Quantum memories for single photons from cavity-QED

Quantum memories for single photons from cavity-QED

We investigate the feasibility of implementing an elementary building block for quantum information processing. The combination of a deterministic single photon source based on vacuum stimulated adiabatic rapid passage [1,2], and a quantum memory based on electromagnetically induced transparency in...

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Bibliografski detalji
Glavni autori: Kuhn, A, Nisbet, P, Dilley, J, Langfahl-Klabes, G, Himsworth, M
Format: Conference item
Izdano: 2011
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author Kuhn, A
Nisbet, P
Dilley, J
Langfahl-Klabes, G
Himsworth, M
author_facet Kuhn, A
Nisbet, P
Dilley, J
Langfahl-Klabes, G
Himsworth, M
author_sort Kuhn, A
collection OXFORD
description We investigate the feasibility of implementing an elementary building block for quantum information processing. The combination of a deterministic single photon source based on vacuum stimulated adiabatic rapid passage [1,2], and a quantum memory based on electromagnetically induced transparency in atomic vapour is outlined [3]. Both systems are able to produce and process temporally shaped wavepackets which provides a way to maintain the indistinguish ability of retrieved and original photons. We also propose an efficient and robust repeat-until-success quantum computation scheme based on this hybrid architecture. © 2011 IEEE.
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spelling oxford-uuid:39e7691b-fc10-43bb-b8c8-e608c3468bd32022-03-26T13:58:21ZQuantum memories for single photons from cavity-QEDConference itemhttp://purl.org/coar/resource_type/c_5794uuid:39e7691b-fc10-43bb-b8c8-e608c3468bd3Symplectic Elements at Oxford2011Kuhn, ANisbet, PDilley, JLangfahl-Klabes, GHimsworth, MWe investigate the feasibility of implementing an elementary building block for quantum information processing. The combination of a deterministic single photon source based on vacuum stimulated adiabatic rapid passage [1,2], and a quantum memory based on electromagnetically induced transparency in atomic vapour is outlined [3]. Both systems are able to produce and process temporally shaped wavepackets which provides a way to maintain the indistinguish ability of retrieved and original photons. We also propose an efficient and robust repeat-until-success quantum computation scheme based on this hybrid architecture. © 2011 IEEE.
spellingShingle Kuhn, A
Nisbet, P
Dilley, J
Langfahl-Klabes, G
Himsworth, M
Quantum memories for single photons from cavity-QED
title Quantum memories for single photons from cavity-QED
title_full Quantum memories for single photons from cavity-QED
title_fullStr Quantum memories for single photons from cavity-QED
title_full_unstemmed Quantum memories for single photons from cavity-QED
title_short Quantum memories for single photons from cavity-QED
title_sort quantum memories for single photons from cavity qed
work_keys_str_mv AT kuhna quantummemoriesforsinglephotonsfromcavityqed
AT nisbetp quantummemoriesforsinglephotonsfromcavityqed
AT dilleyj quantummemoriesforsinglephotonsfromcavityqed
AT langfahlklabesg quantummemoriesforsinglephotonsfromcavityqed
AT himsworthm quantummemoriesforsinglephotonsfromcavityqed

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