Single Atom - Single Photon Interaction: from Bad-Cavity QED to Remote Entanglement

J. Eschner; M. Hennrich; F. Rohde; C. Schuck; M. Almendros; R. Gehr; P. Bushev; D. Rotter; C. Raab; F. Dubin; M. Mukherjee; C. Becher; F. Schmidt-Kaler; R. Blatt

doi:10.1364/QAO.2007.QMB2

Quantum-Atom Optics Downunder
OSA Technical Digest (CD) (Optica Publishing Group, 2007),
paper QMB2
•https://doi.org/10.1364/QAO.2007.QMB2

Single Atom - Single Photon Interaction: from Bad-Cavity QED to Remote Entanglement

J. Eschner, M. Hennrich, F. Rohde, C. Schuck, M. Almendros, R. Gehr, P. Bushev, D. Rotter, C. Raab, F. Dubin, M. Mukherjee, C. Becher, F. Schmidt-Kaler, and R. Blatt

Quantum-Atom Optics Downunder 2007

Wollongong Australia
3–6 December 2007
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J. Eschner, M. Hennrich, F. Rohde, C. Schuck, M. Almendros, R. Gehr, P. Bushev, D. Rotter, C. Raab, F. Dubin, M. Mukherjee, C. Becher, F. Schmidt-Kaler, and R. Blatt, "Single Atom - Single Photon Interaction: from Bad-Cavity QED to Remote Entanglement," in Quantum-Atom Optics Downunder, OSA Technical Digest (CD) (Optica Publishing Group, 2007), paper QMB2.

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Abstract

We describe a series of experiments showing how a single trapped ion, which interacts with its own resonance fluorescence via a distant mirror, exhibits cavity-QED effects such as modified spontaneous emission, level shifts, and even mechanical forces. The same interaction is used to establish feedback on the ion's quantum motion, providing additional cooling and phase stabilisation of its vibration in the trap. Based on these methods and results we present an experiment dedicated at creating entanglement between two distant ions by projective measurements.

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