Quantum information transfer using photons

Optical communication channels have redefined the purview and applications of classical computing; similarly, photonic transfer of quantum information promises to open new horizons for quantum computing. The implementation of light-matter interfaces that preserve quantum information is technological...

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Published in	arXiv.org
Main Authors	Northup, T E, Blatt, R
Format	Paper Journal Article
Language	English
Published	Ithaca Cornell University Library, arXiv.org 01.08.2017
Subjects	Computation Hybrid systems Information transfer Optical communication Photonics Photons Physics - Quantum Physics Quantum computing Quantum phenomena Quantum theory State-of-the-art reviews
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Abstract	Optical communication channels have redefined the purview and applications of classical computing; similarly, photonic transfer of quantum information promises to open new horizons for quantum computing. The implementation of light-matter interfaces that preserve quantum information is technologically challenging, but key building blocks for such devices have recently been demonstrated in several research groups. Here, we outline the theoretical framework for information transfer between nodes of a quantum network, review the current experimental state of the art, and discuss the prospects for hybrid systems currently in development.
AbstractList	Nature Photon. 8, 356 (2014) Optical communication channels have redefined the purview and applications of classical computing; similarly, photonic transfer of quantum information promises to open new horizons for quantum computing. The implementation of light-matter interfaces that preserve quantum information is technologically challenging, but key building blocks for such devices have recently been demonstrated in several research groups. Here, we outline the theoretical framework for information transfer between nodes of a quantum network, review the current experimental state of the art, and discuss the prospects for hybrid systems currently in development. Optical communication channels have redefined the purview and applications of classical computing; similarly, photonic transfer of quantum information promises to open new horizons for quantum computing. The implementation of light-matter interfaces that preserve quantum information is technologically challenging, but key building blocks for such devices have recently been demonstrated in several research groups. Here, we outline the theoretical framework for information transfer between nodes of a quantum network, review the current experimental state of the art, and discuss the prospects for hybrid systems currently in development.
Author	Northup, T E Blatt, R
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BackLink	https://doi.org/10.1038/nphoton.2014.53$$DView published paper (Access to full text may be restricted) https://doi.org/10.48550/arXiv.1708.00424$$DView paper in arXiv
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Snippet	Optical communication channels have redefined the purview and applications of classical computing; similarly, photonic transfer of quantum information promises... Nature Photon. 8, 356 (2014) Optical communication channels have redefined the purview and applications of classical computing; similarly, photonic transfer of...
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