahrt, Rainer (2021) Single-photon nonlinearity at room temperature. Nature, 597, 493–497. (doi:10.1038/s41586-021-03866-9).

Record type: Article

Abstract

The recent progress in nanotechnology1,2 and single-molecule spectroscopy3,4,5 paves the way for emergent cost-effective organic quantum optical technologies with potential applications in useful devices operating at ambient conditions. We harness a π-conjugated ladder-type polymer strongly coupled to a microcavity forming hybrid light–matter states, so-called exciton-polaritons, to create exciton-polariton condensates with quantum fluid properties. Obeying Bose statistics, exciton-polaritons exhibit an extreme nonlinearity when undergoing bosonic stimulation6, which we have managed to trigger at the single-photon level, thereby providing an efficient way for all-optical ultrafast control over the macroscopic condensate wavefunction. Here, we utilize stable excitons dressed with high-energy molecular vibrations, allowing for single-photon nonlinear operation at ambient conditions. This opens new horizons for practical implementations like sub-picosecond switching, amplification and all-optical logic at the fundamental quantum limit.

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392025_1_art_file_3660955_qszvvh_convrt - Accepted Manuscript
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Accepted/In Press date: 29 July 2021
e-pub ahead of print date: 22 September 2021

Identifiers

Local EPrints ID: 454679
URI: http://eprints.soton.ac.uk/id/eprint/454679
DOI: doi:10.1038/s41586-021-03866-9
ISSN: 0028-0836
PURE UUID: 30d1f53c-b28b-4fba-856a-012b850963fe
ORCID for Pavlos Lagoudakis: ORCID iD orcid.org/0000-0002-3557-5299

Catalogue record

Date deposited: 21 Feb 2022 17:33
Last modified: 17 Mar 2024 07:06

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Contributors

Author: Pavlos Lagoudakis ORCID iD
Author: Anton Zasedatelev
Author: Anton Baranikov
Author: Denis A. Sannikov
Author: Darius Urbonas
Author: Fabio Scafirimuto
Author: Vladislav Shishkov
Author: Evgeny Andrianov
Author: Yurii Lozovik
Author: Ullrich Scherf
Author: Thilo Stöferle
Author: Rainer Mahrt

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