Erlangen 2022 – wissenschaftliches Programm

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Q: Fachverband Quantenoptik und Photonik

Q 23: Quantum Information I

Dienstag, 15. März 2022, 16:30–18:30, P

	16:30	Q 23.1	Continuous vs. discrete truncated Wigner approximation for driven, dissipative spin systems — •Christopher D. Mink, David Petrosyan, and Michael Fleischhauer
	16:30	Q 23.2	The contribution has been withdrawn.
	16:30	Q 23.3	Towards EIT ground-state cooling of a lattice of individually trapped atoms — •Apurba Das, Deviprasath Palani, Florian Hasse, Lennart Guth, Amir Mohammadi, Ulrich Warring, and Tobias Schaetz
	16:30	Q 23.4	Quantum computing with Rydberg Atoms — •Christoph Rupprecht, Philipp Ilzhöfer, Christian Hoelzl, Jennifer Krauter, Tilman Pfau, and Florian Meinert
	16:30	Q 23.5	Towards benchmarking two-qubit quantum processor — •Hardik Mendpara, Nicolas Pulido-Mateo, Markus Duwe, Giorgio Zarantonello, Henning Hahn, Amado Bautista-Salvador, Ludwig Krinner, and Christian Ospelkaus
	16:30	Q 23.6	Apparatus design for three new cryogenic trapped-ion quantum computing experiments — •Lukas Kilzer, Tobias Pootz, Celeste Torkzaban, Timko Dubielzig, and Christian Ospelkaus
	16:30	Q 23.7	Trapped Ion Architecture for Multi-dimensional Quantum Simulations — •Deviprasath Palani, Florian Haße, Apurba Das, Ulrich Warring, and Tobias Schaetz
	16:30	Q 23.8	Towards high-fidelity Mølmer-Sørensen gate in a cryogenic surface-electrode ion trap — Niklas Orlowski, •Niels Kurz, Timko Dubielzig, Sebastian Halama, Chloë Allen-ede, Celeste Torkzaban, and Christian Ospelkaus
	16:30	Q 23.9	A symmetric RF X-junction for register-based surface-electrode ion traps compatible with the near-field microwave approach — •Florian Ungerechts, Rodrigo Munoz, Axel Hoffmann, Brigitte Kaune, Teresa Meiners, and Christian Ospelkaus
	16:30	Q 23.10	A Quantum Enhanced Learning Algorithm for Maze Problems — •Oliver Sefrin and Sabine Wölk
	16:30	Q 23.11	Software-Struktur für die Internetanbindung eines Ionenfallen-Quantencomputers — •Christian Melzer, Janine Hilder, Fabian Kreppel, Janis Wagner, Björn Lektisch, Ulrich Poschinger, André Brinkmann und Ferdinand Schmidt-Kaler
	16:30	Q 23.12	Assessing the Precision of Quantum Simulation of Many-Body Effects in Atomic Systems using the Variational Quantum Eigensolver Algorithm — •Sumeet Sumeet, V. S. Prasannaa, B. P. Das, and B. K. Sahoo
	16:30	Q 23.13	A quantum logic gate on remote matter qubits — Severin Daiss, Stefan Langenfeld, Stephan Welte, Emanuele Distante, Philip Thomas, Lukas Hartung, •Olivier Morin, and Gerhard Rempe
	16:30	Q 23.14	Ion Trap Development for Quantum Computing Applications — •Alexander Müller, Björn Lekitsch, Daniel Wessel, Robin Strohmaier, Ulrich Poschinger, and Ferdinand Schmidt-Kaler
	16:30	Q 23.15	Towards estimating molecular ground state energies on current quantum hardware — •Felix Rupprecht and Sabine Wölk
	16:30	Q 23.16	Toward control of charge state dynamics and spin manipulation in diamond NV color center for quantum information processing — •Min-Sik Kwon, Jonas Meinel, Qi-Chao Sun, Durga Dasari, Vadim Vorobyov, and Jörg Wrachtrup
	16:30	Q 23.17	A multi-site quantum register of neutral atoms with single-site controllability — •Tilman Preuschoff, Dominik Schäffner, Lars Pause, Tobias Schreiber, Stephan Amann, Jan Lautenschläger, Malte Schlosser, and Gerhard Birkl