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16:30 |
Q 16.1 |
Quantum states with maximal memory effects — •Steffen Wißmann, Antti Karlsson, Elsi-Mari Laine, Jyrki Piilo, and Heinz-Peter Breuer
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16:30 |
Q 16.2 |
Efficient Optimization of Quantum Gates for Rydberg Atoms and Transmon Qubits under Dissipative Evolution — •Michael H. Goerz, Daniel M. Reich, and Christiane P. Koch
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16:30 |
Q 16.3 |
On the SLOCC-classification of multilevel tripartite entanglement — •Christina Ritz, Matthias Kleinmann, and Otfried Gühne
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16:30 |
Q 16.4 |
Closed form solution of Lindblad master equations without gain — •Juan Mauricio Torres
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16:30 |
Q 16.5 |
Thermalization free interaction of two quantum systems governed by independent Markovian master equations — •József Zsolt Bernád, Juan Mauricio Torres, and Gernot Alber
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16:30 |
Q 16.6 |
Single-mode EPR-entanglement via narrowband filtering of multimode type-II parametric down-conversion — Andreas Christ, Cosmo Lupo, •Matthias Reichelt, Torsten Meier, and Christine Silberhorn
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16:30 |
Q 16.7 |
Stochastics in System-Environment Correlation Dynamics — •Franziska Peter and Walter Strunz
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16:30 |
Q 16.8 |
Maxwell's demon observing a scattering process: Quantum surplus of energy-transfer — •C. Aris C.-Dreismann, Tomasz P. Blach, and Alexander Dreismann
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16:30 |
Q 16.9 |
Simulation des Trennens von Ionenkristallen und Messung von Heizraten in einer segmentierten Mikroionenfalle — •Claudia Warschburger, Henning Kaufmann, Thomas Ruster, Christian Schmiegelow, Ulrich Poschinger und Ferdinand Schmidt-Kaler
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16:30 |
Q 16.10 |
Hybride Ionenfalle für Spin-Spin Wechselwirkungen — •Niels Kurz, Jens Welzel, Amado Bautista-Salvador und Ferdinand Schmidt-Kaler
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16:30 |
Q 16.11 |
Thermalization, Error-Correction, and Memory Lifetime for Ising Anyon Systems — •Courtney Brell, Simon Burton, Guillaume Dauphinais, Steven Flammia, and David Poulin
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16:30 |
Q 16.12 |
Quantum Error Correction for Optical Continuous-Variable Cluster Computation — •Alexander Roth and Peter van Loock
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16:30 |
Q 16.13 |
A scanning probe quantum processor using NV centres — •Andreas Brunner, Rainer Stöhr, Friedemann Reinhard, and Jörg Wrachtrup
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16:30 |
Q 16.14 |
Characterisation of ion heating in a cryogenic ion-trap system — •Michael Niedermayr, Kirill Lakhmanskiy, Muir Kumph, Stefan Partel, Johannes Edlinger, Michael Brownnutt, and Rainer Blatt
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16:30 |
Q 16.15 |
Radio-frequency spectroscopy of dark state polaritons — •Georg Enzian, Vladimir Djokic, Frank Vewinger, and Martin Weitz
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16:30 |
Q 16.16 |
Charakterisierung eines mikrostrukturierten Paulfallen-Resonatorsystems für eine Licht-Ionen Schnittstelle — •Max Hettrich, Andreas Pfister, Marcel Salz und Ferdinand Schmidt-Kaler
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16:30 |
Q 16.17 |
Towards resonance fluorescence from single GaAs/AlGaAs quantum dots at 780nm — •Robert Keil, Bianca Höfer, Jiaxiang Zhang, Eugenio Zallo, Fei Ding, and Oliver G. Schmidt
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16:30 |
Q 16.18 |
Temperature-dependent zero-phonon line shift and broadening in single silicon vacancy centres in diamond — •Jan Binder, Andreas Dietrich, Kay Jahnke, and Lachlan Rogers
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16:30 |
Q 16.19 |
An ion-trap fiber-cavity apparatus as an efficient quantum interface — •Birgit Brandstätter, Klemens Schüppert, Bernardo Casabone, Konstantin Friebe, Jakob Reichel, Tracy Northup, and Rainer Blatt
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16:30 |
Q 16.20 |
Aufbau eines QKD-Setups mit passiver Zustandspräparation — •Stephanie Lehmann, Sabine Wenzel, Sabine Euler und Thomas Walther
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16:30 |
Q 16.21 |
Parametric down-conversion sources for applications in quantum information — •Sabine Euler and Thomas Walther
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16:30 |
Q 16.22 |
Towards strong coupling in an ion-trap fiber-cavity apparatus — •Klemens Schüppert, Birgit Brandstätter, Bernardo Casabone, Konstantin Friebe, Sebastien Garcia, Jakob Reichel, Tracy Northup, and Rainer Blatt
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16:30 |
Q 16.23 |
Key rates for practical quantum key distribution protocols — •Florian Köppen, Tobias Moroder, Norbert Lütkenhaus, and Otfried Gühne
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16:30 |
Q 16.24 |
Enhanced state–mapping using ion crystals — •Konstantin Friebe, Bernardo Casabone, Birgit Brandstätter, Klemens Schüppert, Tracy Northup, and Rainer Blatt
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16:30 |
Q 16.25 |
High-fidelity quantum repeater using cavity-QED and bright coherent light — •Denis Gonta and Peter van Loock
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16:30 |
Q 16.26 |
Practical Trojan-horse attacks on continuous-variable QKD — Imran Khan, •Nitin Jain, Christoph Marquardt, and Gerd Leuchs
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16:30 |
Q 16.27 |
Realisation of a 7 qubit error correcting code with trapped ions — Daniel Nigg, Markus Müller, •Esteban Martinez, Philipp Schindler, Thomas Monz, Markus Hennrich, Miguel Angel Martin-Delgado, and Rainer Blatt
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16:30 |
Q 16.28 |
Experimente mit gemischten Coulomb-Kristallen bestehend aus einfach und doppelt geladenen Kalzium Ionen — •Thomas Feldker, Matthias Stappel, Patrick Bachor, Lennart Pelzer, Jochen Walz und Ferdinand Schmidt-Kaler
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16:30 |
Q 16.29 |
Laser Systems for Manipulation of 9Be+ — •K. Voges, M. Kohnen, M. Carsjens, T. Dubielzig, S. Grondkowski, H. Hahn, M. Niemann, A.-G. Paschke, and C. Ospelkaus
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16:30 |
Q 16.30 |
Single-ion Faraday rotation and ion-ion entanglement by single-photon detection — •Gabriel Araneda Machuca, Lukas Slodicka, Nadia Röck, Gabriel Hétet, Markus Hennrich, Yves Colombe, and Rainer Blatt
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16:30 |
Q 16.31 |
Quantum control of 9Be+ hyperfine qubits — •Sebastian Grondkowski, Martina Carsjens, Matthias Kohnen, Timko Dubielzig, and Christian Ospelkaus
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16:30 |
Q 16.32 |
Laser-machined optical cavities of high finesse — •Manuel Uphoff, Manuel Brekenfeld, Stephan Ritter, and Gerhard Rempe
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16:30 |
Q 16.33 |
Single-atom electromagnetically induced transparency in a strongly coupled atom-cavity system — •Haytham Chibani, Christoph Hamsen, Ingmari Tietje, Paul A. Altin, Tatjana Wilk, and Gerhard Rempe
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16:30 |
Q 16.34 |
Generation of entangled atom-photon states via reflection off an optical cavity — •Bastian Hacker, Andreas Reiserer, Norbert Kalb, Mahmood Sabooni, Stephan Ritter, and Gerhard Rempe
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16:30 |
Q 16.35 |
Auf dem Weg zu einer Einzel-Ionen-Wärmekraftmaschine — •Karl Nicolas Tolazzi, Johannes Rossnagel, Obinna Abah, Ferdinand Schmidt-Kaler, Eric Lutz und Kilian Singer
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16:30 |
Q 16.36 |
Dissipative Quantum State Engineering with Atoms and Molecules — •Hendrik Weimer
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16:30 |
Q 16.37 |
Solid state laser system to studying topological defects in Coulomb crystals — •Philip Kiefer, Jonathan Brox, Haggai Landa, Manuel Mielenz, Benni Reznik, and Tobias Schaetz
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16:30 |
Q 16.38 |
Quantum dynamics of an ion controlled bosonic Josephson junction — •Jannis Joger, Antonio Negretti, Ferdinand Schmidt-Kaler, and Rene Gerritsma
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16:30 |
Q 16.39 |
Controlled preparation of multiple atoms in an optical cavity — •Matthias Körber, Andreas Neuzner, Carolin Hahn, Stephan Ritter, and Gerhard Rempe
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16:30 |
Q 16.40 |
Towards the simulation of the spin-boson model — •Jakob Pacer, Govinda Clos, Ulrich Warring und Tobias Schaetz
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16:30 |
Q 16.41 |
An ion as a probe for focus characterization — •Marianne Bader, Martin Fischer, Paul Roth, Markus Sondermann, and Gerd Leuchs
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16:30 |
Q 16.42 |
Addressing of individual ions with RF radiation in a planar electrode ion trap with integrated current carrying electrodes — Peter Kunert, •Ivan Boldin, Daniel Georgen, Michael Johanning, and Christof Wunderlich
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16:30 |
Q 16.43 |
Towards a loophole free test of Bell’s inequality with atoms entangled over a large distance — •Daniel Burchardt, Norbert Ortegel, Kai Redeker, Julian Hofmann, Michael Krug, Markus Rau, Wenjamin Rosenfeld, and Harald Weinfurter
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16:30 |
Q 16.44 |
Quantum nonlinear optics with an ion crystal in a cavity — •Robert Johne and Thomas Pohl
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16:30 |
Q 16.45 |
Towards an on-demand single photon source based on room temperature vapor cells — •Michael Zugenmaier, Jürgen Appel, Jörg Müller, and Eugene Polzik
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16:30 |
Q 16.46 |
Cryogenic ion-trap system for quantum computing applications. — •Kirill Lakhmanskiy, Michael Niedermayr, Stefan Partel, Alexander Erhard, Johannes Edlinger, Michael Brownnutt, and Rainer Blatt
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16:30 |
Q 16.47 |
Light switching mediated by a single atom — •Michael Scheucher, Christian Junge, Jürgen Volz, and Arno Rauschenbeutel
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16:30 |
Q 16.48 |
Entanglement of two trapped ions via an optical resonator — •Bernardo Casabone, Konstantin Friebe, Andreas Stute, Birgit Brandstätter, Klemens Schüppert, Tracy Northup, and Rainer Blatt
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16:30 |
Q 16.49 |
Set-up of a hybrid quantum optomechanical system at 30 mK — •Hai Zhong, Gotthold Fläschner, Michael Nitschke, Alexander Schwarz, and Roland Wiesendanger
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16:30 |
Q 16.50 |
Stabilization of an optomechanical system via Pyragas control — •Nicolas L. Naumann, Julia Kabuss, and Andreas Knorr
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16:30 |
Q 16.51 |
Towards x-ray optomechanics — •Luling Jin, Yong Li, and Jörg Evers
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16:30 |
Q 16.52 |
A Hybrid System in the Quantum Regime — •Christina Staarmann, Andreas Bick, Philipp Christoph, Ortwin Hellmig, Christoph Becker, Klaus Sengstock, Hai Zhong, Gotthold Fläschner, Alexander Schwarz, and Roland Wiesendanger
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16:30 |
Q 16.53 |
Sympathetic cooling of a micromechanical membrane via ultracold atoms — •Aline Faber, Andreas Jöckel, Maria Korppi, Thomas Lauber, Tobias Kampschulte, and Philipp Treutlein
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16:30 |
Q 16.54 |
Dynamics of hybrid optomechanical systems — •Timo Holz, Marc Bienert, and Ralf Betzholz
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16:30 |
Q 16.55 |
High-Q membrane mechanical oscillators made from InxGa1−xP for cavity optomechanics experiments — Garrett D. Cole, •Witlef Wieczorek, Claus Gärtner, Ramon M. Nia, Karoline Siquans, Jason Hoelscher-Obermaier, and Markus Aspelmeyer
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16:30 |
Q 16.56 |
Cavity optomechanics with an optically levitated submicron particle — •Uroš Delić, Nikolai Kiesel, Florian Blaser, David Grass, Rainer Kaltenbaek, and Markus Aspelmeyer
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16:30 |
Q 16.57 |
Density profiles and contrast in open atom interferometers — •Wolfgang Zeller, Albert Roura, Wolfgang P. Schleich, and the QUANTUS TEAM
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16:30 |
Q 16.58 |
Interferometry Experiments with Charged Matter Waves — •Georg Schütz, Alexander Rembold, Andreas Pooch, Andreas Günther, and Alexander Stibor
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16:30 |
Q 16.59 |
Simulating matter-wave interferometers with classical rays — •Mathias Schneider and Reinhold Walser
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16:30 |
Q 16.60 |
MAIUS - a rocket-based atom interferometer in space — •Maike Diana Lachmann, Dennis Becker, Stephan Tobias Seidel, Ernst Maria Rasel, and The QUANTUS Team
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16:30 |
Q 16.61 |
Compact electronics for laser system in microgravity — •Manuel Popp, Thijs Wendrich, Wolfgang Ertmer, and Ernst Maria Rasel
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16:30 |
Q 16.62 |
Electron guiding on a surface-electrode microwave chip — •Jakob Hammer, Stephan Heinrich, Dominik Ehberger, Sebastian Thomas, and Peter Hommelhoff
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16:30 |
Q 16.63 |
Planar microwave structures for electron guiding — Jakob Hammer, Stephan Heinrich, •Philipp Weber, and Peter Hommelhoff
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16:30 |
Q 16.64 |
A compact gravimeter based on Bragg diffraction of a Bose-Einstein condensate — •Maral Sahelgozin, Jonas Matthias, Ernst Maria Rasel, and The QUANTUS-TEAM
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16:30 |
Q 16.65 |
Tomography of Dispersion forces — •Johannes Fiedler and Stefan Scheel
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16:30 |
Q 16.66 |
Laser system technology for quantum gas experiments aboard sounding rockets — •Vladimir Schkolnik, Markus Krutzik, Achim Peters, The QUANTUS Team, The LASUS Team, and The KALEXUS Team
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16:30 |
Q 16.67 |
A miniaturized, high flux BEC source for precision interferometry — Alexander Grote, Klaus Sengstock, and •The QUANTUS Team
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16:30 |
Q 16.68 |
Satellite-borne laser system for 87/85Rb dual-species interferometry — •Markus Krutzik, Achim Peters, and the STE-QUEST team
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16:30 |
Q 16.69 |
The AEI-SAS: Seismic isolation for the 10 m Prototype Interferometer — •Gerald Bergmann
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16:30 |
Q 16.70 |
The Frequency Reference Cavity for the AEI 10 m Prototype Interferometer — •Manuela Hanke
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16:30 |
Q 16.71 |
Progress Report Towards an Al+ Quantum Logic Optical Clock — •Stephan Hannig, Sana Amairi, Jannes B. Wübbena, Nils Scharnhorst, Ian D. Leroux, and Piet O. Schmidt
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16:30 |
Q 16.72 |
Accuracy bounds for gradient metrology with PI atomic ensembles — •Iagoba Apellaniz, Iñigo Urizar-Lanz, Zoltán Zimboras, and Géza Toth
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16:30 |
Q 16.73 |
Ultra-low frequency-noise laser for reducing the instability of an optical lattice clock — •S. Häfner, St. Falke, M. Merimaa, Ch. Grebing, Th. Legero, Ch. Lisdat, and U. Sterr
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16:30 |
Q 16.74 |
Ultrastable clock laser for a magnesium frequency standard — •Steffen Rühmann, André Kulosa, Dominika Fim, Klaus Zipfel, Steffen Sauer, Birte Lampmann, Leonie Theis, Wolfgang Ertmer, and Ernst Rasel
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16:30 |
Q 16.75 |
Compact mode-locked diode laser system for highly accurate frequency comparisons in microgravity — •Heike Christopher, Evgeny Kovalchuk, Andreas Wicht, Götz Erbert, Günther Tränkle, Achim Peters, and The LASUS Team
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16:30 |
Q 16.76 |
Sisyphus cooling of magnesium in an optical dipole trap — •Steffen Sauer, André Kulosa, Steffen Rühmann, Dominika Fim, Klaus Zipfel, Birte Lampmann, Leonie Theis, Wolfgang Ertmer, and Ernst Rasel
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16:30 |
Q 16.77 |
Micro-integrated extended cavity diode lasers for precision quantum sensors — •Christian Kürbis, Erdenetsetseg Luvsandamdin, Max Schiemangk, Andreas Wicht, Götz Erbert, Achim Peters, and Günther Tränkle
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16:30 |
Q 16.78 |
Comparison of balanced homodyne detection for different wavelengths using noise-equivalent power — •Imran Khan, Andreas Leitherer, Christoph Marquardt, and Gerd Leuchs
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16:30 |
Q 16.79 |
The 87Sr Strontium Lattice Clock at PTB — •A. Al-Masoudi, St. Falke, S. Häfner, St. Vogt, U. Sterr, and C. Lisdat
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16:30 |
Q 16.80 |
Quantum interferometry with spinor BECs — •Daniel Linnemann, Wolfgang Müssel, Helmut Strobel, Jonas Schulz, Jiri Tomkovic, Eike Nicklas, Ion Stroescu, David B. Hume, and Markus K. Oberthaler
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16:30 |
Q 16.81 |
Iodine frequency reference for space applications using a multipass absorption cell — •Klaus Döringshoff, Julia Pahl, Moritz Nagel, Evgeny V. Kovalchuk, Johannes Stühler, Thilo Schuldt, Claus Braxmaier, and Achim Peters
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16:30 |
Q 16.82 |
An inertial sensitive matter wave interferometer based on 39K — •Logan Richardson, Henning Albers, Dennis Schlippert, Christian Meiners, Jonas Hartwig, Wolfgang Ertmer, and Ernst M. Rasel
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16:30 |
Q 16.83 |
The Suspension Platform Interferometer for the AEI 10 m Prototype — •Sina Köhlenbeck for the AEI 10m Prototype Team
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16:30 |
Q 16.84 |
Determination of the magic wavelength of magnesium — •Birte Lampmann, André Kulosa, Steffen Rühmann, Dominika Fim, Klaus Zipfel, Steffen Sauer, Leonie Theis, Wolfgang Ertmer, and Ernst Rasel
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16:30 |
Q 16.85 |
Spectroscopy of the clock transition in 171Yb in a transportable setup — •Gregor Mura, Tobias Franzen, Daria Ziguleva, Julian Schmitt, Charbel Abou Jaoudeh, Axel Görlitz, Heiko Luckmann, Alexander Nevsky, Ingo Ernsting, and Stephan Schiller
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16:30 |
Q 16.86 |
Postcorrection of Vibrational Noise in an Atomic Gravimeter — •Christian Meiners, Henning Albers, Logan Richardson, Dennis Schlippert, Jonas Hartwig, Wolfgang Ertmer, and Ernst M. Rasel
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16:30 |
Q 16.87 |
Gravitational Wave Polarization and the Antenna Pattern — •Tobin Fricke
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16:30 |
Q 16.88 |
Collisional frequency shifts and spin-squeezing for a trapped-atom clock — •Konstantin Ott, Ramon Szmuk, Vera Guarrera, Wilfried Maineult, Jakob Reichel, and Peter Rosenbusch
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