| |
17:00 |
Q 56.1 |
The contribution has been moved to Q 23.53.
|
|
|
 |
17:00 |
Q 56.2 |
Influence of molecular properties on matter-wave interferometry — •Lukas Martinetz, Benjamin A. Stickler, Ksenija Simonović, Richard Ferstl, Markus Arndt, and Klaus Hornberger
|
|
|
|
17:00 |
Q 56.3 |
Tunable Bragg-diffraction beam splitters for molecular matter waves — •Eric van den Bosch, Benjamin A. Stickler, Lukas Martinetz, and Klaus Hornberger
|
|
|
|
17:00 |
Q 56.4 |
Atom interferometry with ultra-cold atoms in microgravity — •Anurag Bhadane, Julia Pahl, Dorthe Leopoldt, Sven Abend, Ernst M. Rasel, Markus Krutzik, Sven Herrmann, Andre Wenzlawski, Patrick Windpassinger, and The QUANTUS Team
|
|
|
| |
17:00 |
Q 56.5 |
The contribution has been moved to Q 23.51.
|
|
|
| |
17:00 |
Q 56.6 |
The contribution has been moved to Q 23.52.
|
|
|
|
17:00 |
Q 56.7 |
Demonstration of a well-controlled atomic source for Very Long Baseline Atom Interferometry — •Dorothee Tell, Vishu Gupta, Kai Grensemann, Ernst M. Rasel, and Dennis Schlippert
|
|
|
| |
17:00 |
Q 56.8 |
The contribution has been withdrawn.
|
|
|
|
17:00 |
Q 56.9 |
Atom interferometers in weakly curved spacetimes: Case study of the VLBAI — •Michael Werner and Klemens Hammerer
|
|
|
|
17:00 |
Q 56.10 |
Analytical theory of double Bragg atom interferometers — •Rui Li, Klemens Hammerer, and Naceur Gaaloul
|
|
|
|
17:00 |
Q 56.11 |
Phase and error estimation of differential atom interferometry experiments on the ISS — •David B. Reinhardt, Nicholas P. Bigelow, Matthias Meister, and the CUAS team
|
|
|
|
17:00 |
Q 56.12 |
Quantum-clock interferometry — •Mario Montero, Ali Lezeik, Klaus Zipfel, Ernst M. Rasel, Christian Schubert, and Dennis Schlippert
|
|
|
|
17:00 |
Q 56.13 |
Multi-axis quantum gyroscope with multi loop atomic Sagnac interferometry — •Polina Shelingovskaia, Ann Sabu, Yueyang Zou, Mouine Abidi, Philipp Barbey, Ashwin Rajagopalan, Christian Schubert, Matthias Gersemann, Dennis Schlippert, Ernst M. Rasel, and Sven Abend
|
|
|
|
17:00 |
Q 56.14 |
Operating an atom interferometer in a vibrationally noisy environment — •Ashwin Rajagopalan, Ernst M. Rasel, Sven Abend, and Dennis Schlippert
|
|
|
|
17:00 |
Q 56.15 |
Artificial Intelligence for Quantum Sensing — •Victor Jose Martinez Lahuerta, Jan-Niclas Kirsten-Siemß, and Naceur Gaaloul
|
|
|
|
17:00 |
Q 56.16 |
Dark Energy search using atom interferometry in microgravity — •Sukhjovan Singh Gill, Magdalena Misslisch, Charles Garcion, Ioannis Papadakis, Baptist Piest, Vladimir Schkolnik, Sheng-Wey Chiow, Nan Yu, and Ernst Maria Rasel
|
|
|
|
17:00 |
Q 56.17 |
Absolute light-shift compensated laser system for a twin-lattice atom interferometry — •Mikhail Cheredinov, Matthias Gersemann, Ekim T. Hanimeli, Simon Kanthak, Sven Abend, Ernst M. Rasel, and the QUANTUS team
|
|
|
|
17:00 |
Q 56.18 |
Squeezing-enhanced Bragg guided BEC interferometry — •Matthew Glaysher, Robin Corgier, and Naceur Gaaloul
|
|
|
|
17:00 |
Q 56.19 |
Three-dimensional absorption detection system in the transportable Quantum Gravimeter QG-1 — •Najwa Sophie Al-Zaki, Pablo Nuñez von Voigt, Nina Heine, Waldemar Herr, Christian Schubert, Ludger Timmen, Jürgen Müller, and Ernst M. Rasel
|
|
|
| |
17:00 |
Q 56.20 |
The contribution has been withdrawn.
|
|
|
|
17:00 |
Q 56.21 |
Towards a three axes hybrid quantum inertial sensor for navigation — •David Latorre Bastidas, Dennis Knoop, André Wenzlawski, Jens Grosse, Sven Herrmann, and Patrick Windpassinger
|
|
|
|
17:00 |
Q 56.22 |
Laser stabilization for a compact multi-axis inertial navigation system — •Philipp Barbey, Matthias Gersemann, Mouine Abidi, Ashwin Rajagopalan, Ann Sabu, Polina Shelingovskaia, Yueyang Zou, Christian Schubert, Dennis Schlippert, Ernst M. Rasel, and Sven Abend
|
|
|
|
17:00 |
Q 56.23 |
State-of-the art suppression of seismic noise for Very Long Baseline Atom Interferometry — •Kai C. Grensemann, Jonas Klussmeyer, Klaus Zipfel, Ernst M. Rasel, and Dennis Schlippert
|
|
|
|
17:00 |
Q 56.24 |
Theory of multi-axis atom interferometric sensing for inertial navigation — •Christian Struckmann, Knut Stolzenberg, Dennis Schlippert, and Naceur Gaaloul
|
|
|
|
17:00 |
Q 56.25 |
Scenario building for Earth Observation Space Missions Featuring Quantum Sensors — •Gina Kleinsteinberg, Christian Struckmann, Naceur Gaaloul, and for the CARIOQA Consortium
|
|
|
|
17:00 |
Q 56.26 |
Quantum metrology for levito-dynamics — •Francis Headley, Alessio Belenchia, and Daniel Braun
|
|
|
|
17:00 |
Q 56.27 |
Towards a Miniaturized Spaceborne Rubidium Two-Photon Frequency Reference — •Daniel Emanuel Kohl, Julien Kluge, Moritz Eisebitt, Klaus Döringshoff, Nicolas Manrique, and Markus Krutzik
|
|
|
|
17:00 |
Q 56.28 |
Two-Photon Frequency References for Optical Clocks and Hyperfine Spectroscopy — •Moritz Eisebitt, Julien Kluge, Daniel Emanuel Kohl, Klaus Döringshoff, and Markus Krutzik
|
|
|
|
17:00 |
Q 56.29 |
First aluminium ion clock comparisons at PTB — •Fabian Dawel, Johannes Kramer, Marek Hild, Lennart Pelzer, Kai Dietze, and Piet O. Schmidt
|
|
|
|
17:00 |
Q 56.30 |
Red-Emitting DBR Laser for Strontium-Based Optical Atomic Clocks — •Sandy Szermer, Nora Goossen-Schmidt, Bassem Arar, Ahmad Bawamia, Jörg Fricke, Jonas Hamperl, Karl Häusler, Andre Maaßdorf, Christoph Pyrlik, Max Schiemangk, Hans Wenzel, Andrea Knigge, and Andreas Wicht
|
|
|
|
17:00 |
Q 56.31 |
Towards demonstrating a rubidium based optical clock in space — •Nicolas Manrique, Moritz Eisebitt, Stephanie Gerken, Julien Kluge, Daniel Emanuel Kohl, Mathis Müller, Norbert Müller, Max Schiemangk, Dian Zou, Klaus Döringshoff, Andreas Wicht, Markus Krutzik, and the QUEEN/CRONOS Team
|
|
|
|
17:00 |
Q 56.32 |
A highly stable laser for quantum logic spectroscopy in an optical 27Al+ clock — •Gayatri R. Sasidharan, Benjamin Kraus, Fabian Dawel, Lennart Pelzer, Constantin Nauk, Joost Hinrichs, and Piet O. Schmidt
|
|
|
|
17:00 |
Q 56.33 |
Artificial clock transitions with multiple trapped 40Ca+ ions as frequency references — •Kai Dietze, Lennart Pelzer, Ludwig Krinner, Fabian Dawel, Johannes Kramer, and Piet O. Schmidt
|
|
|
|
17:00 |
Q 56.34 |
Recent progress on PTB’s transportable Al+ ion clock — •Constantin Nauk, Benjamin Kraus, Joost Hinrichs, Gayatri Sasidharan, and Piet O. Schmidt
|
|
|
|
17:00 |
Q 56.35 |
Probing physics beyond the standard model using ultracold mercury — •Thorsten Groh, Sascha Heider, and Simon Stellmer
|
|
|
|
17:00 |
Q 56.36 |
Towards an Autonomous Laser System for Operation in Quantum Technology Applications — •Janpeter Hirsch, Martin Gärtner, Stephanie Gerken, Sriram Hariharan, Nora Goossen-Schmidt, Simon Kubitza, Norbert Müller, Max Schiemangk, Christoph Tyborski, Dian Zou, and Andreas Wicht
|
|
|
|
17:00 |
Q 56.37 |
Sideband Thermometry on Ion Crystals — •Ivan Vybornyi, Laura Dreissen, Dominik Kiesenhofer, Helene Hainzer, Matthias Bock, Tuomas Ollikainen, Daniel Vadlejch, Christian Roos, Tanja Mehlstäubler, and Klemens Hammerer
|
|
|
|
17:00 |
Q 56.38 |
Nigtrogen vacancy center based magnetometer and gradiometer — •JIxing Zhang, Michael Kuebler, Magnus Benke, Yihua Wang, Anjana Karuvayalil, and Joerg Wrachtrup
|
|
|
|
17:00 |
Q 56.39 |
Optimal Ramsey interferometry with echo protocols based on one-axis twisting — •Maja Scharnagl, Timm Kielinski, and Klemens Hammerer
|
|
|
|
17:00 |
Q 56.40 |
Progress towards a continuous wave superradiant Calcium Laser — •David Nak and Andreas Hemmerich
|
|
|
|
17:00 |
Q 56.41 |
spin-dependent exotic interactions — •lei cong, wei ji, pavel fadeev, filip ficek, min jiang, victor v. flambaum, haosen guan, derek f. jackson kimball, mikhail g. kozlov, yevgeny v. stadnik, and dmitry budker
|
|
|
|
17:00 |
Q 56.42 |
Low-noise magnetic sensing with tin-vacancy centers — •Gesa Welker, Yufan Li, Toeno van der Sar, and Richard Norte
|
|
|