DPG Phi
Verhandlungen
Verhandlungen
DPG

SAMOP 2023 – wissenschaftliches Programm

Bereiche | Tage | Auswahl | Suche | Aktualisierungen | Downloads | Hilfe

Q: Fachverband Quantenoptik und Photonik

Q 8: QI Poster I (joint session QI/Q)

Montag, 6. März 2023, 16:30–19:00, Empore Lichthof

16:30 Q 8.1 Towards multi-photon tests of hyper-complex quantum mechanics — •Ece Ipek Saruhan, Marc-Oliver Pleinert, and Joachim von Zanthier
16:30 Q 8.2 An analysis on the almost quantum correlation set — •Vitor Sena and Rafael Rabelo
16:30 Q 8.3 Reducing Bias in Quantum State Tomography — •Yien Liang and Matthias Kleinmann
16:30 Q 8.4 Witnessing non-Markovianity in quantum Brownian motion by quasi-probability distributions in phase-space — •Irene Ada Picatoste Fernández, Moritz Ferdinand Richter, and Heinz-Peter Breuer
16:30 Q 8.5 Photon-number resolved model for multimode quantum opti- cal setups based on Gaussian states — •Florian Niederschuh, Erik Fitzke, and Thomas Walther
16:30 Q 8.6 Entanglement classification schemes : comparison between Majorana representation and algebraic geometry approaches — •Tom Weelen, Naïm Zénaïdi, Pierre Mathonet, and Thierry Bastin
16:30 Q 8.7 What channels can be implemented without a reference frame? — •Fynn Otto
16:30 Q 8.8 Leveraging noisy physical observables with machine learning. — •Adisorn Panasawatwong, Ulf Saalman, and Jan-Michael Rost
16:30 Q 8.9 Entanglement in free fermion systemsLexin Ding, •Gesa Dünnweber, and Christian Schilling
16:30 Q 8.10 Quantum Key Distribution from Bound Entanglement — •Zeynab Tavakoli and Gláucia Murta
16:30 Q 8.11 Randomness Certification for Multipartite Arbitrary Dimensional SystemsYu Xiang, •Yi Li, and Qiongyi He
16:30 Q 8.12 Markovian master equations beyond the adiabatic and inertial limit — •Josias Langbehn, Roie Dann, Raphael Menu, Giovanna Morigi, Ronnie Kosloff, and Christiane Koch
16:30 Q 8.13 Mimicking non-Markovian dynamics using the stochastic surrogate Hamiltonian — •Jonas Fischer and Christiane Koch
16:30 Q 8.14 Quantum transport in noisy networks of coupled harmonic oscillators — •Emma King, Raphael Menu, and Giovanna Morigi
16:30 Q 8.15 Engineering a heat engine purely driven by quantum coherence — •Stefan Aimet
16:30 Q 8.16 Design of a 4-party active base choice phase-coding quantum key distribution multi-user hub — •Adrian Klute, Maximilian Tippmann, Lucas Bialowons, Erik Fitzke, and Thomas Walther
16:30 Q 8.17 Towards a city-wide quantum key distribution network with a multi-user phase-time coding quantum key hub — •Maximilian Tippmann, Erik Fitzke, Till Dolejsky, Florian Niederschuh, and Thomas Walther
16:30 Q 8.18 System Components for Single-Photon Quantum Key Distribution in the Telecom C-band — •Timm Gao, Mareike Lach, Tobias Heindel, Paweł Holewa, Emilia Zieba-Ostój, Benedek Gaál, Niels Gregersen, Aurimas Sakanas, Meng Xiong, Marcin Syperek, and Elizaveta Semenova
16:30 Q 8.19 Night Sky Background Measurement for Quantum Key Distribution — •Rengaraj Govindaraj, Michael Auer, Adomas Baliuka, Peter Freiwang, Lukas knips, and Harald Weinfurter
16:30 Q 8.20 Designing versatile and performant DM-CV QKD systems for the QuNET initiative — •Stefan Richter, Ömer Bayraktar, Kevin Jaksch, Bastian Hacker, Imran Khan, Emanuel Eichhammer, Emmeran Sollner, Twesh Upadhyaya, Jie Lin, Norbert Lütkenhaus, Florian Kanitschar, Stefan Petscharnig, Thomas Grafenauer, Ömer Bernhard, Christoph Pacher, Gerd Leuchs, and Christoph Marquardt
16:30 Q 8.21 Night Sky Background Measurement for Quantum Key Distribution — •Rengaraj Govindaraj, Michael Auer, Adomas Baliuka, Peter Freiwang, Lukas Knips, and Harald Weinfurter
16:30 Q 8.22 Towards quantum communication over intercity optical fiber link — •Ali Hreibi, Ann-Kathrin Kniggendorf, Harald Schnatz, and Stefan Kück
16:30 Q 8.23 The Ideal Wavelength for Daylight Free-Space Quantum Key Distribution — •Mostafa Abasifard, Chanaprom Cholsuk, Roberto G. Pousa, Anand Kumar, Ashkan Zand, Daniel K. L. Oi, and Tobias Vogl
16:30 Q 8.24 Dynamic Polarization State Preparation for Single-Photon Quantum Cryptography — •Koray Kaymazlar, Timm Gao, Daniel Vajner, Lucas Rickert, and Tobias Heindel
16:30 Q 8.25 Investigation of the phase-space distribution of the BPSK-encoded optical coherent signal from a geostationary satellite — •Hüseyin Vural, Conrad Rössler, Andrew Reeves, Bastian Hacker, Thomas Dirmeier, Karen Saucke, and Christoph Marquardt
16:30 Q 8.26 Single atoms in optical cavities as source for multiphoton graph states — •Leonardo Ruscio, Philip Thomas, Olivier Morin, and Gerhard Rempe
16:30 Q 8.27 Driven Gaussian Quantum Walks — •Philip Held, Melanie Engelkemeier, Syamsundar De, Sonja Barkhofen, Jan Sperling, and Christine Silberhorn
16:30 Q 8.28 Quantum Simulation of Biased Open System Dynamics — •Marcel Cech, Federico Carollo, and Igor Lesanovsky
16:30 Q 8.29 Preparing ground states of the Fermi-Hubbard model with shallow quantum circuits — •Tobias Schmale, Bence Temesi, Hamed Saberi, and Hendrik Weimer
16:30 Q 8.30 Quantum Simulations: Endeavours with trapped ions in a 2D array and a Linear Paul trap — •Apurba Das, Deviprasath Palani, Florian Hasse, Maharshi Pran Bora, Lucas Eisenhart, Tobias Spanke, Ulrich Warring, and Tobias Schaetz
16:30 Q 8.31 Programmable cooling on noisy quantum computers: Implementation and error analysis — •Imane El Achchi, Anne Matthies, Achim Rosch, Mark Rudner, and Erez Berg
16:30 Q 8.32 Treating finite system-bath coupling using the hierarchy-of-pure-states approach — •Johann Aßmus, Tobias Becker, and André Eckardt
16:30 Q 8.33 Quantisation and breakdown of topological transport in the Hubbard-Thouless pump — •Marius Gächter, Zijie Zhu, Anne-Sophie Walter, Konrad Viebahn, Stephan Roschinski, Joaquín Minguzzi, Kilian Sandholzer, and Tilman Esslinger
  16:30 Q 8.34 The contribution has been moved to O 65.7 (SKM).
16:30 Q 8.35 Noise-assisted adiabatic quantum search algorithm: a study via quantum trajectories — •Raphaël Menu, Christiane P. Koch, and Giovanna Morigi
16:30 Q 8.36 Microwave quantum memory based on rare earth doped crystal — •Jianpeng Chen, Ana Strinic, Achim Marx, Kirill G. Fedorov, Hans Huebl, Rudolf Gross, and Nadezhda Kukharchyk
16:30 Q 8.37 Towards on-chip microwave-to-telecom transduction based on erbium-doped silicon — •Daniele Lopriore and Andreas Reiserer
16:30 Q 8.38 Towards an efficient Quantum Network - Silicon Vacancy Color Centers in Diamond — •Donika Imeri, Tuncay Ulas, Sunil Kumar Mahato, and Ralf Riedinger
  16:30 Q 8.39 The contribution has been withdrawn.
16:30 Q 8.40 High-order series expansions and crystalline structures for Rydberg atom arrays — •Duft Antonia, Jan Koziol, Matthias Mühlhauser, Patrick Adelhardt, and Kai Phillip Schmidt
16:30 Q 8.41 Numerical investigation of the Ising model in a light-induced quantized transverse field — •Anja Langheld and Kai Phillip Schmidt
16:30 Q 8.42 Luttinger's Theorem in the One-Dimensional tJ-model — •Annika Böhler, Henning Schlömer, and Fabian Grusdt
16:30 Q 8.43 Guided variational quantum algorithm for time evolution in dynamical mean field theory — •Stefan Wolf, Michael J. Hartmann, and Martin Eckstein
16:30 Q 8.44 Measurement Induced State Preparation — •Daniel Alcalde Puente
16:30 Q 8.45 Portfolio Optimization using a Quantum Computer — •Matthias Hüls and Daniel Braun
16:30 Q 8.46 Performance of Grover’s Algorithm on IBM Quantum Processors — •Yunos El Kaderi, Andreas Honecker, and Iryna Andriyanova
16:30 Q 8.47 QVLS Q1 supporting experiment for development of techniques for ion transport and sympathetic cooling — •Christian Joohs, Markus Duwe, Yannick Hermann, Ludwig Krinner, and Christian Ospelkaus
16:30 Q 8.48 Towards a fault tolerant microwave-driven two qubit quantum processor — •Markus Duwe, Hardik Mendpara, Nicolas Pulido-Mateo, Ludwig Krinner, Giorgio Zarantonello, Amado Bautista-Salvador, and Christian Ospelkaus
16:30 Q 8.49 Next generation platform for implementing fast gates in ion trap quantum computation — •Donovan Webb, Sebastian Saner, Oana Bazavan, Mariella Minder, and Christopher Ballance
100% | Mobil-Ansicht | English Version | Kontakt/Impressum/Datenschutz
DPG-Physik > DPG-Verhandlungen > 2023 > SAMOP