All-Optical Switch and Transistor Gated by One Stored Photon

All-Optical Switch and Transistor Gated by One Stored Photon

The realization of an all-optical transistor, in which one "gate" photon controls a "source" light beam, is a long-standing goal in optics. By stopping a light pulse in an atomic ensemble contained inside an optical resonator, we realized a device in which one stored gate photon...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2013-08, Vol.341 (6147), p.768-770
Hauptverfasser: Chen, Wenlan, Beck, Kristin M., Bücker, Robert, Gullans, Michael, Lukin, Mikhail D., Tanji-Suzuki, Haruka, Vuletić, Vladan
Format: Artikel
Sprache:eng
Schlagworte:
All optical circuits
Applied sciences
Atoms
Circuit properties
Electric, optical and optoelectronic circuits
Electronic circuits
Electronics
Exact sciences and technology
Fiber optics
Fundamental areas of phenomenology (including applications)
Gates
Histograms
Holes
Integrated optics. Optical fibers and wave guides
Joining
Laser beams
Lasers
Light
Light beams
Optical and optoelectronic circuits
Optical resonators
Optics
Photonics
Photons
Physics
Quantum efficiency
Quantum electrodynamics
Semiconductor devices
Switches
Switching, multiplexing, switched capacity circuits
Transistors
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Beschreibung
Zusammenfassung:The realization of an all-optical transistor, in which one "gate" photon controls a "source" light beam, is a long-standing goal in optics. By stopping a light pulse in an atomic ensemble contained inside an optical resonator, we realized a device in which one stored gate photon controls the resonator transmission of subsequently applied source photons. A weak gate pulse induces bimodal transmission distribution, corresponding to zero and one gate photons. One stored gate photon produces fivefold source attenuation and can be retrieved from the atomic ensemble after switching more than one source photon. Without retrieval, one stored gate photon can switch several hundred source photons. With improved storage and retrieval efficiency, our work may enable various new applications, including photonic quantum gates and deterministic multiphoton entanglement.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1238169