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Q: Fachverband Quantenoptik und Photonik

Q 59: Poster IV

Thursday, March 9, 2023, 16:30–19:00, Empore Lichthof

16:30 Q 59.1 State-dependent force spectroscopy for trapped ions — •Stefan Walser, Zhenlin Wu, René Nardi, Guanqun Mu, Brandon Furey, and Philipp Schindler
16:30 Q 59.2 Decoherence of Rigid Rotors due to Emission of Thermal Radiation — •Jonas Schäfer, Benjamin A. Stickler, and Klaus Hornberger
16:30 Q 59.3 Dynamics of superconducting microscale rotors — •Fynn Köller, Klaus Hornberger, and Benjamin A. Stickler
16:30 Q 59.4 Quantum interference of electrically trapped particles — •Eric van den Bosch, Lukas Martinetz, Klaus Hornberger, and Benjamin A. Stickler
16:30 Q 59.5 Navigation via a Gimbal-Stabilized Quantum Accelerometer — •Mouine Abidi, Philipp Barbey, Yueyang Zou, Ann Sabu, Dennis Schlippert, Christian Schubert, Ernst. M Rasel, and Sven Abend
16:30 Q 59.6 T4-Atom Interferometer Sensitive to Angular Acceleration — •Bernd Konrad and Maxim Efremov
  16:30 Q 59.7 The contribution has been withdrawn (duplicate of Q 59.10).
16:30 Q 59.8 Dark Energy search using atom interferometry in microgravity — •Sukhjovan S Gill, Magdalena Misslisch, Baptist Piest, Ioannis Papadakis, Vladimir Schkolnik, Sheng-wey Chiow, Nan Yu, and Ernst M Rasel
16:30 Q 59.9 Experimental platform for multi-axis inertial quantum sensing — •Matthias Gersemann, Sven Abend, Mouine Abidi, Philipp Barbey, Mikhail Cheredinov, Ashwin Rajagopalan, Ann Sabu, Yueyang Zou, Christian Schubert, Ekim T. Hanimeli, Sven Herrmann, Simon Kanthak, Ernst M. Rasel, and the QUANTUS team
16:30 Q 59.10 The Very Long Baseline Atom Interferometry facility for high precision gravity measurement — •Ali Lezeik, Mario Montero, Constantin Stojkovic, Klaus H. Zipfel, Dorothee Tell, Vishu Gupta, Henning Albers, Sebastian Bode, Jonas Klussmeyer, Ernst M. Rasel, Christian Schubert, and Dennis Schlippert
16:30 Q 59.11 Absolute light-shift compensated laser system for a twin-lattice atom interferometry — •Mikhail Cheredinov, Matthias Gersemann, Ekim T. Hanimeli, Simon Kanthak, Sven Abend, Ernst M. Rasel, and the QUANTUS team
16:30 Q 59.12 Multi-axis quantum gyroscope with multi-loop atomic Sagnac interferometry — •Ann Sabu, Yueyang Zou, Mouine Abidi, Philipp Barbey, Ashwin Rajagopalan, Christian Schubert, Matthias Gersemann, Dennis Schlippert, Ernst Rasel, and Sven Abend
16:30 Q 59.13 A state-of-the-art suppression of seismic noise. The Seismic attenuation for Very Long Baseline Atom Interferometry — •Jonas Klußmeyer, Sebastian Bode, Klaus Zipfel, Christian Schubert, Ernst M. Rasel, and Dennis Schlippert
16:30 Q 59.14 Moving towards high precision classical sensor hybridization with atom interferometers — •Ashwin Rajagopalan, Ernst Rasel, Sven Abend, and Dennis Schlippert
16:30 Q 59.15 Large-momentum-transfer atom interferometers with µrad-accuracy using Bragg diffraction — •Jan-Niclas Siemß, Florian Fitzek, Christian Schubert, Ernst M. Rasel, Naceur Gaaloul, and Klemens Hammerer
16:30 Q 59.16 Noise Description in Bragg Atom Interferometer Using Squeezed States — •Julian Günther, Naceur Gaaloul, and Klemens Hammerer
16:30 Q 59.17 Raman and Bragg diffractions in a combined system — •Ekim T. Hanimeli, Simon Kanthak, Matthias Gersemann, Mikhail Cheredinov, Sven Herrmann, Claus Lämmerzahl, Sven Abend, Ernst M. Rasel, and the QUANTUS team
16:30 Q 59.18 Momentum entanglement for atom interferometry — •Christophe Cassens, Fabian Anders, Alexander Idel, Polina Feldman, Dmitry Bondarenko, Sina Loriani, Karsten Lange, Jan Peise, Mathias Gersemann, Bernd Meyer-Hoppe, Sven Abend, Naceur Gaaloul, Christian Schubert, Dennis Schlippert, Luis Santos, Ernst Rasel, and Carsten Klempt
16:30 Q 59.19 BECCAL - The Bose-Einstein Condensate and Cold Atom Laboratory — •Christian Deppner, Holger Ahlers, Patrick Brunßen, Marcel Eichelmann, Kai Frye-Arndt, Caroline Lösch, Arne Wacker, Meike List, Ernst M. Rasel, Waldemar Herr, Christian Schubert, and The BECCAL Team
16:30 Q 59.20 Utilizing Bose-Einstein condensates for atom interferometry in the transportable Quantum Gravimeter QG-1 — •Pablo Nuñez von Voigt, Nina Heine, Waldemar Herr, Christian Schubert, Ludger Timmen, Jürgen Müller, and Ernst M. Rasel
16:30 Q 59.21 A compact setup for optically guided BEC interferometry at a single wavelength — •Simon Kanthak, Ekim Hanimeli, Matthias Gersemann, Mikhail Cheredinov, Sven Abend, Ernst M. Rasel, Markus Krutzik, and the QUANTUS team
16:30 Q 59.22 Designing high precision electronics for atom interferometers in space applications — •Alexandros Papakonstantinou, Isabell Imwalle, Christian Reichelt, Matthias Koch, Thijs Wendrich, and Ernst M. Rasel
16:30 Q 59.23 Atom interferometry in microgravity on long time scalesDorthe Leopoldt, •Anurag Bhadane, Merle Cornelius, Laura Pätzold, Julia Pahl, Ernst Rasel, and Quantus Team
16:30 Q 59.24 Matter-Wave optics with time-averaged potentials and tunable interactions — •Henning Albers, Alexander Herbst, Wei Liu, Dorothee Tell, Ernst M. Rasel, Dennis Schlippert, and The PRIMUS-Team
16:30 Q 59.25 Effective theory for Bloch-oscillation-based LMT atom interferometry — •Florian Fitzek, Jan-Niclas Siemß, Naceur Gaaloul, and Klemens Hammerer
16:30 Q 59.26 Quantum-clock interferometry — •Mario Montero, Ali Lezeik, Klaus Zipfel, Ernst M. Rasel, Christian Schubert, and Dennis Schlippert
16:30 Q 59.27 Principal Component Analysis for Image processing in Atom Interferometry — •Stefan Seckmeyer, Holger Ahlers, Sven Abend, Ernst M. Rasel, and Naceur Gaaloul
16:30 Q 59.28 Towards a three axes quantum hybrid inertial sensor for mobile applications — •David Latorre Bastidas, Dennis Knoop, André Wenzlawski, Jens Grosse, Sven Herrmann, and Patrick Windpassinger
16:30 Q 59.29 Simulating space-borne atom interferometers for Earth Observation and tests of General Relativity — •Christian Struckmann, Ernst M. Rasel, Peter Wolf, and Naceur Gaaloul
16:30 Q 59.30 The Hannover Torsion Balance - a test platform for novel inertial sensing concepts — •Carolin Cordes, Christoph Gentemann, Gerald Bergmann, Moritz Mehmet, Gerhard Heinzel, and Karsten Danzmann
16:30 Q 59.31 GRACE Follow-On and the Laser Ranging Interferometer: Measuring Earth Gravity from Space — •Malte Misfeldt, Vitali Müller, and Gerhard Heinel
16:30 Q 59.32 high sensitivity magnetometry with NV centers in diamond at zero field — •Muhib Omar, Arne Wickenbrock, Dmitry Budker, Georgios Chatzidrosos, Till Lenz, Omkar Dungel, and Joseph Rebeirro
16:30 Q 59.33 Compact Optical Test Mass Sensing — •Victor Huarcaya
16:30 Q 59.34 Scaling a robust Lorentz Symmetry test to multiple Yb+ ions — •Kai C. Grensemann, Chih-Han Yeh, Laura S. Dreissen, and Tanja E. Mehlstäubler
16:30 Q 59.35 Progress on PTB’s transportable Al+ ion clock — •Constantin Nauk, Benjamin Kraus, Joost Hinrichs, Simone Callegari, Stephan Hannig, and Piet O. Schmidt
16:30 Q 59.36 Compact rack-integrated UV laser system for a transportable Al+ quantum logic optical clock — •Joost Hinrichs, Stephan Hannig, Benjamin Kraus, Constantin Nauk, and Piet O. Schmidt
16:30 Q 59.37 Variational Clock Protocols — •Timm Kielinski
16:30 Q 59.38 A compact strontium optical clock based on Ramsey-Bordé spectroscopy — •Oliver Fartmann, Ingmari C. Tietje, Amir Mahdian, Marc Christ, Conrad L. Zimmermann, Martin Jutisz, Vladimir Schkolnik, and Markus Krutzik
16:30 Q 59.39 Development of Two Laboratory Two-Photon Frequency References — •Moritz Eisebitt, Julien Kluge, Daniel Emanuel Kohl, Klaus Döringshoff, and Markus Krutzik
16:30 Q 59.40 Recent Progress of a miniaturized all diode laser based strontium lattice clock — •Max Schlösinger, Henri Zimmermann, Christoph Pyrlik, Vladimir Schkolnik, Ronald Holzwarth, Robert Jördens, Enrico Vogt, Andreas Wicht, and Markus Krutzik
16:30 Q 59.41 A multi-ion indium clock — •Ingrid M. Dippel, Moritz von Boehn, H. Nimrod Hausser, Jonas Keller, Jan Kiethe, Tabea Nordmann, and Tanja E. Mehlstäubler
16:30 Q 59.42 Development of a Miniaturized Two-photon Frequency Reference Towards Application on a Small Satellite Mission — •Daniel Emanuel Kohl, Julien Kluge, Moritz Eisebitt, Klaus Döringshoff, Sten Wenzel, Andrea Knigge, Andreas Wicht, and Markus Krutzik
16:30 Q 59.43 A strontium lattice clock with 3 × 10−18 uncertainty — •Kilian Stahl, Joshua Klose, Roman Schwarz, Ingo Nosske, Uwe Sterr, Sören Dörscher, and Christian Lisdat
16:30 Q 59.44 Towards a continuous wave superradiant Calcium Laser — •David Nak and Andreas Hemmerich
16:30 Q 59.45 Improving frequency superresolution with a resonant quantum pulse gate — •Dana Echeverría-Oviedo, Michael Stefszky, Jano Gil-López, Benjamin Brecht, and Christine Silberhorn
16:30 Q 59.46 The role of frequency stability in measurements of the coefficient of thermal expansion — •Nina Meyer, Tobias Ohlendorf, Uwe Sterr, and Thomas Legero
16:30 Q 59.47 En Route to hour long spin manipulation established via constantly driven Rabi nutation measurements — •Tianhao Liu, Jens Voigt, Silvia Knappe-Grüneberg, and Wolfgang Kilian
16:30 Q 59.48 Testing novel high-reflectivity mirror coatings from room temperature to 4 K — •Mona Kempkes, Jialiang Yu, Sofia Herbers, Thomas Legero, Uwe Sterr, and Daniele Nicolodi
16:30 Q 59.49 Vacuum-integration of a double-tip fiber microscope — •Florian Giefer, Lukas Tenbrake, Sebastian Hofferberth, and Hannes Pfeifer
16:30 Q 59.50 Programmable trap array of optically levitated nanoparticles — •Livia Egyed, Manuel Reisenbauer, Iurie Coroli, Murad Abuzarli, Uroš Delić, and Markus Aspelmeyer
16:30 Q 59.51 Optimal Control of Quantum Squeezed States — •Anton Halaski, Matthias G. Krauß, Daniel Basilewitsch, and Christiane P. Koch
16:30 Q 59.52 Quantum state tomography of a nanomechanical resonator in a pulsed measurement protocol — •Felix Klein, Jakob Butlewski, Alexander Schwarz, Klaus Sengstock, Roland Wiesendanger, and Christoph Becker
16:30 Q 59.53 Levitated nanoparticles in microgravity — •Govindarajan Prakash, Vincent Hock, Marian Woltmann, Sven Hermann, Claus Lämmerzahl, and Christian Vogt
16:30 Q 59.54 Nonlinear Oscillator with a Single Trapped Ion — •Moritz Göb, Bo Deng, Max Masuhr, Kilian Singer, and Daqing Wang
16:30 Q 59.55 Ultrastrong coupling in levitated optomechanics — •Iurie Coroli, Kahan Dare, Jannek Hansen, Aisling Johnson, Markus Aspelmeyer, and Uros Delic
16:30 Q 59.56 Studying exceptional points in an optical fiber — •Quentin Levoy, Flore K. Kunst, and Birgit Stiller
16:30 Q 59.57 A nanofabricated solid immersion lens for bright and high-purity single-photon emission from a germanium-vacancy center in diamond — •Justus Christinck, Franziska Hirt, Helmuth Hofer, Markus Etzkorn, Zhe Liu, Toni Dunatov, Milko Jakšić, Jacopo Forneris, and Stefan Kück
16:30 Q 59.58 Mechanically Isolated Quantum Emitters in Hexagonal Boron Nitride — •Andreas Tangemann, Patrick Maier, Michael Hoese, Prithvi Reddy, Andreas Dietrich, Michael K. Koch, Konstantin G. Fehler, Marcus W. Doherty, and Alexander Kubanek
16:30 Q 59.59 Insights into the photophysics of the SnV center in diamond — •Philipp Fuchs, Johannes Görlitz, Michael Kieschnick, Jan Meijer, and Christoph Becher
16:30 Q 59.60 Optical investigations of evaporated dibenzoterrylene layers in a C60-fullerene matrix — •Franziska Hirt, Justus Christinck, Helmuth Hofer, Gunilla Harm, Andreas Reutter, Mike Stummvoll, Neda Noei, Uta Schlickum, and Stefan Kück
16:30 Q 59.61 Optimizing silicon vacancies in silicon carbide through nanophotonic integration — •Di Liu, Öney Soykal, Jawad Ul-Hassan, Florian Kaiser, Petr Siyushev, and Jörg Wrachtrup
16:30 Q 59.62 3D Printed Optical Waveguide Structures with Microdiamonds containing NV Centers — •Marina Peters, Adrian Abazi, Daniel Wendland, Tim Buskasper, Lara Lindloge, Markus Gregor, and Carsten Schuck
16:30 Q 59.63 Integration and coupling of quantum emitters in 2D materials to laserwritten waveguides — •Josefine Krause, Simone Piacentini, Mostafa Abasifard, Roberto Osellame, Giacomo Corrielli, and Tobias Vogl
16:30 Q 59.64 Green's function calculations for two-dimensional arrays of molecular emitters — •Davide Torriglia, Daniel M. Reich, and Christiane P. Koch
16:30 Q 59.65 Influence of nonlocal and dispersive material response on fields of metallic plasmons — •Gino Wegner, Dan-Nha Huynh, Bill Antonio Bernhardt, Francesco Intravaia, and Kurt Busch
16:30 Q 59.66 Design of metasurface for carbon dioxide reduction photocatalysis — •Ning Lyu, Zelio Fusco, Fiona Beck, and Christin David
16:30 Q 59.67 An Automated Setup for Single-Photon Fluorescence Microscopy Measurements — •Raphael V. Wichary, Matthias Nuß, and Tobias Brixner
16:30 Q 59.68 Quantum coherent interactions between electron vortices and chiral optical near-fields — •Neli Streshkova and Martin Kozák
16:30 Q 59.69 Scattering of free electrons by optical fields and all-optical method for electron pulse characterization — •Kamila Moriová and Martin Kozák
16:30 Q 59.70 Rapid Dilution Mass Photometry — •Carla M. Brunner, Emanuel Pfitzner, and Philipp Kukura
16:30 Q 59.71 The squeeze laser — •Axel Schönbeck, Jan Südbeck, Jascha Zander, Dieter Berz-Vöge, Pascal Gewecke, Malte Hagemann und Roman Schnabel
16:30 Q 59.72 Simulations with IfoCAD for tilt-to-length coupling characterization in LISA — •Rodrigo García Álvarez, Megha Dave, Gerhard Heinzel, and Gudrun Wanner
16:30 Q 59.73 Characterization of laser noise with an optical fiber interferometer composed of a 3x3 fiber coupler — •Robin Klöpfer, Francesca Celine Catalan, Ralf Albrecht, Annika Belz, Harald Kübler, Robert Löw, Gareth Lees, and Tilman Pfau
16:30 Q 59.74 Bright Squeezed Light Generation and Quantum Correlation Measurements — •Jasper Venneberg, Henning Vahlbruch, and Benno Willke
16:30 Q 59.75 Development and characterization of a 2D THz-imaging system based on a 3D printed telecentric f-theta-lens — •Viola-Antonella Zeilberger, Konstantin Wenzel, Sarah Klein, Martin Traub, Robert B. Kohlhaas, and Lars Liebermeister
16:30 Q 59.76 Laser Power Stabilization via Radiation Pressure — •Graziano Pascale, Marina Trad Nery, and Benno Willke
16:30 Q 59.77 Influence of Temperature and Salinity on the Spectral Characteristics of Brillouin-Scattering in Water — •Daniel Koestel and Thomas Walther
16:30 Q 59.78 Novel tunable cw UV laser system for laser cooling of bunched relativistic ion beams — •Jens Gumm, Jonas Moos, and Thomas Walther
16:30 Q 59.79 A pre-stabilized 1550 nm laser source for the ETpathfinder — •Nicole Knust, Fabian Meylahn, and Benno Willke
  16:30 Q 59.80 The contribution has been withdrawn.
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