High-Capacity Angularly Multiplexed Holographic Memory Operating at the Single-Photon Level

High-Capacity Angularly Multiplexed Holographic Memory Operating at the Single-Photon Level

We experimentally demonstrate an angularly multiplexed holographic memory capable of intrinsic generation, storage, and retrieval of multiple photons, based on an off-resonant Raman interaction in warm rubidium-87 vapors. The memory capacity of up to 60 independent atomic spin-wave modes is evidence...

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Veröffentlicht in:Physical review letters 2017-02, Vol.118 (6), p.063603-063603, Article 063603
Hauptverfasser: Chrapkiewicz, Radosław, Dąbrowski, Michał, Wasilewski, Wojciech
Format: Artikel
Sprache:eng
Schlagworte:
Angular distribution
Coincidences
Emissivity
Excitation
Fluid flow
Multiplexing
Optical switching
Photons
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Zusammenfassung:We experimentally demonstrate an angularly multiplexed holographic memory capable of intrinsic generation, storage, and retrieval of multiple photons, based on an off-resonant Raman interaction in warm rubidium-87 vapors. The memory capacity of up to 60 independent atomic spin-wave modes is evidenced by analyzing angular distributions of coincidences between Stokes and time-delayed anti-Stokes light, observed down to the level of single spin-wave excitation during the several-microsecond memory lifetime. We also propose how to practically enhance rates of single- and multiple-photon generation by combining our multimode emissive memory with existing fast optical switches.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.118.063603