Q 3: Quantum Technologies – Enabling Technologies
Montag, 2. März 2026, 11:45–13:00, P 5
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11:45 |
Q 3.1 |
Compact and fully-integrated ZERODUR vacuum system for quantum sensing applications — •David Latorre Bastidas, Sören Boles-Herresthal, Nora Bidzinski, Bojan Hansen, André Wenzlawski, Ortwin Hellmig, Klaus Sengstock, and Patrick Windpassinger
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12:00 |
Q 3.2 |
Topology-Optimized Two-Port Beam Splitters for Quantum Photonic Integrated Circuits — Shiang-Yu Huang, •Alessandro Ciorra, Jonas Höpker, Jeldrik Huster, Yannick Augenstein, Carsten Rockstuhl, and Stefanie Barz
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12:15 |
Q 3.3 |
Microwave Generation for the Manipulation of Rubidium Ensembles — •Valeria Camacho Molina, Maike Diana Lachmann, and Tobias Bartusch
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12:30 |
Q 3.4 |
Entropy-Based Complexity Characterization of Integrated Photonic Physical Unclonable Functions — •Himadri Sahoo, Rick Bevers, Daan J. de Ruiter, Lars van der Hoeven, Daan P. Stellinga, Matthias C. Velsink, and Pepijn W. H. Pinkse
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12:45 |
Q 3.5 |
Verification of Electron-Photon Entanglement — •Phila Rembold, Alexander Preimesberger, Sergei Bogdanov, Santiago Beltrán-Romero, Dennis Rätzel, Isobel C Bicket, Elizabeth Agudelo, Nicolai Friis, and Philipp Haslinger
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