High-speed noise-free optical quantum memory

Optical quantum memories are devices that store and recall quantum light and are vital to the realization of future photonic quantum networks. To date, much effort has been put into improving storage times and efficiencies of such devices to enable long-distance communications. However, less attenti...

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Published in:Physical Review A
Main Authors: Kaczmarek, K.T., Ledingham, P.M., Brecht, B., Thomas, S.E., Thekkadath, G.S., Lazo-Arjona, O., Munns, J.H.D., Poem, E., Feizpour, A., Saunders, D.J., Nunn, J., Walmsley, I.A.
Format: Article in Journal/Newspaper
Language:English
Published: 2018
Subjects:
Orca
Online Access:https://eprints.soton.ac.uk/455439/
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spelling ftsouthampton:oai:eprints.soton.ac.uk:455439 2024-02-11T10:07:41+01:00 High-speed noise-free optical quantum memory Kaczmarek, K.T. Ledingham, P.M. Brecht, B. Thomas, S.E. Thekkadath, G.S. Lazo-Arjona, O. Munns, J.H.D. Poem, E. Feizpour, A. Saunders, D.J. Nunn, J. Walmsley, I.A. 2018-04-10 https://eprints.soton.ac.uk/455439/ English eng Kaczmarek, K.T., Ledingham, P.M., Brecht, B., Thomas, S.E., Thekkadath, G.S., Lazo-Arjona, O., Munns, J.H.D., Poem, E., Feizpour, A., Saunders, D.J., Nunn, J. and Walmsley, I.A. (2018) High-speed noise-free optical quantum memory. Physical Review A, 97 (4), [042316]. (doi:10.1103/PhysRevA.97.042316 <http://dx.doi.org/10.1103/PhysRevA.97.042316>). Article PeerReviewed 2018 ftsouthampton https://doi.org/10.1103/PhysRevA.97.042316 2024-01-25T23:20:31Z Optical quantum memories are devices that store and recall quantum light and are vital to the realization of future photonic quantum networks. To date, much effort has been put into improving storage times and efficiencies of such devices to enable long-distance communications. However, less attention has been devoted to building quantum memories which add zero noise to the output. Even small additional noise can render the memory classical by destroying the fragile quantum signatures of the stored light. Therefore, noise performance is a critical parameter for all quantum memories. Here we introduce an intrinsically noise-free quantum memory protocol based on two-photon off-resonant cascaded absorption (ORCA). We demonstrate successful storage of GHz-bandwidth heralded single photons in a warm atomic vapor with no added noise, confirmed by the unaltered photon-number statistics upon recall. Our ORCA memory meets the stringent noise requirements for quantum memories while combining high-speed and room-temperature operation with technical simplicity, and therefore is immediately applicable to low-latency quantum networks. Article in Journal/Newspaper Orca University of Southampton: e-Prints Soton Physical Review A 97 4
institution Open Polar
collection University of Southampton: e-Prints Soton
op_collection_id ftsouthampton
language English
description Optical quantum memories are devices that store and recall quantum light and are vital to the realization of future photonic quantum networks. To date, much effort has been put into improving storage times and efficiencies of such devices to enable long-distance communications. However, less attention has been devoted to building quantum memories which add zero noise to the output. Even small additional noise can render the memory classical by destroying the fragile quantum signatures of the stored light. Therefore, noise performance is a critical parameter for all quantum memories. Here we introduce an intrinsically noise-free quantum memory protocol based on two-photon off-resonant cascaded absorption (ORCA). We demonstrate successful storage of GHz-bandwidth heralded single photons in a warm atomic vapor with no added noise, confirmed by the unaltered photon-number statistics upon recall. Our ORCA memory meets the stringent noise requirements for quantum memories while combining high-speed and room-temperature operation with technical simplicity, and therefore is immediately applicable to low-latency quantum networks.
format Article in Journal/Newspaper
author Kaczmarek, K.T.
Ledingham, P.M.
Brecht, B.
Thomas, S.E.
Thekkadath, G.S.
Lazo-Arjona, O.
Munns, J.H.D.
Poem, E.
Feizpour, A.
Saunders, D.J.
Nunn, J.
Walmsley, I.A.
spellingShingle Kaczmarek, K.T.
Ledingham, P.M.
Brecht, B.
Thomas, S.E.
Thekkadath, G.S.
Lazo-Arjona, O.
Munns, J.H.D.
Poem, E.
Feizpour, A.
Saunders, D.J.
Nunn, J.
Walmsley, I.A.
High-speed noise-free optical quantum memory
author_facet Kaczmarek, K.T.
Ledingham, P.M.
Brecht, B.
Thomas, S.E.
Thekkadath, G.S.
Lazo-Arjona, O.
Munns, J.H.D.
Poem, E.
Feizpour, A.
Saunders, D.J.
Nunn, J.
Walmsley, I.A.
author_sort Kaczmarek, K.T.
title High-speed noise-free optical quantum memory
title_short High-speed noise-free optical quantum memory
title_full High-speed noise-free optical quantum memory
title_fullStr High-speed noise-free optical quantum memory
title_full_unstemmed High-speed noise-free optical quantum memory
title_sort high-speed noise-free optical quantum memory
publishDate 2018
url https://eprints.soton.ac.uk/455439/
genre Orca
genre_facet Orca
op_relation Kaczmarek, K.T., Ledingham, P.M., Brecht, B., Thomas, S.E., Thekkadath, G.S., Lazo-Arjona, O., Munns, J.H.D., Poem, E., Feizpour, A., Saunders, D.J., Nunn, J. and Walmsley, I.A. (2018) High-speed noise-free optical quantum memory. Physical Review A, 97 (4), [042316]. (doi:10.1103/PhysRevA.97.042316 <http://dx.doi.org/10.1103/PhysRevA.97.042316>).
op_doi https://doi.org/10.1103/PhysRevA.97.042316
container_title Physical Review A
container_volume 97
container_issue 4
_version_ 1790606352278618112

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