Hannover 2016 –
wissenschaftliches Programm
Q 8: Quantum Information: Concepts and Methods II
Montag, 29. Februar 2016, 14:30–16:30, e214
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14:30 |
Q 8.1 |
Quantum Complexity Classes with Disturbed Witnesses — •Friederike Anna Dziemba and Tobias Osborne
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14:45 |
Q 8.2 |
Practical applications of compressed sensing in quantum state tomography — •Carlos Riofrio, Adrian Steffens, and Jens Eisert
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15:00 |
Q 8.3 |
Heisenberg-Weyl basis observables and related applications — •Ali Asadian, Pauli Erker, Otfried Guehne, Marcus Huber, and Claudio Kloeckl
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15:15 |
Q 8.4 |
Testing an axiom of quantum theory: Which measurements are admissible? — •Matthias Kleinmann and Adán Cabello
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15:30 |
Q 8.5 |
How long does it take to obtain a physical density matrix? — •Lukas Knips, Christian Schwemmer, Nico Klein, Jonas Reuter, Géza Tóth, and Harald Weinfurter
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15:45 |
Q 8.6 |
Quantum-enabled measurement of the electric field using Rydberg atoms — •Eva-Katharina Dietsche, Adrien Facon, Dorian Grosso, Serge Haroche, Jean-Michel Raimond, Michel Brune, and Sebastien Gleyzes
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16:00 |
Q 8.7 |
Beyond Conventional Photon Counting — •Johannes Kröger, Thomas Ahrens, Jan Sperling, Boris Hage, Werner Vogel, and Heinrich Stolz
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16:15 |
Q 8.8 |
Device-Independent Bounding of Detector Efficiencies — •Jochen Szangolies, Hermann Kampermann, and Dagmar Bruß
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