Q 15: Quantum Information (Quantum Computing and Simulation)
Dienstag, 15. März 2022, 10:30–12:30, Q-H12
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10:30 |
Q 15.1 |
Hauptvortrag:
A hybrid quantum classical learning agent — •Sabine Wölk
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11:00 |
Q 15.2 |
Numerical optimization and demonstration of amplitude-modulatedpulses for microwave-driven entanglement-gates — •Markus Duwe, Nicolas Pulido-Mateo, Hardik Mendpara, Giorgio Zarantonello, Ludwig Krinner, Amado Bautista-Salvador, Klemens Hammerer, Reinhard Werner, and Christian Ospelkaus
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11:15 |
Q 15.3 |
Non-classical features of a multiparticle bosonic state propagating in an integrated network — •federico pegoraro, philip held, syamsundar de, sonja barkhofen, jan sperling, benjamin brecht, and christine silberhorn
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11:30 |
Q 15.4 |
Mimimal number of couplings and local controls for universal quantum computing — •Fernando Gago Encinas, Monika Leibscher, David Pohl, Daniel Basilewitsch, and Christiane Koch
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11:45 |
Q 15.5 |
Towards Measurement-Based Variational Quantum Simulation of the Multi-Flavor Schwinger Model — •Stephan Schuster, Stefan Kühn, Tobias Hartung, Lena Funcke, Marc-Oliver Pleinert, Joachim von Zanthier, and Karl Jansen
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12:00 |
Q 15.6 |
Fehlertolerante Paritätsauslese auf einem Quantenprozessor mit Ionenkristallen — •Janine Hilder, Daniel Pijn, Oleksiy Onishchenko, Alexander Stahl, Maximilian Orth, Björn Lekitsch, Ulrich Poschinger und Ferdinand Schmidt-Kaler
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12:15 |
Q 15.7 |
Compiler zur Register-Rekonfiguration eines Ionenfallen-Quantencomputers — •Janis Wagner, Janine Hilder, Christian Melzer, Björn Lektisch, Ulrich Poschinger, André Brinkmann und Ferdinand Schmidt-Kaler
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