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Erlangen 2018 – wissenschaftliches Programm

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Q: Fachverband Quantenoptik und Photonik

Q 51: Poster: Quantum Optics and Photonics IV

Mittwoch, 7. März 2018, 16:15–18:15, Redoutensaal

16:15 Q 51.1 Observation of parametric instabilities in 1D interacting shaken optical lattice systems — •Karen Wintersperger, Jakob Näger, Marin Bukov, Martin Reitter, Samuel Lellouch, Ulrich Schneider, Nathan Goldman, Immanuel Bloch, and Monika Aidelsburger
16:15 Q 51.2 Nonlinear standing waves in an array of coherently coupled 1D Bose-Einstein condensates — •Christian Baals, Antonio Muñoz Mateo, Herwig Ott, and Joachim Brand
16:15 Q 51.3 A quantum gas machine for local photoionization of ultracold 87Rb on ultrafast time-scales — •Jakob Butlewski, Tobias Kroker, Bernhard Ruff, Juliette Simonet, Philipp Wessels, Markus Drescher, and Klaus Sengstock
16:15 Q 51.4 Non-equilibrium dynamics of interacting Bosons in an optical lattice — •Johannes Bauer, René Hamburger, Jens Benary, Christian Baals, Jian Jiang, Andreas Müllers, and Herwig Ott
16:15 Q 51.5 Bloch oscillations in the second band of an optical lattice — •Carl Hippler, José Vargas, Thorge Kock, and Andreas Hemmerich
16:15 Q 51.6 Non-equilibrium dynamics in a quasi-1D spinor BEC: demonstration and new probing tools — •Stefan Lannig, Rodrigo Rosa-Medina Pimentel, Maximilian Prüfer, Philipp Kunkel, Christian-Marcel Schmied, Daniel Linnemann, Helmut Strobel, Thomas Gasenzer, and Markus K. Oberthaler
16:15 Q 51.7 An experimental setup for the study of universality far from equilibrium with degenerate 39K — •Maurus Hans, Celia Viermann, Alexander Impertro, Marius Sparn, Helmut Strobel, and Markus K. Oberthaler
16:15 Q 51.8 Creating a superfluid by kinetically driving a Mott insulator — •Gregor Pieplow, Charles E. Creffield, and Fernando Sols
16:15 Q 51.9 Dynamics of Vector Solitons in Spinor Bose-Einstein Condensates — •Kevin Geier, Sebastian Erne, Christian-Marcel Schmied, Markus K. Oberthaler, and Thomas Gasenzer
16:15 Q 51.10 Floquet engineering in periodically driven optical lattices — •Alexander Ilin, Tobias Klafka, Julius Seeger, Mario Neundorf, Christoph Ölschläger, Juliette Simonet, and Klaus Sengstock
16:15 Q 51.11 In situ observation of Bloch oscillations in an optical cavity — •Christoph Georges, Jens Klinder, Hans Kessler, and Andreas Hemmerich
16:15 Q 51.12 Dissipation-induced steady states in Rydberg-dressed quantum gases in an optical lattice — •Mathieu Barbier, Andreas Geißler, and Walter Hofstetter
16:15 Q 51.13 Observation of a pure Goldstone mode in the quench dynamics of an ultracold BCS Fermi gas — •Peter Kettmann, Simon Hannibal, Mihail Croitoru, Vollrath Martin Axt, and Tilmann Kuhn
16:15 Q 51.14 Persistent oscillations in the Higgs mode in a cigar-shaped ultracold Fermi gas — •Simon Hannibal, Peter Kettmann, Mihail Croitoru, Vollrath Martin Axt, and Tilmann Kuhn
16:15 Q 51.15 Local control of transport in an atomic quantum wire — •Philipp Fabritius, Samuel Häusler, Martin Lebrat, Dominik Husmann, Laura Corman, Jean-Philippe Brantut, and Tilman Esslinger
16:15 Q 51.16 Exploring the Single-Particle and Many-Body Mobility Edge in a 1D Quasiperiodic Optical Lattice — •Thomas Kohlert, Sebastian Scherg, Henrik Lüschen, Michael Schreiber, Pranjal Bordia, Monika Aidelsburger, Xiao Li, Sankar Das Sarma, and Immanuel Bloch
16:15 Q 51.17 Many-body phases of fermions coupled to an optical waveguide — •Kieran Fraser and Francesco Piazza
16:15 Q 51.18 Experimental investigation of Floquet dynamics in the driven Fermi-Hubbard model — •Frederik Görg, Michael Messer, Kilian Sandholzer, Joaquín Minguzzi, Gregor Jotzu, Rémi Desbuquois, and Tilman Esslinger
16:15 Q 51.19 Towards Quantum Simulation of the Kondo Lattice Model — •Benjamin Abeln, Marcel Diem, Koen Sponselee, Maximilian Hagenah, Bodhaditya Santra, Klaus Sengstock, and Christoph Becker
16:15 Q 51.20 Manipulating spin correlations in a periodically driven many-body system — •Kilian Sandholzer, Frederik Görg, Michael Messer, Joaquìn Minguzzi, Gregor Jotzu, Rémi Desbuquois, and Tilman Esslinger
16:15 Q 51.21 High temperature pairing in a strongly interacting two-dimensional Fermi gas — •Marvin Holten, Puneet Murthy, Luca Bayha, Ralf Klemt, Gerhard Zürn, Philipp Preiss, and Selim Jochim
16:15 Q 51.22 Bridging the thermoelectric and superfluid fountain effects with ultracold fermions — •Martin Lebrat, Dominik Husmann, Samuel Häusler, Philipp Fabritius, Laura Corman, Jean-Philippe Brantut, and Tilman Esslinger
16:15 Q 51.23 Fast, long-distance transport of single atoms using quantum optimal control — •Thorsten Groh, Manolo Rivera, Natalie Thau, Max Werninghaus, Carsten Robens, Wolfgang Alt, Dieter Meschede, Antonio Negretti, and Andrea Alberti
16:15 Q 51.24 Designing two-dimensional dynamical potentials using fast controllable devices — •Mareike Hetzel, Andreas Hüper, Cebrail Pür, Jiao Geng, Ilka Kruse, Jan Peise, and Carsten Klempt
16:15 Q 51.25 Optical trapping of ion Coulomb crystals — •Julian Schmidt, Yannick Minet, Pascal Weckesser, Fabian Thielemann, Markus Debatin, Leon Karpa, and Tobias Schaetz
16:15 Q 51.26 Laser cooling of dysprosium — •Niels Petersen, Florian Mühlbauer, Lena Maske, Carina Baumgärtner, and Patrick Windpassinger
  16:15 Q 51.27 The contribution has been withdrawn.
16:15 Q 51.28 Next generation atom chip development — •Alexandros Papakonstantinou, Hendrik Heine, Melanie Le Gonidec, Alexander Kassner, Mathias Rechel, Waldemar Herr, Marc C. Wurz, Wolfgang Ertmer, and Ernst M. Rasel
16:15 Q 51.29 Characterization of a source of slow metastable Kr atoms — •Ergin Simsek, Markus Kohler, Carsten Sieveke, Pablo Woelk, Christoph Becker, and Klaus Sengstock
16:15 Q 51.30 Towards gauge fields and topological states with ultracold erbium atoms — •Roberto Vittorio Röll, Daniel Babik, Carl Cheung, Jens Ulitzsch, and Martin Weitz
16:15 Q 51.31 Satellite-based links for Quantum Key Distribution: a comprehensive model — •Carlo Liorni, Hermann Kampermann, and Dagmar Bruß
16:15 Q 51.32 Quantum interference with frequency-locked dissimilar light sources — •Chris Müller, Tim Kroh, Yanting Teng, Andreas Ahlrichs, and Oliver Benson
16:15 Q 51.33 Single-photons versus weak-coherent pulses for quantum memories — •Tom Schmit, Luigi Giannelli, Stephan Ritter, Gerhard Rempe, and Giovanna Morigi
16:15 Q 51.34 A theoretical framework for QR-PUFs — •Giulio Gianfelici, Hermann Kampermann, and Dagmar Bruss
16:15 Q 51.35 Carving of Two-Atom Entangled States using a Cavity — •Bastian Hacker, Stephan Welte, Severin Daiss, Lin Li, Stephan Ritter, and Gerhard Rempe
16:15 Q 51.36 Sagnac-type setup for the generation of tunable polarization entangled photon pairs — •Golnoush Shafiee, Gerhard Schunk, Florian Sedlmeir, Alexander Otterpohl, Ulrich Vogl, Dmitry Strekalov, Harald G. L. Schwefel, Gerd Leuchs, and Christoph Marquardt
16:15 Q 51.37 Two-Atom Quantum Gate employing an Optical Resonator — •Stephan Welte, Bastian Hacker, Severin Daiss, Lin Li, Stephan Ritter, and Gerhard Rempe
16:15 Q 51.38 Increasing photon collection efficiency for faster remote entanglement of atoms — •Timon Hummel, Robert Garthoff, Kai Redeker, Tim van Leent, Wenjamin Rosenfeld, and Harald Weinfurter
16:15 Q 51.39 Heralded Entanglement of Single Atoms over Long Distances — •Tim van Leent, Robert Garthoff, Kai Redeker, Wenjamin Rosenfeld, and Harald Weinfurter
16:15 Q 51.40 Entwicklung und Ergebnisse eines deterministischen Einzelionen-Mikroskops — •Felix Stopp, Georg Jacob, Karin Groot-Berning, Kai-Vincent Mettang und Ferdinand Schmidt-Kaler
16:15 Q 51.41 Spin-photon interface controlled switching in a nanobeam waveguide — •Tim Schröder, Alisa Javadi, Dapeng Ding, Martin Hayhurst Appel, Sahand Mahmoodian, Matthias C. Löbl, Immo Söllner, Rüdiger Schott, Camille Papon, Tommaso Pregnolato, Søren Stobbe, Leonardo Midolo, Andreas D. Wieck, Arne Ludwig, Richard J. Warburton, and Peter Lodahl
16:15 Q 51.42 Estimating the min-entropy of quantum random processes by exploiting Wigner functions — •Johannes Seiler, Thomas Strohm, and Wolfgang P. Schleich
16:15 Q 51.43 Non-classical correlations between ultra-bright broadband twin beams — •Fabian Gumpert and Maria Chekhova
16:15 Q 51.44 Single photon source with rubidium vapor cells — •Arzu Yilmaz
16:15 Q 51.45 Ion Implantation and Annealing Parameters and their Effect on Spin Properties of Color Centers in Diamond — •Johannes Lang, Ragul Sivakumar, Christian Osterkamp, Boris Naydenov, and Fedor Jelezko
16:15 Q 51.46 Using Optical Nanofibers for Quantum Optics — •Sarah M. Skoff, Hardy Schauffert, Johanna Hütner, and Arno Rauschenbeutel
16:15 Q 51.47 Collective molecular emission into a nanofiber — •Masoud Mirzaei, Tobias Utikal, Stephan Götzinger, and Vahid Sandoghdar
16:15 Q 51.48 SiO2 on Si photonic platform with ultra-low intrinsic fluorescence for integrated single photon emitters based on diamond defect centers — •Florian Böhm, Christoph Pyrlik, Niko Nikolay, Jan Schlegel, Andreas Thies, Andreas Wicht, and Oliver Benson
16:15 Q 51.49 Nano-Quantum Optics — •Vahid Sandoghdar and Stephan Götzinger
16:15 Q 51.50 Strong enhancement of radiative decay and efficient biexciton emission from a single quantum dot coupled to a plasmonic nanocone antenna — •Hsuan-Wei Liu, Korenobu Matsuzaki, Stephan Götzinger, and Vahid Sandoghdar
16:15 Q 51.51 Nanodiamonds manipulation with AFM at nanoscale — •Yan Liu, Alexander Kubanek, and Fedor Jelezko
16:15 Q 51.52 13C enriched nanodiamonds — •yuliya mindarava, yan liu, vyacheslav agafonov, valeriy davydov, liudmila kulikova, christian laube, christian jentgens, and fedor jelezko
16:15 Q 51.53 XUV Microscopy with a Schwarzschild-Objective driven by high-harmonic generation — •Felix Wiesner, Julius Reinhard, Martin Wünsche, Johann Jakob Abel, Silvio Fuchs, Jan Nathanael, Christian Rödel, and Gerhard Paulus
16:15 Q 51.54 Infrared streak cameras: Overcoming low SNR by up-conversion — •Markus Allgaier, Vahid Ansari, Christof Eigner, Viktor Quiring, Raimund Ricken, John Matthew Donohue, Thomas Czerniuk, Marc Aßmann, Manfred Bayer, Benjamin Brecht, and Christine Silberhorn
16:15 Q 51.55 Topological order in finite-temperature and driven dissipative systems — •Lukas Wawer, Michael Fleischhauer, Charles Bardyn, Sebastian Diehl, and Alexander Altland
16:15 Q 51.56 Seeded Photon Triplet Generation — •Cameron Okoth, Andrea Cavanna, Nicolas Y. Joly, and Maria V. Chekhova
16:15 Q 51.57 Characterization of Optically Dense Atomic Ensembles confined in Nanofiber-based traps — •Samuel Rind, Adarsh Prasad, Jakob Hinney, Christoph Clausen, Jürgen Volz, Philipp Schneewiess, and Arno Rauschenbeutel
16:15 Q 51.58 Limits on generating higher-order Fock states with parametric down conversion — •Johannes Tiedau, Tim J. Bartley, Georg Harder, Thomas Gerrits, and Christine Silberhorn
16:15 Q 51.59 Observing g(2)(0) at the lasing threshold with samplerates up to 1 MHz — •Johannes Thewes, Carolin Lüders, and Marc Aßmann
16:15 Q 51.60 Generation of squeezed vacuum states in a nonlinear crystalline whispering gallery mode resonator — •Alexander Otterpohl, Florian Sedlmeir, Thomas Dirmeier, Ulrich Vogl, Gerhard Schunk, Golnoush Shafiee, Dmitry Strekalov, Harald G. L. Schwefel, Tobias Gehring, Ulrik L. Andersen, Gerd Leuchs, and Christoph Marquardt
16:15 Q 51.61 Towards integrating superconducting detectors on lithium niobate waveguides — •Jan Philipp Höpker, Frederik Thiele, Moritz Bartnick, Stephan Krapick, Evan Meyer-Scott, Nicola Montaut, Harald Hermann, Raimund Ricken, Viktor Quiring, Torsten Meier, Adriana Lita, Varun Verma, Thomas Gerrits, Richard Mirin, Sae Woo Nam, Christine Silberhorn, and Tim Bartley
16:15 Q 51.62 Entangled Photons Recombination from Broadband Parametric Down Conversion — •Hani Abou Hadba, Kirill Spasibko, and Maria chekhova
16:15 Q 51.63 Amplification of high orbital angular momentum modes in a nonlinear interferometer — •Johan Ospina, Roman Zakharov, Olga Tikhonova, and Maria Chekhova
16:15 Q 51.64 Precise frequency estimation using a quantum sensorSimon Schmitt, •Daniel Louzon, Tuvia Gefen, Liam McGuinness, Alex Retzker, and Fedor Jelezko
16:15 Q 51.65 3D printing of complex submillimeter-sized wide angle objectives — •Zhen Wang, Simon Thiele, Ksenia Weber, Chenyang Zhang, Alois Herkommer, and Harald Giessen
16:15 Q 51.66 How to superimpose six light waves without interference — •Koen van Kruining, Rob Cameron, and Jörg Götte
16:15 Q 51.67 3D printed combinations of fibers with complex optics for virtual and augmented reality applications — •Philipp Geser, Simon Ristok, Simon Thiele, Alois Herkommer, and Harald Giessen
16:15 Q 51.68 Towards a whispering gallery mode resonator based wavemeter — •Thomas Halbauer, Golnoush Shafiee, Gerhard Schunk, Alexander Otterpohl, Florian Sedlmeir, Dmitry Strekalov, Harald G. L. Schwefel, Gerd Leuchs, and Christoph Marquardt
16:15 Q 51.69 Towards amorphous superconducting single-photon detectors integrated with nanophotonic waveguides — •Matthias Häußler, Martin A. Wolff, Wolfram H. P. Pernice, and Carsten Schuck
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