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A Controlled Phase Gate Between a Single Atom and an Optical Photon

Author: Andreas Reiserer
Publisher: Cham : Springer International Publishing : Imprint : Springer, 2016.
Series: Springer theses.
Edition/Format:   eBook : Document : English : 1st ed. 2016View all editions and formats
Database:WorldCat
Summary:
This thesis reports on major steps towards the realization of scalable quantum networks. It addresses the experimental implementation of a deterministic interaction mechanism between flying optical photons and a single trapped atom. In particular, it demonstrates the nondestructive detection of an optical photon. To this end, single rubidium atoms are trapped in a three-dimensional optical lattice at the center of  Read more...
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Details

Genre/Form: Electronic books
Additional Physical Format: Printed edition:
Material Type: Document, Internet resource
Document Type: Internet Resource, Computer File
All Authors / Contributors: Andreas Reiserer
ISBN: 9783319265483 3319265482 9783319265469 3319265466
OCLC Number: 932170368
Description: 1 online resource (XIII, 72 pages) : color illustrations.
Contents: Introduction --
Controlling the Position and Motion of a Single Atom in an Optical Cavity --
Measurement and Control of the Internal Atomic State --
Controlled Phase Gate Mechanism --
Nondestructive Detection of an Optical Photon --
A Quantum Gate Between a Flying Optical Photon and a Single Trapped Atom --
Summary and Outlook.
Series Title: Springer theses.
Responsibility: by Andreas Reiserer.

Abstract:

The state-dependent phase shift mediates a deterministic universal quantum gate between the atom and one or two successively reflected photons, which is used to generate entangled atom-photon,  Read more...

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