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

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

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Springer Theses

ISBN: 331937088X
ISBN 13: 9783319370880
Autor: Reiserer, Andreas
Verlag: Springer Verlag GmbH
Umfang: xiii, 72 S., 28 s/w Illustr., 72 p. 28 illus.
Erscheinungsdatum: 23.08.2016
Auflage: 1/2016
Produktform: Kartoniert
Einband: Kartoniert

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 an optical cavity in the strong coupling regime. Full control over the atomic state – its position, its motion, and its electronic state – is achieved with laser beams applied along the resonator and from the side. When faint laser pulses are reflected from the resonator, the combined atom-photon state acquires a state-dependent phase shift. In a first series of experiments, this is employed to nondestructively detect optical photons by measuring the atomic state after the reflection process. Then, quantum bits are encoded in the polarization of the laser pulse and in the Zeeman state of the atom. 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, atom-photon-photon, and photon-photon states out of separable input states.

Artikelnummer: 2875037 Kategorie:

Beschreibung

Autorenporträt

Andreas Rieserer is a postdoctoral researcher in the Quantum Dynamics group at the Max Planck Institute for Quantum Optics, Garching. His work on single-atom and single-photon processes has been reported in several leading journals, and includes the highly cited paper "A quantum gate between a flying optical photon and a single trapped atom" [A. Reiserer, N. Kalb, G. Rempe, S. Ritter: Nature 508 (7495), 237-240 (2014)]

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