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Dresden 2020 – wissenschaftliches Programm

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TT: Fachverband Tiefe Temperaturen

TT 31: Superconducting Electronics: SQUIDs, Qubits, Circuit QED, Quantum Coherence and Quantum Information Systems 1

Mittwoch, 18. März 2020, 09:30–13:00, HSZ 03

09:30 TT 31.1 Shining new light on long standing questions: Recent insights into the understanding of low frequency excess flux noise — •Anna Ferring-Siebert, Fabian Kaap, Andreas Fleischmann, Christian Enss, and Sebastian Kempf
09:45 TT 31.2 Post-production Tile-and-Trim Process for Superconducting Lumped Element Resonators and Transmission Line Resonators in Microwave SQUID Multiplexers — •Felix Ahrens, Patrick Paluch, Daniel Richter, Constantin Schuster, Mathias Wegner, Christian Enss, and Sebastian Kempf
10:00 TT 31.3 Superconducting qubit devices: fabrication suite — •Wei Liu, Kok Wai Chan, Tianyi Li, Johannes Heinsoo, Vasilii Sevriuk, Caspar Ockeloen-Korppi, Jani Tuorila, Juha Hassel, Juha Vartiainen, Kuan Yen Tan, Jan Goetz, and Mikko Mottonen
10:15 TT 31.4 Reaching the ultimate energy resolution of a quantum detector — •Bayan Karimi, Fredrik Brange, Danilo Nikolic, Joonas T. Peltonen, Peter Samuelsson, Wolfgang Belzig, and Jukka P. Pekola
10:30 TT 31.5 Development of RF-Power Dividers for the Josephson Arbitrary Waveform Synthesizer — •Hao Tian, Oliver Kieler, Ralf Behr, Rüdiger Wendisch, Rolf-Werner Gerdau, Karsten Kuhlmann, and Johannes Kohlmann
10:45 TT 31.6 Fluxoid dynamics in high impedance long Josephson junctions — •Micha Wildermuth, Lukas Powalla, Konrad Dapper, Yannick Schön, Jan Nicolas Voss, Hannes Rotzinger, and Alexey V. Ustinov
11:00 TT 31.7 Study of the relaxation and decoherence in 2D fluxoniums — •Farshad Foroughi, Karthik Bharadwaj, Luca Planat, Arpit Ranadive, Cecile Naud, Olivier Buisson, Nicolas Roch, and Wiebke Hasch-Guichard
  11:15 15 min. break.
11:30 TT 31.8 Kinetic Inductance of thin Al Films using a Resonant Circuit — •Lorenz Fuchs, Christian Baumgartner, Dieter Schuh, Nicola Paradiso, Dominique Bougeard, and Christoph Strunk
11:45 TT 31.9 Superconducting granular aluminum resonators resilient to magnetic fields up to 1 Tesla — •Alexandru Ionita, Kiril Borisov, Dennis Rieger, Patrick Winkel, Markus Weßbecher, Fabio Henriques, Francesco Valenti, Martin Spiecker, Daria Gusenkova, Wolfgang Wernsdorfer, and Ioan Pop
12:00 TT 31.10 Resistance tuning of disordered nanowires by current pulses and their electrical response at low temperatures — •Jan Nicolas Voss, Yannick Schön, Micha Wildermuth, Hannes Rotzinger, and Alexey V. Ustinov
12:15 TT 31.11 Rabi Oscillations in a Superconducting Nanowire CircuitYannick Schön, •Maximilian Kristen, Jan Nicolas Voss, Micha Wildermuth, Andre Schneider, Sebastian T. Skacel, Martin P. Weides, Jared H. Cole, Hannes Rotzinger, and Alexey V. Ustinov
12:30 TT 31.12 Implementation of a transmon qubit using superconducting granular aluminum — •Patrick Winkel, Kiril Borisov, Lukas Grünhaupt, Dennis Rieger, Martin Spiecker, Francesco Valenti, Alexey V. Ustinov, Wolfgang Wernsdorfer, and Ioan M. Pop
12:45 TT 31.13 Amplitude and frequency sensing of microwave fields with a superconducting transmon qubit — •Maximilian Kristen, Andre Schneider, Alexander Stehli, Tim Wolz, Sergey Danilin, Hannes Rotzinger, Alexey V. Ustinov, and Martin Weides
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