Q 2: Quantum Communication I
Montag, 6. März 2017, 14:30–16:45, P 3
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14:30 |
Q 2.1 |
Gruppenbericht:
Event-ready Bell test using entangled atoms simultaneously closing detection and locality loopholes — •Wenjamin Rosenfeld, Daniel Burchardt, Kai Redeker, Robert Garthoff, Norbert Ortegel, Markus Rau, and Harald Weinfurter
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15:00 |
Q 2.2 |
Large-Alphabet Quantum Key Distribution Using Spatially Encoded Light — •Tristan Tentrup, Willemijn Luiten, Peter Hooijschuur, Reinier van der Meer, and Pepijn Pinkse
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15:15 |
Q 2.3 |
Time-Frequency Quantum Key Distribution Over Free Space — •Fabian Beutel, Jasper Rödiger, Nicolas Perlot, Ronald Freund, and Oliver Benson
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15:30 |
Q 2.4 |
A Compact Quantum Key Distribution Sender Module for Handheld Operation — Gwenaelle Mélen, Tobias Vogl, Peter Freiwang, •Jannik Luhn, Clemens Sonnleitner, Wenjamin Rosenfeld, and Harald Weinfurter
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15:45 |
Q 2.5 |
Photon-photon to atom-photon entanglement transfer — •Stephan Kucera, Jan Arenskötter, Pascal Eich, Matthias Kreis, Philipp Müller, and Jürgen Eschner
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16:00 |
Q 2.6 |
Spectral properties of single photons from a single Ca+ ion — •Philipp Müller, Tristan Tentrup, Marc Bienert, Jürgen Eschner, and Giovanna Morigi
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16:15 |
Q 2.7 |
Polarization-entangled photon pairs from a cavity-enhanced down-conversion source in Sagnac configuration — •Jan Arenskötter, Stephan Kucera, and Jürgen Eschner
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16:30 |
Q 2.8 |
Conversion of single photons from a trapped 40Ca+-ion to the telecom range — •Pascal Eich, Matthias Bock, Matthias Kreis, Stephan Kucera, Jan Arenskötter, Christoph Becher, and Jürgen Eschner
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