 |
16:30 |
Q 39.1 |
A Distribution Board for an Ultra-stable Transportable Clock Laser — •Eileen Annika Klocke, Sofia Herbers, Lenard Pelzer, Uwe Sterr, Piet Oliver Schmidt, and Chrstian Lisdat
|
|
|
|
16:30 |
Q 39.2 |
Investigation of zinc as a candidate for optical clocks — •David Röser, Maya Büki, and Simon Stellmer
|
|
|
|
16:30 |
Q 39.3 |
Steady-state superradiance for active optical clocks — •Francesca Fama, Sheng Zhou, Shayne Bennetts, Chun-Chia Chen, Rodrigo Gonzalez-Escudero, Benjamin Pasquiou, Florian Schreck, and the iqClock consortium
|
|
|
|
16:30 |
Q 39.4 |
Highly stable, compact components for a transportable Al+/Ca+ quantum logic optical clock — •Benjamin Kraus, Stephan Hannig, Moritz Mihm, Ortwin Hellmig, Patrick Windpassinger, and Piet O. Schmidt
|
|
|
|
16:30 |
Q 39.5 |
Spin squeezing can only improve clocks with small atom number — •Marius Schulte, Christian Lisdat, Piet O. Schmidt, Uwe Sterr, and Klemens Hammerer
|
|
|
|
16:30 |
Q 39.6 |
Resonance fluorescence of trapped Be9+ ions — •Aleksei Konovalov and Giovanna Morigi
|
|
|
|
16:30 |
Q 39.7 |
Progress towards an indium multi-ion clock — •Hartmut Nimrod Hausser, Tabea Nordmann, Jan Kiethe, Leon Schomburg, and Tanja E. Mehlstäubler
|
|
|
|
16:30 |
Q 39.8 |
Laser light shaping and control for precision spectroscopy with ions — •Robin L. Stampa, André P. Kulosa, Chih-Han Yeh, Dimitri Kalincev, Henning A. Fürst, Laura S. Dreissen, and Tanja E. Mehlstäubler
|
|
|
|
16:30 |
Q 39.9 |
An ultra-stable resonator with a fundamental instability of 3× 10−17 — •Steffen Sauer, Sebastian Häfner, Dominika Fim, Nandan Jha, Waldemar Friesen-Piepenbrink, Klaus Zipfel, Thomas Legero, Wolfgang Ertmer, Uwe Sterr, and Ernst Rasel
|
|
|
|
16:30 |
Q 39.10 |
Segmented linear multi-ion traps for a next generation of transportable high-precision optical clocks — •Florian Köppen, Hendrik Siebeneich, Pedram Yaghoubi, Michael Johanning, Alexandre Didier, Malte Brinkmann, Stefan Brakhane, Tanja Mehlstäubler, Dieter Meschede, and Christof Wunderlich
|
|
|
|
16:30 |
Q 39.11 |
Accelerating magnetic field sensing using optimized pulses on NV centers — •Jan Thieme, Ricky-Joe Plate, Josselin Bernardoff, Daniel Basilewitsch, Christiane Koch, and Kilian Singer
|
|
|
|
16:30 |
Q 39.12 |
Perspectives for fundamental experiments with nanostructured optical cavities: From thermal quanta to general relativity — •Johannes Dickmann, Steffen Sauer, Sebastian Ulbricht, Robert Alexander Müller, Jan Meyer, Tim Käseberg, Mariia Matiushechkina, Andrey Surzhykov, Ernst Maria Rasel, Michèle Heurs, and Stefanie Kroker
|
|
|
|
16:30 |
Q 39.13 |
Laser system and imaging optics for producing, cooling and detecting a 9Be+ ion in a cylindrical Penning trap — •Frederik Jacobs, Teresa Meiners, Johannes Mielke, Matthias Borchert, Julian Pick, Juan M. Cornejo, Malte Niemann, Stefan Ulmer, and Christian Ospelkaus
|
|
|
|
16:30 |
Q 39.14 |
High-Q monolithic inertial sensors for seismic control in gravitational wave detectors — Sina Maria Köhlenbeck, •Jonathan Carter, Gerhard Heinzel, and Oliver Gerberding
|
|
|
|
16:30 |
Q 39.15 |
Rydberg quantum optics in an ultracold Rubidium gas — •Hannes Busche, Nina Stiesdal, and Sebastian Hofferberth
|
|
|
|
16:30 |
Q 39.16 |
Rydberg quantum optics in ultracold Ytterbium gases — •José Navarrete, Thilina Senaviratne, Mohammad Noaman, and Sebastian Hofferberth
|
|
|
|
16:30 |
Q 39.17 |
Interacting Polaritions in a Rydberg EIT Medium — •Annika Tebben, André Salzinger, David Grimshandl, Carlos Brandl, Sebastian Geier, Titus Franz, Nithiwadee Thaicharoen, Clément Hainaut, Gerhard Zürn, Thomas Pohl, and Matthias Weidemüller
|
|
|
|
16:30 |
Q 39.18 |
Rydberg excitation of trapped ions for quantum simulation and computation — •Justas Andrijauskas, Jonas Vogel, Arezoo Mokhberi, and Ferdinand Schmidt-Kaler
|
|
|
|
16:30 |
Q 39.19 |
Towards a Photon-Photon Quantum Gate Using Rydberg-Interactions in an Optical Resonator — •Thomas Stolz, Steffen Schmidt-Eberle, Lukas Husel, Stephan Dürr, and Gerhard Rempe
|
|
|
|
16:30 |
Q 39.20 |
Ultrafast Ionization of a BEC: Highly Charged to Neutral Microplasma — •Mario Neundorf, Tobias Kroker, Julian Fiedler, Julia Bergmann, Markus Drescher, Klaus Sengstock, Philipp Wessels, and Juliette Simonet
|
|
|
|
16:30 |
Q 39.21 |
Towards a strontium Rydberg laser for quantum simulation with tweezer arrays — •Thies Plassmann, Shayne Bennetts, Alex Urech, Benjamin Pasquiou, Robert Spreeuw, and Florian Schreck
|
|
|
|
16:30 |
Q 39.22 |
Three-Photon Electromagnetically Induced Transparency with Cold Rydberg Atoms — Yagiz Oyun, Ozgur Cakir, and •Sevilay Sevincli
|
|
|
|
16:30 |
Q 39.23 |
Ghost Polarization Communication — •Markus Rosskopf, Till Mohr, and Wolfgang Elsäßer
|
|
|
|
16:30 |
Q 39.24 |
Towards fabrication and optimization of LNOI nano-waveguides — •Laura Bollmers, Laura Padberg, Sebastian Lengeling, Christof Eigner, and Christine Silberhorn
|
|
|
|
16:30 |
Q 39.25 |
Towards a heralded single-photon plug-and-play source — •Christian Kießler, Harald Herrmann, Hauke Conradi, Moritz Kleinert, Raimund Ricken, Victor Quiring, and Christine Silberhorn
|
|
|
|
16:30 |
Q 39.26 |
Towards low-loss electrooptical modulators in LiNbO3 for quantum-optics applications — •Felix vom Bruch, Raimund Ricken, Christof Eigner, Harald Herrmann, and Christine Silberhorn
|
|
|
|
16:30 |
Q 39.27 |
Post-fabrication correction of LiNbO3 modulators via phase-matching temperature tuning — •Fabian Schlue, Marcello Massaro, Matteo Santandrea, Harald Herrmann, and Christine Silberhorn
|
|
|
|
16:30 |
Q 39.28 |
A low-cost high-finesse scanning cavity for frequency stabilization of a Ba+ laser cooling system — •Kai Lok Lam, Daniel Hönig, Fabian Thielemann, Pascal Weckesser, Leon Karpa, and Tobias Schätz
|
|
|
| |
16:30 |
Q 39.29 |
The contribution has been withdrawn.
|
|
|
|
16:30 |
Q 39.30 |
Bistability in an optomechanically deformable metasurface — •Carol Bibiana Rojas Hurtado, Florian Bruns, Johannes Dickmann, and Stefanie Kroker
|
|
|
|
16:30 |
Q 39.31 |
Semiclassical rotation dynamics of quantum rigid rotors — •Birthe Papendell, Benjamin A. Stickler, and Klaus Hornberger
|
|
|
|
16:30 |
Q 39.32 |
Novel Optomechanical Coupling Mechanisms in nanostructured Metasurfaces — •Florian Feilong Bruns, Carol B. Rojas Hurtado, Thomas Siefke, and Stefanie Kroker
|
|
|
|
16:30 |
Q 39.33 |
Approaching the motional ground state of a cold nanomechanical oscillator in a hybrid atom-optomechanical system — •Jakob Butlewski, Tobias Wagner, Philipp Rohse, Cody Friesen, Felix Klein, Roland Wiesendanger, Klaus Sengstock, Alexander Schwarz, and Christoph Becker
|
|
|
|
16:30 |
Q 39.34 |
Coupling of a cold nanomechanical oscillator to ultracold atoms in a 3D optical lattice — •Felix Klein, Jakob Butlewski, Tobias Wagner, Philipp Rohse, Cody Friesen, Roland Wiesendanger, Klaus Sengstock, Alexander Schwarz, and Christoph Becker
|
|
|
| |
16:30 |
Q 39.35 |
The contribution has been withdrawn.
|
|
|
|
16:30 |
Q 39.36 |
Zerodur based optical benches for microgravity applications — •Jean Pierre Marburger, Moritz Mihm, Sören Boles, André Wenzlawski, Ortwin Hellmig, Klaus Sengstock, Patrick Windpassinger, and the MAIUS and BECCAL team
|
|
|
|
16:30 |
Q 39.37 |
Multi-cell optical memories in warm Cs vapor — •Leon Meßner, Luisa Esguerra Rodriguez, and Janik Wolters
|
|
|
|
16:30 |
Q 39.38 |
Quantum Memories suited for Space — •Luisa Esguerra Rodriguez, Leon Meßner, and Janik Wolters
|
|
|
|
16:30 |
Q 39.39 |
Ensuring the privacy of random numbers generated by quantum processes — •Johannes Seiler, Thomas Strohm, and Wolfgang P. Schleich
|
|
|
|
16:30 |
Q 39.40 |
Efficient single-photon collection for long-distance entanglement of atoms — •Matthias Seubert, Robert Garthoff, Tim van Leent, Kai Redeker, Derya Taray, Wei Zhang, Wenjamin Rosenfeld, and Harald Weinfurter
|
|
|
|
16:30 |
Q 39.41 |
Tight bound on the eavesdropper's information in a multipartite device-independent scenario — •Federico Grasselli, Glaucia Murta, Hermann Kampermann, and Dagmar Bruß
|
|
|
|
16:30 |
Q 39.42 |
Modification of a Continuous Variable Quantum Authentication Protocol with Physical Unclonable Keys — •Yannick Deller, Georgios M. Nikolopoulos, and Gernot Alber
|
|
|
|
16:30 |
Q 39.43 |
Development of a QKD satellite ground station — •Bastian Hacker, Conrad Rößler, Kevin Günthner, Ömer Bayraktar, Jonas Pudelko, Kevin Jaksch, Imran Khan, Gerd Leuchs, and Christoph Marquardt
|
|
|
| |
16:30 |
Q 39.44 |
The contribution has been withdrawn.
|
|
|
|
16:30 |
Q 39.45 |
Photon Generation by Spontaneous Parametric Down Conversion for Quantum Key Distribution — •Julian Nauth, Alexander Sauer, Erik Fitzke, Gernot Alber, and Thomas Walther
|
|
|
|
16:30 |
Q 39.46 |
Towards quantum teleportation in space and frequency using a comb of squeezed vacuum — •Dennis Wilken, Jonas Junker, and Michèle Heurs
|
|
|
|
16:30 |
Q 39.47 |
Microwave antenna design for fiber-based microcavities — •Jonas Grammel, Maximilian Pallmann, and David Hunger
|
|
|
|
16:30 |
Q 39.48 |
Entanglement for non-adaptive measurement-based quantum computation — •Bülent Demirel, Weikai Weng, Christopher Thalacker, Akshey Kumar, Matty Hoban, and Stefanie Barz
|
|
|
|
16:30 |
Q 39.49 |
Building the necessary setup infrastructure for spin-photon entanglement and quantum repeaters with colour centers in silicon carbide. — •Izel Gediz, Naoya Morioka, Matthias Niethammer, Charles Babin, Di Liu, Erik Hesselmeier, Roland Nagy, Durga Dasari, Florian Kaiser, and Jörg Wrachtrup
|
|
|
| |
16:30 |
Q 39.50 |
The contribution has been withdrawn (duplicate of Q 39.51).
|
|
|
|
16:30 |
Q 39.51 |
Certified Randomness from Bell’s Theorem and Dimension Witness — •Xing Chen, Ilja Gerhardt, Jörg Wrachtrup, Robert Garthoff, Kai Redeker, Wenjamin Rosenfeld, and Harald Weinfurter
|
|
|
|
16:30 |
Q 39.52 |
Monte Carlo simulations for determining the volume ratio separable to entangled states in a two-qubit system — •Héctor José Moreno, Jósef Zsolt Bernád, and Gernot Alber
|
|
|
|
16:30 |
Q 39.53 |
Test of a time-bin entanglement-based QKD system in a commercial optical link — •Jakob Kaltwasser, Erik Fitzke, Oleg Nikiforov, Maximilian Tippmann, and Thomas Walther
|
|
|
|
16:30 |
Q 39.54 |
A quantum network node with crossed fiber cavities — •Gianvito Chiarella, Manuel Brekenfeld, Dominik Niemietz, Pau Farrera, Joseph D. Christesen, and Gerhard Rempe
|
|
|
|
16:30 |
Q 39.55 |
Quantum Memories based on Adiabatic Transfer and Beyond — •Tom Schmit, Luigi Giannelli, and Giovanna Morigi
|
|
|
|
16:30 |
Q 39.56 |
A Versatile High-Speed Continuous-Variable Quantum Communication System — Imran Khan, •Stefan Richter, Kevin Jaksch, Kevin Guenthner, Ömer Bayraktar, Emanuel Eichhammer, Bastian Hacker, Birgit Stiller, Gerd Leuchs, and Christoph Marquardt
|
|
|
|
16:30 |
Q 39.57 |
Magnetic interactions in nonequilibrium atom-surface dispersion forces — •Simon Hermann, Kurt Busch, and Francesco Intravaia
|
|
|
|
16:30 |
Q 39.58 |
Probing the Quantum Vacuum with High-Intensity Laser Fields — Ricardo R.Q.P.T. Oude Weernink, •Leonhard Klar, Felix Karbstein, and Holger Gies
|
|
|
|
16:30 |
Q 39.59 |
State transfer from a single photon to a quantum emitter and quantum cloning — •Marvin Gajewski, Thorsten Haase, and Gernot Alber
|
|
|
|
16:30 |
Q 39.60 |
Numerical calculation of Casimir interactions in complex geometries — •Bettina Beverungen, Philip Kristensen, Francesco Intravaia, and Kurt Busch
|
|
|
|
16:30 |
Q 39.61 |
Interplay between collective Lamb shift and hyperfine splitting in resonant x-ray scattering — •Petar Andrejić, Xiangjin Kong, and Adriana Pálffy
|
|
|
