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16:30 |
Q 11.1 |
Towards an atomic erbium Bose-Einstein condensate generated in a quasistatic dipole trap — •Daniel Babik, Jens Ulitzsch, Henning Brammer, Roberto Röll, and Martin Weitz
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16:30 |
Q 11.2 |
Implementation of lambda-enhanced gray molasses cooling of 87Rb — •Matthias Tarnowski, Benno Rem, Nick Fläschner, Dominik Vogel, Christof Weitenberg, and Klaus Sengstock
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16:30 |
Q 11.3 |
Gray-molasses cooling of 6Li towards a double degenerate Bose-Fermi mixture of 133Cs and 6Li atoms — •Manuel Gerken, Stephan Häfner, Juris Ulmanis, Eva D. Kuhnle, and Matthias Weidemüller
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16:30 |
Q 11.4 |
Integrated cold atom traps based on additive manufacturing — •William Evans, Reece Saint, Yijia Zhou, Mark Fromhold, Ehab Saleh, Christopher Tuck, Ricky Wildman, Mark Hardy, Ian Maskery, Fedja Orucevic, and Peter Kruger
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16:30 |
Q 11.5 |
Imaging of Single Atoms in a Two-Dimensional State-Dependent Optical Lattice — •Volker Schilling, Stefan Brakhane, Geol Moon, Carsten Robens, Wolfgang Alt, Andrea Alberti, and Dieter Meschede
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16:30 |
Q 11.6 |
Two-dimensional quantum walks in artificial magnetic fields — •Muhammad Sajid, Stefan Brakhane, Wolfgang Alt, Dieter Meschede, and Andrea Alberti
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16:30 |
Q 11.7 |
Diffusion of Single Atoms in a Bath — •Daniel Adam, Farina Kindermann, Andreas Dechant, Michael Hohmann, Tobias Lausch, Daniel Mayer, Felix Schmidt, Eric Lutz, and Artur Widera
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16:30 |
Q 11.8 |
Influence of particle distinguishability on coherence phenomena in optical lattices — •Tobias Brünner, Gabriel Dufour, Alberto Rodriguez, and Andreas Buchleitner
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16:30 |
Q 11.9 |
Simulation of magnetic chip traps — •Johannes Battenberg and Reinhold Walser
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16:30 |
Q 11.10 |
Creation of a superposition of opposite circular states in Rydberg atoms using optimal control theory and quantum Zeno dynamics — •Sabrina Patsch, Daniel M. Reich, Jean-Michel Raimond, and Christiane P. Koch
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16:30 |
Q 11.11 |
Rydberg quantum optics in ultracold gases — Hannes Gorniaczyk, Christoph Tresp, Ivan Mirgorodskiy, Christian Zimmer, •Asaf Paris-Mandoki, and Sebastian Hofferberth
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16:30 |
Q 11.12 |
Large bandwith excitation of rydberg atoms in thermal vapor cells — •andy rico, alban urvoy, robert löw, harald kübler, and tilman pfau
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16:30 |
Q 11.13 |
Dynamics of ultracold Rydberg macrodimers — Heiner Saßmannshausen, Frédéric Merkt, and •Johannes Deiglmayr
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16:30 |
Q 11.14 |
Rydberg-dressed interactions in trap loss spectroscopy of ultracold potassium — •Stephan Helmrich, Alda Arias, Nils Pehoviak, Emil Pavlov, Tobias Wintermantel, and Shannon M Whitlock
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16:30 |
Q 11.15 |
Longitudinally homogeneous medium of tunable length for Rydberg EIT — •Steffen Schmidt, Daniel Tiarks, Giovanni Girelli, Stephan Dürr, and Gerhard Rempe
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16:30 |
Q 11.16 |
Simulating many-body spin-dynamics with Rydberg atoms — •Renato Ferracini Alves, Miguel Ferreira-Cao, Vladislav Gavryusev, Adrien Signoles, Gerhard Zuern, Shannon Whitlock, and Matthias Weidemüller
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16:30 |
Q 11.17 |
Precision two-color spectroscopy of long-range ground-state vibrational levels in ultracold 40Ca — Veit P. Dahlke, •Evgenij Pachomow, Eberhard Tiemann, Fritz Riehle, and Uwe Sterr
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16:30 |
Q 11.18 |
Molecular Beam Setup for Quantum Logic Spectroscopy of single Molecular Ions — •Jan Christoph Heip, Fabian Wolf, Chunyan Shi, and Piet O. Schmidt
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16:30 |
Q 11.19 |
Towards ultracold LiK ground-state molecules — •Markus Debatin, Sambit Pal, Mark Lam, and Kai Dieckmann
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16:30 |
Q 11.20 |
High resolution imaging system for experiments on degenerate NaK — •Roman Bause, Frauke Seeßelberg, Nikolaus Buchheim, Zhenkai Lu, Immanuel Bloch, and Christoph Gohle
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16:30 |
Q 11.21 |
News from the Garching NaK mixture — •Nikolaus Buchheim, Frauke Seeßelberg, Zhenkai Lu, Roman Bause, Tobias Schneider, Immanuel Bloch, and Christoph Gohle
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16:30 |
Q 11.22 |
Optical transport of ultracold atoms for the production of groundstate RbYb — •Tobias Franzen, Bastian Pollklesener, Simone Kipp, Kapilan Paramasivam, Christian Halter, and Axel Görlitz
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16:30 |
Q 11.23 |
Herstellung angepasster mikro-optischer Strukturen mit einem FIB — •Marcel Salz, Andreas Pfister, Max Hettrich und Ferdinand Schmidt-Kaler
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16:30 |
Q 11.24 |
Characterisation of efficient single-photon sources based on nitrogen-vacancy centres for radiometric applications — •Beatrice Rodiek, Marco López, Helmuth Hofer, Stefan Kück, Xiao-Liu Chu, and Stefan Götzinger
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16:30 |
Q 11.25 |
A silicon vacancy-based quantum memory in diamond — •Johannes Görlitz, Jonas Nils Becker, Eilon Poem, Joshua Nunn, Ian Alexander Walmsley, and Christoph Becher
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16:30 |
Q 11.26 |
Creating nitrogen-vacancy centers (NVs) in isotopically controlled diamond layers by CVD diamond growth — •Christian Osterkamp, Takashi Yamamoto, Boris Naydenov, and Fedor Jelezko
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16:30 |
Q 11.27 |
Closed loop optimal control on NV centers in diamond — •Florian Frank, Thomas Unden, Jorge Casanova, Zhenyu Wang, Ressa Said, Jonathan Zoller, Martin Plenio, and Fedor Jelezko
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16:30 |
Q 11.28 |
Towards a quantum simulator based on nuclear spins in diamond — •Timo Weggler, Thomas Unden, Nikolas Tomek, Florian Frank, Alexandre Le Boité, Janming Cai, Paz London, Alex Retzker, Itho Kohei, Martin Plenio, Boris Naydenov, and Fedor Jelezko
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16:30 |
Q 11.29 |
Polarization of a C13 nuclear spin bath in diamond in arbitrary aligned fields — •Samuel Müller, Jochen Scheuer, Ilai Schwarz, Qiong Chen, Martin B. Plenio, Boris Naydenov, and Fedor Jelezko
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16:30 |
Q 11.30 |
Elementary model of a two–photon double–slit experiment — •Lucas Happ, Maxim A Efremov, and Wolfgang P Schleich
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16:30 |
Q 11.31 |
Superbunching and Nonclassicality as new Hallmarks of Superradiance — •Daniel Bhatti, Joachim von Zanthier, and Girish S. Agarwal
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16:30 |
Q 11.32 |
Detection of quantum correlations of light without quantum discord or entanglement — •Tom Ettrich, Semjon Köhnke, Melanie Mraz, Elizabeth Agudelo Ospina, Jan Sperling, Werner Vogel, and Boris Hage
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16:30 |
Q 11.33 |
Correlation measurement via unbalanced homodyning with a weak local oscillator — •Christian Reiher, Melanie Mraz, Steve Jäger, Semjon Köhnke, Johannes Kröger, Jan Sperling, Heinrich Stolz, Werner Vogel, and Boris Hage
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16:30 |
Q 11.34 |
Quantum State Tomography of Kerr-squeezed fs-pulses in optical fibres — •Kai Barnscheidt, Oskar Schlettwein, Jakob Studer, and Boris Hage
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16:30 |
Q 11.35 |
Simulation of Kerr-Squeezing in Optical Fibers — •Jakob Studer, Oskar Schlettwein, Kai Barnscheidt, and Boris Hage
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16:30 |
Q 11.36 |
Towards creating Rydberg polaritons with cold atoms inside a hollow-core fiber — •Maria Langbecker, Mohammad Noaman, and Patrick Windpassinger
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16:30 |
Q 11.37 |
Tunable polarons of slow-light polaritons in a BEC — •Fabian Grusdt and Michael Fleischhauer
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16:30 |
Q 11.38 |
A modified setup for trapping of neutral mercury — •Holger John and Thomas Walther
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16:30 |
Q 11.39 |
Optimizing the homodyne detection efficiency of a femtosecond PDC source — •Thomas Dirmeier, Imran Khan, Georg Harder, Vahid Ansari, Nitin Jain, Birgit Stiller, Ulrich Vogl, Gerd Leuchs, Christoph Marquardt, and Christine Silberhorn
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16:30 |
Q 11.40 |
Towards efficient coupling of light and a single two level atom in free space — •Lucas Alber, Bharath Srivathsan, Martin Fischer, Markus Weber, Markus Sondermann, and Gerd Leuchs
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16:30 |
Q 11.41 |
A quantum theory of CCD camera photodetection — •Vanessa Chille, Nicolas Treps, Claude Fabre, Christoph Marquardt, Gerd Leuchs, and Andrea Aiello
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16:30 |
Q 11.42 |
The dynamical Stark effect in the Markovian dynamics of the driven Dicke model — •Daniel Pagel, Andreas Alvermann, and Holger Fehske
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