München 2004 –
wissenschaftliches Programm
Q 7: Quantenkommunikation
Montag, 22. März 2004, 16:30–18:45, HS 101
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16:30 |
Q 7.1 |
Freiraum-Quantenkryptographie — •Tobias Schmitt-Mander-bach, Henning Weier, Christian Kurtsiefer und Harald Weinfurter
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16:45 |
Q 7.2 |
Practical quantum key distribution: On the security evaluation with inefficient single-photon detectors — •Marcos Curty and Norbert Lütkenhaus
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17:00 |
Q 7.3 |
Robustness of the BB84 Quantum Key Distribution Against Collective Attacks — •Georgios Nikolopoulos and Gernot Alber
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17:15 |
Q 7.4 |
Multiplexed quantum cryptography with cascaded photons from a single quantum dot — •Thomas Aichele, Valéry Zwiller, Gaël Reinaudi, and Oliver Benson
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17:30 |
Q 7.5 |
A Compact Source for Polarization Entangled Photon Pairs — •Hannes Böhm, Andreas Poppe, Markus Aspelmeyer, Thomas Jennewein, and Anton Zeilinger
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17:45 |
Q 7.6 |
Measurements for quantum communication using linear optics — •Philippe Raynal, Peter van Loock, and Norbert Lütkenhaus
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18:00 |
Q 7.7 |
Experimental quantum communication complexity — •Pavel Trojek, Christian Schmid, Mohamed Bourennane, Marek Žukowski, and Harald Weinfurter
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18:15 |
Q 7.8 |
Breaking entanglement in noisy channels — •Thomas Konrad, Jürgen Audretsch, and Lajos Diosi
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18:30 |
Q 7.9 |
Quantum Cellular Automata and the Capacity of Quantum Channels with Memory — •Dennis Kretschmann, Dirk Schlingemann, and Reinhard F. Werner
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