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16:30 |
Q 25.1 |
Unequal-time correlations in Bose-Einstein condensates — •Linda Shen and Martin Gärttner
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16:30 |
Q 25.2 |
The contribution has been withdrawn.
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16:30 |
Q 25.3 |
Many-body Multifractality in Fock space for Interacting Bosons — Jakob Lindinger, Andreas Buchleitner, and •Alberto Rodríguez
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16:30 |
Q 25.4 |
Dynamics in multi-species bosonic systems — Tobias Brünner, •Gabriel Dufour, Alberto Rodríguez, and Andreas Buchleitner
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16:30 |
Q 25.5 |
Rotational cooling of molecules in a BEC — •Martin Will, Tobias Lausch, and Michael Fleischhauer
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16:30 |
Q 25.6 |
Coexistence of phase transitions and hysteresis near the onset of Bose-Einstein condensation — Michael Maennel and •Klaus Morawetz
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16:30 |
Q 25.7 |
Dynamics of weakly interacting bosons in optical lattices with flux — •Ana Hudomal, Ivana Vasić, Hrvoje Buljan, Walter Hofstetter, and Antun Balaž
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16:30 |
Q 25.8 |
Quench dynamics and boundary condition dependence of the one-dimensional extended Bose Hubbard model — •Sebastian Stumper, Junichi Okamoto, and Michael Thoss
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16:30 |
Q 25.9 |
Staggered-immersion cooling of a quantum gas in optical lattices — •Bing Yang, Hui Sun, Chun-jiong Huang, Han-yi Wang, You-jin Deng, Han-ning Dai, Zhen-sheng Yuan, and Jian-wei Pan
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16:30 |
Q 25.10 |
Simulation of the Quantum Rabi Model with Ultracold Rubidium Atoms in the Deep Strong Coupling Regime — •Geram Hunanyan, Johannes Koch, Martin Leder, Enrique Rico, Carlos Sabin, Enrique Solano, and Martin Weitz
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16:30 |
Q 25.11 |
Probing the mott-insulator state in optical lattices with photoassociation collisions — •Hui Sun, Bing Yang, Zhen-sheng Yuan, and Jian-wei Pan
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16:30 |
Q 25.12 |
Probing Equilibration of Isolated Quantum Systems in a Spinor Bose-Einstein Condensate — •Stefan Lannig, Rodrigo Rosa-Medina Pimentel, Maximilian Prüfer, Philipp Kunkel, Alexis Bonnin, Helmut Strobel, and Markus K. Oberthaler
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16:30 |
Q 25.13 |
Non-equilibrium dynamics of interacting Bosons in an optical lattice — •Jens Benary, Christian Baals, Jian Jiang, and Herwig Ott
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16:30 |
Q 25.14 |
Vortices and droplets in dipolar Bose-Einstein condensates — •Antun Balaž and Axel Pelster
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16:30 |
Q 25.15 |
Bose-Einstein condensation in higher Bloch bands of a honeycomb optical lattice — •Tobias Klafka, Alexander Ilin, Julius Seeger, Mario Neundorf, Klaus Sengstock, and Juliette Simonet
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16:30 |
Q 25.16 |
Laser using narrow band intercombination line of Calcium — •Torben Laske, Hannes Winter, and Andreas Hemmerich
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16:30 |
Q 25.17 |
Measuring symmetry protected Wilson lines — •Christoph Braun, Karen Wintersperger, Jakob Näger, Immanuel Bloch, and Monika Aidelsburger
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16:30 |
Q 25.18 |
Chiral Dynamics and Dissipation Induced Instability in a Quantum Gas — •Katrin Kroeger, Nishant Dogra, Manuele Landini, Lorenz Hruby, Francesco Ferri, Rodrigo Rosa-Medina, Tobias Donner, and Tilman Esslinger
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16:30 |
Q 25.19 |
A tunable quantum gas for the study of universal time dynamics far from equilibrium — •Maurus Hans, Celia Viermann, Helmut Strobel, and Markus K. Oberthaler
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16:30 |
Q 25.20 |
Lifetime of a chiral superfluid in an orbital optical lattice — •Max Hachmann, Raphael Eichberger, Robert Büchner, and Andreas Hemmerich
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16:30 |
Q 25.21 |
The simulation of phase trasnsion from spin-mott to xy-ferromagnatic — •Hanyi Wang
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16:30 |
Q 25.22 |
An experiment for the study of small Hubbard models with rapid repetition rate — Martin Schlederer, Phillip Wieburg, •Alexandra Mozdzen, Thomas Lompe, and Henning Moritz
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16:30 |
Q 25.23 |
Topological light-matter defects as low-lying excitations of 1D optical atom-traps — •Kieran Fraser and Francesco Piazza
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16:30 |
Q 25.24 |
Towards ultra-low entropy quantum states in the Fermi-Hubbard model — •Justus Brüggenjürgen, Muqing Xu, Geoffrey Ji, Christie Chiu, and Markus Greiner
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16:30 |
Q 25.25 |
Analytical tailor-made optical potentials using a phase-only Spatial Light Modulator (SLM) — •Tobias Hammel, Lukas Palm, Philipp Preiß, and Selim Jochim
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16:30 |
Q 25.26 |
Production of quantum degenerate Bose-Fermi mixtures of 6Li and 133Cs — •Binh Tran, Manuel Gerken, Markus Neiczer, Eleonora Lippi, Lauritz Klaus, Bing Zhu, and Matthias Weidemüller
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16:30 |
Q 25.27 |
Dynamics of homogeneous Fermi gases in arbitrary potentials — •Lennart Sobirey, Niclas Luick, Markus Bohlen, Bernd Lienau, Thomas Lompe, and Henning Moritz
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16:30 |
Q 25.28 |
Towards an experimental implementation of topological interfaces and chiral edge modes for fermions in an optical lattice — •Sandra Buob, Michael Messer, Frederik Görg, Kilian Sandholzer, Joaquín Minguzzi, Konrad Viebahn, Rémi Desbuquois, and Tilman Esslinger
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16:30 |
Q 25.29 |
Towards a lithium quantum gas microscope for small quantum systems — •Michael Hagemann, Andreas Kerkmann, Mathis Fischer, Benno Rem, Klaus Sengstock, and Christof Weitenberg
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16:30 |
Q 25.30 |
Scaling it up: From few to many — •Keerthan Subramanian, Luca Bayha, Marvin Holten, Antonia Klein, Puneet Murthy, Philipp Preiss, Gerhard Zürn, and Selim Jochim
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16:30 |
Q 25.31 |
Engineering exotic optical potentials for ultracold fermions — •Jeffrey Mohan, Samuel Häusler, Laura Corman, Philipp Fabritius, Martin Lebrat, Dominik Husmann, and Tilman Esslinger
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16:30 |
Q 25.32 |
Beyond particle transport through a quantum point contact using ultracold atoms — •Samuel Häusler, Dominik Husmann, Martin Lebrat, Philipp Fabritius, Jeffery Mohan, Jean-Philippe Brantut, Laura Corman, and Tilman Esslinger
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16:30 |
Q 25.33 |
Topological phases of mixed states and their detection — •Lukas Wawer and Michael Fleischhauer
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16:30 |
Q 25.34 |
Engineering and measuring density-dependent Peierls phases as a fundamental coupling mechanism of gauge and matter fields — •Kilian Sandholzer, Frederik Görg, Joaquín Minguzzi, Konrad Viebahn, Rémi Desbuquois, Michael Messer, and Tilman Esslinger
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16:30 |
Q 25.35 |
The contribution has been withdrawn.
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16:30 |
Q 25.36 |
Benchmarking non-equilibrium DMFT and ultracold fermions in optical lattices to study the driven Fermi-Hubbard model — •Joaquín Minguzzi, Kilian Sandholzer, Yuta Murakami, Frederik Görg, Michael Messer, Konrad Viebahn, Rémi Desbuquois, Martin Eckstein, Philipp Werner, and Tilman Esslinger
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16:30 |
Q 25.37 |
Cold atoms as ultrasensitive quantum sensors for chiral molecules — •Stefan Aull, Nick Vogeley, Miriam Mendoza Delgado, Peter Zahariev, Steffen Giesen, Robert Berger, and Kilian Singer
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