Q 15: Matter-wave optics
Monday, March 18, 2013, 16:30–18:45, F 142
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16:30 |
Q 15.1 |
Group Report:
Atom chip based matter wave interferometry at the Bremen drop tower — •Hauke Müntinga, Claus Lämmerzahl, and The QUANTUS Team
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17:00 |
Q 15.2 |
Charged matter-waves: Towards quantum interference applications with ions and charged molecules — •Alexander Rembold, Georg Schütz, Andreas Pooch, and Alexander Stibor
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17:15 |
Q 15.3 |
Towards a test of Einstein’s equivalence principle using a Rb-K atom interferometer — •Dennis Schlippert, Jonas Hartwig, Ulrich Velte, Henning Albers, Jonas Matthias, Wolfgang Ertmer, and Ernst Rasel
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17:30 |
Q 15.4 |
Gravity gradient corrections in µ-gravity. — •Luis Fernando Barragan Gil, Oliver Gabel, and Reinhold Walser
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17:45 |
Q 15.5 |
Theoretical description of QUANTUS experiments on interferometry with BECs in microgravity — •Wolfgang Zeller, Enno Giese, Endre Kajari, Stephan Kleinert, Vincenzo Tamma, Albert Roura, Wolfgang P. Schleich, and the QUANTUS Team
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18:00 |
Q 15.6 |
Physical insights into the time-dependent Thomas-Fermi approximation for Bose-Einstein Condensates — •Vincenzo Tamma, Wolfgang Zeller, Enno Giese, Stephan Kleinert, Albert Roura, Wolfgang P. Schleich, and the QUANTUS Team
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18:15 |
Q 15.7 |
Representation-free description of matter wave interferometry — •Stephan Kleinert, Wolfgang Zeller, Enno Giese, Vincenzo Tamma, Albert Roura, Endre Kajari, Wolfgang P. Schleich, and the QUANTUS Team
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18:30 |
Q 15.8 |
Overcoming loss of contrast in atom interferometry due to gravity gradients — •Albert Roura, Wolfgang Zeller, Wolfgang P. Schleich, and the QUANTUS Team
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