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Q: Fachverband Quantenoptik und Photonik

Q 58: Poster: Quantum Optics and Photonics IV

Donnerstag, 3. März 2016, 16:30–19:00, Empore Lichthof

16:30 Q 58.1 Quantum Friction and Markovianity — •Juliane Klatt, Stefan Yoshi Buhmann, and Diego A.R. Dalvit
16:30 Q 58.2 Casimir-Polder Interaction and Matter Wave Scattering — •Joshua Hemmerich and Stefan Buhmann
  16:30 Q 58.3 The contribution has been withdrawn (duplicate of Q 58.2).
16:30 Q 58.4 Van der Waals interaction of Rydberg atoms in hollow-core fibers — •Helge Dobbertin, Harald R. Haakh, and Stefan Scheel
16:30 Q 58.5 Magnetic Casimir-Polder Interaction and the Influence of Foucault currents — •Daniel Reiche, Francesco Intravaia, and Kurt Busch
16:30 Q 58.6 Decay properties of an atom coupled to a disordered 1D waveguide — •Michael P. Schneider, Christoph Martens, Tobias Sproll, and Kurt Busch
16:30 Q 58.7 Atomic population transfer in integrated 1-D photonic structues — •Tobias Sproll, Christoph Martens, Francesco Intravaia, and Kurt Busch
16:30 Q 58.8 Dynamics and interaction of two emitters embedded in a one-dimensional waveguide — •Christoph Martens, Tobias Sproll, Michael Peter Schneider, Francesco Intravaia, and Kurt Busch
16:30 Q 58.9 Circuit-QED with left-handed superlattice metamaterials — •Anette Messinger, Bruno Taketani, and Frank K. Wilhelm
  16:30 Q 58.10 The contribution has been withdrawn.
16:30 Q 58.11 Resonance fluorescence spectrum of a laser-cooled atom trapped in a non-harmonic potential — •Ralf Betzholz and Marc Bienert
16:30 Q 58.12 Efficient coupling of a trapped moving atom to a single photon in free space — •Thorsten Haase, Nils Trautmann, and Gernot Alber
16:30 Q 58.13 Light-light interaction in strong plane-wave laser fieldsSebastian Meuren, •Sergey Bragin, Rashid Shaisultanov, Christoph H. Keitel, and Antonino Di Piazza
16:30 Q 58.14 Analytical tools for investigating strong-field QED processes in tightly focused laser fieldsAntonino Di Piazza and •Alessandro Angioi
16:30 Q 58.15 Many-body phases emerging from the competition between long-range and short-range potentials — •Rebecca Kraus, Katharina Rojan, Hessam Habibian, and Giovanna Morigi
16:30 Q 58.16 Realizations of non-linear quantum maps in the one-atom maser model — •Felix Weber, Zsolt Bernád, and Gernot Alber
16:30 Q 58.17 Towards Cavity QED with N-type atoms — •Karl Nicolas Tolazzi, Christoph Hamsen, Haytham Chibani, Tatjana Wilk, and Gerhard Rempe
16:30 Q 58.18 Quantum dynamics in spatially resolved two-atom cavity-QED — •Matthias Körber, Andreas Neuzner, Olivier Morin, Stephan Ritter, and Gerhard Rempe
16:30 Q 58.19 Strong optical nonlinearity induced by weakly interacting ions — •Robert Johne and Thomas Pohl
16:30 Q 58.20 Long high finesse fiber Fabry-Pérot resonatorsKonstantin Ott, Sébastien Garcia, Francesco Ferri, •Torben Pöpplau, Ralf Kohlhaas, Klemens Schüppert, Romain Long, and Jakob Reichel
16:30 Q 58.21 3D motional ground state cooling and collective scattering of two atoms inside a high-finesse cavity — •Natalie Thau, Wolfgang Alt, Tobias Macha, Lothar Ratschbacher, René Reimann, Seokchan Yoon, and Dieter Meschede
16:30 Q 58.22 Fabrication and characterization of Fabry-Pérot microcavities — •Felix Glöckler, Andrea Kurz, Andreas Dietrich, Fedor Jelezko, and Alexander Kubanek
16:30 Q 58.23 Many-Body Dynamics Through Measurement and Feedback — •Jonas Lammers, Hendrik Weimer, and Klemens Hammerer
16:30 Q 58.24 Ion-ion entanglement with large numerical aperture optics — •Daniel Higginbottom, Gabriel Araneda, Lukáš Slodička, Lukas Lachman, Radim Filip, Yves Colombe, and Rainer Blatt
16:30 Q 58.25 Entanglement of Polarization and Orbital Angular Momentum — •Daniel Bhatti, Joachim von Zanthier, and Girish S. Agarwal
16:30 Q 58.26 Entanglement of an open quantum system with its environment — •Nina Megier, Ansgar Pernice, Franziska Peter, and Walter T. Strunz
16:30 Q 58.27 exact entanglement dynamics under the influence of a common structured environment using HOPS — •Richard Hartmann and Walter T. Strunz
16:30 Q 58.28 Collisional decoherence of polar molecules — •Kai Walter, Benjamin A. Stickler, and Klaus Hornberger
16:30 Q 58.29 Towards a Lorentz-invariant quantum master equation — •Marduk Bolanos and Klaus Hornberger
  16:30 Q 58.30 The contribution has been withdrawn.
16:30 Q 58.31 Detecting the Berry curvature in photonic graphene — •Holger Fehske and Rafael L. Heinisch
16:30 Q 58.32 Symmetry transtion in a periodic parity-time-symmetric potential induced in an atomic sytem — •Lida Zhang and Jörg Evers
16:30 Q 58.33 Lasing Without Inversion in Quecksilber bei 253,7 nmBenjamin Rein, •Jochen Schmitt und Thomas Walther
16:30 Q 58.34 Ein Titan:Saphir Lasersystem zur Erzeugung von ns-Pulsen bei 420 nm und 1995 nm — •Tobias Eggert, Vincenzo Talluto, Thomas Walther, Lukas Mader und Thomas Blochowicz
16:30 Q 58.35 Photon statistics of quantum-dot superluminescent diodes — •Franziska Friedrich and Reinhold Walser
16:30 Q 58.36 Potassium Spectroscopy on a Sounding Rocket — •Kai Lampmann, Ortwin Hellmig, Markus Krutzik, Achim Peters, André Wenzlawski, Patrick Windpassinger, and The KALEXUS Team
16:30 Q 58.37 Laser system technology for rubidium atom interferometry aboard sounding rockets — •Vladimir Schkolnik, Markus Krutzik, Achim Peters, The MAIUS Team, and The FOKUS Team
16:30 Q 58.38 Automated experiment control and laser frequency stabilization of the KALEXUS experiment on a sounding rocket. — •Aline Dinkelaker, Andrew Kenyon, Max Schiemangk, Vladimir Schkolnik, Markus Krutzik, Achim Peters, and The KALEXUS Team
16:30 Q 58.39 Noncollinear optical parametric oscillators for Raman Spectroscopy — •Luise Beichert, Yuliya Khanukaeva, and Uwe Morgner
16:30 Q 58.40 Two-color spectroscopy for laser stabilization to the ytterbium 1S0-3P1 intercombination line — •Christian Halter, Bastian Pollkeneser, Kapilan Paramasivam, Bastian Schepers, Tobias Franzen, Gregor Mura, and Axel Görlitz
16:30 Q 58.41 Electromagnetic wave propagation in time-dependent Hermitian and non-Hermitian structures — •Armen Hayrapetyan, Jörg Götte, Sandra Klevansky, Stephan Fritzsche, Karen Grigoryan, and Rubik Petrosyan
16:30 Q 58.42 Rydberg excitons in artificially grown cuprous oxide — •Moritz Fischer, Tobias Steinle, and Harald Giessen
16:30 Q 58.43 Edge diffraction of optical-vortex beams formed by means of a "fork" hologramAleksey Chernykh, Aleksandr Bekshaev, and •Anna Khoroshun
16:30 Q 58.44 Determination of the relative emitter phases in an external-cavity diode laser array — •Mario Niebuhr and Axel Heuer
16:30 Q 58.45 Quantum-inspired sensing of trapped particle kinematics — •Stefan Berg-Johansen, Martin Neugebauer, Peter Banzer, Andrea Aiello, Christoph Marquardt, and Gerd Leuchs
16:30 Q 58.46 Diode laser pumped molecular lasers — •Bernd Wellegehausen and Walter Luhs
16:30 Q 58.47 Zerodur-based optical systems for precision measurements in space — •André Wenzlawski, Moritz Mihm, Kai Lampmann, Ortwin Hellmig, Klaus Sengstock, Patrick Windpassinger, and the MAIUS Team
16:30 Q 58.48 Temperature and frequency stabilisation in a cryogenic confocal microscope for single-site experiments — •Jan M. Binder, Lachlan J. Rogers, and Fedor Jelezko
16:30 Q 58.49 Field test of a Brillouin-LIDAR for temperature profiles of the ocean — •Sonja Friman, David Rupp, Andreas Rudolf, Charles Trees, and Thomas Walther
16:30 Q 58.50 Femtosecond pulse shaping of Laguerre-Gaussian laser pulses — •Tom Bolze and Patrick Nuernberger
16:30 Q 58.51 Design and implementation of a Kerr lens mode-locked air operated high-power thin disk oscillator — •José Ricardo Andrade, Bernhard Kreipe, and Uwe Morgner
16:30 Q 58.52 Generation of sub 10 fs UV pulses with MHz repetition rate — •Sven Kleinert, Ayhan Tajalli, Bernhard Kreipe, Yuliya Khanukaeva, Tamas Nagy, and Uwe Morgner
16:30 Q 58.53 Sub two-cycle optical pulse compression from Ti:sapphire oscillators — •Philip Dienstbier, Takuya Higuchi, John Travers, Francesco Tani, Michael Frosz, Philip St. J. Russell, and Peter Hommelhoff
16:30 Q 58.54 Nanostructured laser-driven dielectric structures for electron focusing — •Alexander Tafel, Joshua McNeur, Martin Kozák, Ang Li, Norbert Schönenberger, and Peter Hommelhoff
16:30 Q 58.55 Nanoscale vacuum-tube electronic devices triggered by few-cycle laser pulses — •Constanze Sturm, Takuya Higuchi, Peyman Yousefi, Christian Heide, Kristof Kremer, and Peter Hommelhoff
16:30 Q 58.56 A scanning tunneling microscope joined with few-cycle laser pulses — •Michal Hamkalo, Takuya Higuchi, M. Alexander Schneider, and Peter Hommelhoff
16:30 Q 58.57 Attosecond gating and streaking of free electrons via interaction with laser-induced optical fields — •Norbert Schönenberger, Martin Kozak, Joshua McNeur, and Peter Hommelhoff
16:30 Q 58.58 A Miniaturized Electron Source Based on Dielectric Laser Accelerator Operation at Higher Spatial Harmonics and a Nanotip Photoemitter — •Ang Li, Joshua McNeur, Martin Kozak, Dominik Ehberger, and Peter Hommelhoff
16:30 Q 58.59 Nano-structured chips for dielectric laser accelerators and laser triggered electron emission — •Peyman Yousefi, Joshua McNeur, Martin Kozak, and Peter Hommelhoff
16:30 Q 58.60 Experimental study of photoelectronic angular distributions using velocity map imaging: Intensity and CEP effects — •Eike Lübking, Thomas Gaumnitz, Christoph Vorndamme, Tamas Nagy, Torsten Hartmann, Uwe Morgner, Thorsten Uphues, and Milutin Kovacev
16:30 Q 58.61 Selective etching of fs-laser structured crystalline YAG — •Kore Hasse, Christian Kränkel, and Thomas Calmano
16:30 Q 58.62 Few-cycle pulse conversion by soliton implosion — •Jan-Hendrik Oelmann, Ihar Babushkin, Ayhan Tajalli, Hakan Sayinc, Uwe Morgner, Günter Steinmeyer, and Ayhan Demircan
16:30 Q 58.63 Exploiting optical event horizon concept in microstructured optical fibers to manipulate higher older soliton trajectories — •Ayhan Tajalli, Alexander Pape, Ihar Babushkin, Günter Steinmeyer, Uwe Morgner, and Ayhan Demircan
16:30 Q 58.64 Floquet-engineering topological and spin-dependent bands with ultracold fermions — •Gregor Jotzu, Michael Messer, Frederik Görg, Daniel Greif, Remi Desbuquois, Martin Lebrat, Thomas Uehlinger, and Tilman Esslinger
16:30 Q 58.65 Connecting strongly correlated superfluids by a quantum point contact — •Martin Lebrat, Samuel Häusler, Dominik Husmann, Sebastian Krinner, Jean-Philippe Brantut, Shun Uchino, Thierry Giamarchi, and Tilman Esslinger
16:30 Q 58.66 Anti-ferromagnetic correlations with ultracold fermions on optical latticesDaniel Greif, Gregor Jotzu, Michael Messer, Frederik Görg, •Rémi Desbuquois, and Tilman Esslinger
16:30 Q 58.67 Realization of the ionic Hubbard model with ultracold fermions on optical latticesMichael Messer, •Rémi Desbuquois, Thomas Uehlinger, Gregor Jotzu, Frederik Görg, Sebastian Huber, Daniel Greif, and Tilman Esslinger
16:30 Q 58.68 The quasi-particle residue in the crossover from few to many particles — •Michael Dehabe, Andrea Bergschneider, Simon Murmann, Vincent M. Klinkhamer, Jan-Hendrik Becher, Gerhard Zürn, and Selim Jochim
16:30 Q 58.69 Deterministic Preparation of Few-Fermion Systems in Actively Stabilized Potential Wells — •Vincent M. Klinkhamer, Jan-Hendrik Becher, Andrea Bergschneider, Michael Dehabe, Simon Murmann, Gerhard Zürn, and Selim Jochim
16:30 Q 58.70 Spin Resolved Imaging of an Ultracold Fermi Gas in a 2D Optical Lattice — •Ralf Klemt, Luca Bayha, Puneet Murthy, Mathias Neidig, Martin Ries, Gerhard Zürn, and Selim Jochim
16:30 Q 58.71 Strongly interacting ultracold quantum gases of fermionic Ytterbium-173 — •Luis Riegger, Diogo Rio Fernandes, Moritz Höfer, Christian Hofrichter, Francesco Scazza, Immanuel Bloch, and Simon Fölling
16:30 Q 58.72 Probing Many-Body Localizition With a Gas of Ultracold Fermions in Optical Lattices — •Pranjal Bordia, Henrik Lüschen, Sean Hodgman, Michael Schreiber, Immanuel Bloch, and Ulrich Schneider
16:30 Q 58.73 Microscopic Observations in Degenerate Fermionic Lattice Gases — •MARTIN BOLL, TIMON HILKER, AHMED OMRAN, KATHARINA KLEINLEIN, GUILLAUME SALOMON, IMMANUEL BLOCH, and CHRISTIAN GROSS
  16:30 Q 58.74 The contribution has been withdrawn.
16:30 Q 58.75 Confinement-induced effects on the Higgs mode of an ultracold Fermi gas after a quench — •Simon Hannibal, Peter Kettmann, Mihail Croitoru, Vollrath Martin Axt, and Tilmann Kuhn
16:30 Q 58.76 Towards a 2D gas of Fermions in an optical lattice — •Thomas Paintner, Daniel Hoffmann, Stefan Häussler, Stephan Maier, Wladimir Schoch, Wolfgang Limmer, and Johannes Hecker Denschlag
16:30 Q 58.77 Towards single site single atom imaging of 6Li atoms in an optical honeycomb potentialStephan Maier, •Stefan Häußler, Thomas Paintner, Daniel Hoffmann, Wladimir Schoch, Wolfgang Limmer, and Johannes Hecker Denschlag
16:30 Q 58.78 Setup of a new lithium quantum gas microscope — •Michael Hagemann, Andreas Kerkmann, Yann Kiefer, Niels Rohweder, Benno Rem, Christof Weitenberg, and Klaus Sengstock
16:30 Q 58.79 Probing Open Quantum Systems Using Ultracold Yb in Optical Lattices — •André Kochanke, Bastian Hundt, Thomas Ponath, Benjamin Abeln, Anna Skottke, Lukas Heinze, Klaus Sengstock, and Christoph Becker
16:30 Q 58.80 Using Raman sideband cooling to build Fermi-Hubbard systems atom by atom — •Phillip Wieburg, Christian Darsow-Fromm, Lennart Sobirey, Thomas Lompe, and Henning Moritz
16:30 Q 58.81 Modulation spectroscopy of ultracold fermions in optical superlattices — •Karla Loida, Jean-Sébastien Bernier, and Corinna Kollath
16:30 Q 58.82 A Laser System for Cooling of Yb Atoms — •Benjamin Nagler, Tobias Eul, Carsten Lippe, Benjamin Gänger, Jan Phieler, Thomas Pinnel, Christina Weirich, and Artur Widera
16:30 Q 58.83 Fermionic many-body states under the microscope — •Daniel Greif, Maxwell F. Parsons, Anton Mazurenko, Christie S. Chiu, Sebastian Blatt, Florian Huber, Geoffrey Ji, and Markus Greiner
16:30 Q 58.84 Cloud Shape of Dipolar Fermi Gases — •Vladimir Veljić, Antun Balaž, Aristeu R. P. Lima, and Axel Pelster
16:30 Q 58.85 Development of a digital phase lock for optical lattices — •Dominik Vogel, Nick Fläschner, Matthias Tarnowski, Benno Rem, Christof Weitenberg, and Klaus Sengstock
16:30 Q 58.86 Towards quantum gas microscopy of ultracold potassium atoms — •Tobias Wintermantel, Emil Pavlov, Alda Arias, Stephan Helmrich, and Shannon Whitlock
16:30 Q 58.87 Density dependent synthetic magnetism — •Sebastian Greschner, Daniel Huerga, Gaoyong Sun, Dario Poletti, and Luis Santos
16:30 Q 58.88 Heteronuclear Spin-Changing-Collisions in Li-Na mixtures — •Arno Trautmann, Fabián Olivares, Marcell Gall, Fred Jendrzejewski, and Markus K. Oberthaler
  16:30 Q 58.89 The contribution has been withdrawn.
16:30 Q 58.90 Towards quantum many-body physics with Sr in optical lattices — •Rodrigo G. Escudero, Nejc Janša, André Heinz, Annie Jihyun Park, Stepan Snigirev, Jean Dalibard, Immanuel Bloch, and Sebastian Blatt
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