Mainz 2026 –
scientific programme
Q 82: Matter Wave Interferometry, Metrology, and Fundamental Physics IV
Friday, March 6, 2026, 14:30–16:30, P 11
 |
14:30 |
Q 82.1 |
Extracting signal from noisy very-long baseline atom interferometers — •Michael Werner and Naceur Gaaloul
|
|
|
|
14:45 |
Q 82.2 |
Simulation Framework for Space-borne Quantum Sensors — •Gina Kleinsteinberg, Christian Struckmann, Christian Schubert, and Naceur Gaaloul
|
|
|
|
15:00 |
Q 82.3 |
Constraining the Casimir-Polder force via the scanning angle method — •Matthieu Bruneau, Gabin Routier, Etienne De Girolamo, Nathalie Fabre, Eric Charron, Thorsten Emig, Gabriel Dutier, Quentin Bouton, and Naceur Gaaloul
|
|
|
|
15:15 |
Q 82.4 |
Advances in matter-wave interference of metal nanoparticles — •Richard Ferstl, Sebastian Pedalino, Bruno E. Ramírez-Galindo, Klaus Hornberger, Stefan Gerlich, and Markus Arndt
|
|
|
|
15:30 |
Q 82.5 |
Relativistic effects and their test in atom interferometry — •Christian Niehof, Daniel Derr, and Enno Giese
|
|
|
|
15:45 |
Q 82.6 |
Towards measuring the gravitational influence of a test mass using the Very Long Baseline Atom Interferometry facility. — •Guillermo A. Perez Lobato, Vishu Gupta, Kai C. Grensemann, Klaus H. Zipfel, Ernst M. Rasel, and Dennis Schlippert
|
|
|
|
16:00 |
Q 82.7 |
Towards matter-wave interferometry of proteins — •Olga Rybakova, Josef Reisinger, Amal S. Kumar, Valentin Köhler, Marcel Mayor, Stefan Gerlich, Philipp Geyer, and Markus Arndt
|
|
|
|
16:15 |
Q 82.8 |
In-trap Collimation for BEC Interferometry in Space — •Gabriel Müller, Timothé Estrampes, Eric Charron, Wolfgang P. Schleich, Nicholas P. Bigelow, Naceur Gaaloul, and the CUAS consortium
|
|
|
