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16:15 |
Q 58.1 |
Short Pulse Photonic-Phononic Memory — •Johannes Piotrowski, Mikołaj K. Schmidt, Birgit Stiller, Christopher Poulton, and Michael Steel
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16:15 |
Q 58.2 |
Atom interferometers with specular reflection — •Fabio Di Pumpo, Alexander Friedrich, Enno Giese, Albert Roura, Wolfgang P. Schleich, Daniel M. Greenberger, and Ernst M. Rasel
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16:15 |
Q 58.3 |
Single-pulse large momentum transfer with double Raman diffraction — •Sabrina Hartmann, Jens Jenewein, Albert Roura, Wolfgang P. Schleich, and the QUANTUS team
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16:15 |
Q 58.4 |
Analysis of atomic Bragg and Raman diffraction — •Eric P. Glasbrenner, Alexander Friedrich, Enno Giese, Ernst M. Rasel, and Wolfgang P. Schleich
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16:15 |
Q 58.5 |
Atom interferometry with branch-dependent light pulses — •Enno Giese, Fabio Di Pumpo, Alexander Friedrich, and Wolfgang P. Schleich
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16:15 |
Q 58.6 |
Compact and stable potassium laser system for dual species atom interferometry in microgravity — •Julia Pahl, Julien Kluge, Aline N. Dinkelaker, Christoph Grzeschik, Achim Peters, Markus Krutzik, and The QUANTUS Team
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16:15 |
Q 58.7 |
Correlation functions of electrons from independent sources — •Mona Bukenberger, Stefan Richter, Anton Classen, Raul Corrêa, and Joachim von Zanthier
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16:15 |
Q 58.8 |
Quantum optimal control of the dissipative production of a maximally entangled state — •Karl Horn, Florentin Reiter, Yiheng Lin, Dietrich Leibfried, and Christiane P. Koch
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16:15 |
Q 58.9 |
Measurement-induced nonlinearities in two-mode systems. — •Matvei Riabinin, Polina Sharapova, Tim J. Bartley, and Torsten Meier
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16:15 |
Q 58.10 |
Assembly and characterization of a rigid fiber Fabry-Pérot cavity — •Carlos Saavedra, David Röser, Deepak Pandey, Hanes Pfeifer, Wolfgang Alt, and Dieter Meschede
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16:15 |
Q 58.11 |
Towards Terahertz quantum sensing: Measurement of spontaneous parametric down conversion in the terahertz frequency range. — •Mirco Kutas, Björn Haase, Daniel Molter, and Georg von Freymann
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16:15 |
Q 58.12 |
Beyond input-output models in x-ray cavity QED — •Dominik Lentrodt, Kilian P. Heeg, Christoph H. Keitel, and Jörg Evers
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16:15 |
Q 58.13 |
How accurately can we measure the Photon-Exchange Phase? — Konrad Tschernig, •Malte Smoor, Tim Kroh, Chris Müller, Armando Perez-Leija, Kurt Busch, and Oliver Benson
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16:15 |
Q 58.14 |
Coherence of individual neutral impurities immersed in an ultracold bath — •Daniel Adam, Quentin Bouton, Jennifer Koch, Tobias Lausch, Daniel Mayer, Jens Nettersheim, Felix Schmidt, and Artur Widera
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16:15 |
Q 58.15 |
Laser-driven ion acceleration in the ultra-relativistic Breakout-Afterburner regime — •Shikha Bhadoria, Naveen Kumar, and Christoph H. Keitel
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16:15 |
Q 58.16 |
Towards the realisation of an atom trap in the evanescent field of a WGM-microresonator — •Luke Masters, Elisa Will, Michael Scheucher, Jürgen Volz, and Arno Rauschenbeutel
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16:15 |
Q 58.17 |
Investigating Transport in a Rydberg Medium with Interaction Enhanced Imaging — •Andre Salzinger, Titus Franz, Annika Tebben, Nithiwadee Thaicharoen, Clement Hainaut, Gerhard Zürn, and Matthias Weidemüller
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16:15 |
Q 58.18 |
Geometry optimization for Casimir-Polder calculations using the discontinuous Galerkin time domain method — •Bettina Beverungen, Philip Kristensen, and Kurt Busch
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16:15 |
Q 58.19 |
Giant Cross-Kerr Nonlinearity induced by a Strong Coupled Single Atom Cavity System — •Bo Wang, Nicolas Tolazzi, Jonas Neumeier, Christoph Hamsen, Tatjana Wilk, and Gerhard Rempe
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16:15 |
Q 58.20 |
Two single photon sources for rubidium transitions — •Eduardo Urunuela, Wolfgang Alt, Yan Chen, Robert Keil, Tobias Macha, Deepak Pandey, Hannes Pfeifer, Lothar Ratschbacher, Michael Zopf, Fei Ding, Oliver G. Schmidt, and Dieter Meschede
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16:15 |
Q 58.21 |
Optomechanical entanglement detection — Jason Hoelscher-Obermaier, Sebastian Hofer, Ramon Mogadas-Nia, Claus Gaertner, •Corentin Gut, Klemens Wrinkler, Adrian Steffens, Jens Eisert, Witlef Wieczorek, Markus Aspelmeyer, and Klemens Hammerer
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16:15 |
Q 58.22 |
Semiclassical rotation dynamics of rigid rotors — •Birthe Papendell, Benjamin A. Stickler, and Klaus Hornberger
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16:15 |
Q 58.23 |
Phase-locking of optically levitated nanoparticles — •Henning Rudolph, Benjamin Stickler, and Klaus Hornberger
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16:15 |
Q 58.24 |
Optomechanical locking of a large linewidth membrane-in-the-middle cavity using the optical spring effect — Tobias Wagner, •Jakob Butlewski, Philipp Rohse, Clara Schellong, Hai Zhong, Alexander Schwarz, Roland Wiesendanger, Klaus Sengstock, and Christoph Becker
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16:15 |
Q 58.25 |
Applications of Zerodur based optical benches in quantum optics microgravity missions — •Jean Pierre Marburger, Moritz Mihm, Sören Boles, André Wenzlawski, Ortwin Hellmig, Klaus Sengstock, Patrick Windpassinger, and the MAIUS and BECCAL team
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16:15 |
Q 58.26 |
Towards pure quantum states of motion of 0.1 kg pendulum suspended mirrors — •Jan Petermann, Alexander Franke, and Roman Schnabel
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16:15 |
Q 58.27 |
Parametrically Damped High-Q Mechanical Pendulum with Interferometric Readout — •Daniel Hartwig and Roman Schnabel
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16:15 |
Q 58.28 |
High-reflectivity AlGaAs-based optomechanical devices — •Sushanth Kini M, Shu Min Wang, Jamie Fitzgerald, Philippe Tassin, and Witlef Wieczorek
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16:15 |
Q 58.29 |
Robust and miniaturized Zerodur based optical and vacuum systems for quantum technology applications — •Sören Boles, Jean Pierre Marburger, Moritz Mihm, André Wenzlawski, Ortwin Hellmig, Klaus Sengstock, and Patrick Windpassinger
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16:15 |
Q 58.30 |
Biphoton generation in ultrathin layer of lithium niobate — •Tomás Santiago-Cruz, Cameron Okoth, Andrea Cavanna, and Maria Chekhova
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16:15 |
Q 58.31 |
Stable single light bullets in cold Rydberg gases — •Zhengyang Bai, Weibin Li, and Guoxiang Huang
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16:15 |
Q 58.32 |
Waveguide-integrated superconducting nanowire single-photon detectors with photon number resolution — •Martin A. Wolff, Jonas Schütte, Matthias Häussler, and Carsten Schuck
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16:15 |
Q 58.33 |
Nitrogen-Vacancy Based Electron Spin Resonance Spectroscopy in Diamond — •Florian Böhm, Niko Nikolay, Nikola Sadzak, Bernd Sontheimer, and Oliver Benson
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16:15 |
Q 58.34 |
Harmonic generation in laser-driven tight-binding models employing the Kwant Python package. — •Francisco Javier Ortega Dueñas and Dieter Bauer
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16:15 |
Q 58.35 |
Fabrication of a 2D nuclear spin lattice for a NV based solid state quantum simulator — •Karolina Schüle, Nikolas Tomek, Philipp Vetter, Johannes Lang, Paul Listunov, Boris Naydenov, and Fedor Jelezko
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