Q 3: Quantum Information: Concepts and Methods I
Monday, February 29, 2016, 11:00–13:00, e214
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11:00 |
Q 3.1 |
Testing Bell’s inequality with atoms entangled over a distance of 400m — •Daniel Burchardt, Robert Garthoff, Norbert Ortegel, Kai Redeker, Markus Rau, Wenjamin Rosenfeld, and Harald Weinfurter
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11:15 |
Q 3.2 |
Loophole-free Bell inequality violation using electron spins separated by 1.3 kilometres — •Andreas Reiserer, Bas Hensen, Hannes Bernien, Anais Dreau, Norbert Kalb, Machiel Blok, Juist Ruitenberg, David Elkouss, Stephanie Wehner, Tim Taminiau, and Ronald Hanson
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11:30 |
Q 3.3 |
Quantum non-demolition measurement enables macroscopic Leggett-Garg tests — •Costantino Budroni, Giuseppe Vitagliano, Giorgio Colangelo, Robert J. Sewell, Otfried Gühne, Geza Tóth, and Morgan W. Mitchell
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11:45 |
Q 3.4 |
Quantifying the clumsiness in a Leggett-Garg test — •Giuseppe Vitagliano, Costantino Budroni, Giorgio Colangelo, and Morgan W. Mitchell
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12:00 |
Q 3.5 |
The contribution has been moved to Q 37.2.
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12:15 |
Q 3.6 |
Measurement uncertainty is larger than preparation uncertainty — •Reinhard F. Werner, Kais Abdelkhalek, David Reeb, and René Schwonnek
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12:30 |
Q 3.7 |
Uncertainty relations for angular momentum — •Lars Dammeier, René Schwonnek, and Reinhard F. Werner
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12:45 |
Q 3.8 |
Measurement uncertainty relations in discrete metric — •René Schwonnek, Louis Fraatz, Kais Abdelkhalek, David Reeb, and Reinhard F. Werner
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