| Leitner, K; Lerf, A; Winter, M; Besenhard, JO; Villar-Rodil, S; Suarez-Garcia, F; Martinez-Alonso, A; Tascon, JMD
Mit dem Sycamore‐Quantenprozessor von Google gelang zum ersten Mal überzeugend ein Experiment, in dem ein Quantensystem ein Problem besser löst als derzeit verfügbare herkömmliche Supercomputer. Die
Our mission is to investigate complex quantum systems, engineer novel devices and educate students to advance quantum technologies for scientific and societal impact.
Munich Quantum Valley established as registered society
27 January 2022
Successful establishment of the Munich Quantum Valley e.V.
One year after the declaration of intent by the Bavarian state
Munich Quantum Valley established as registered society
27 January 2022
Successful establishment of the Munich Quantum Valley e.V.
One year after the declaration of intent by the Bavarian state
The EU project OpenSuperQPlus gets underway
01 March 2023
OpenSuperQPlus unites 28 European research partners from 10 countries aiming to develop a 1,000 qubit quantum computer
The project
Germany:
Forschungszentrum Jülich GmbH Bayerische Akademie der Wissenschaften Walther-Meissner-Institute Leibniz Supercomputing Centre Fraunhofer-Gesellschaft zur Förderung der
Dr. Matthias Mergenthaler - IBM Research - Zurich
Effects of surface treatments and UHV packaging on flux tunable transmon qubits
The last two decades have seen significant advances in the
Hybrid materials combining nontrivial conducting and magnetic properties are of high current interest due to potential spintronic applications. Furthermore, they present important fundamental
Effects of surface treatments and UHV packaging on flux tunable transmon qubits
The last two decades have seen significant advances in the coherence times of superconducting qubits. However, further
Content
Within the seminar Superconducting Quantum Circuits, students present state-of-the-art developments in modern quantum technology with superconducting quantum circuits. In this field,
Content
Within the seminar "Superconducting Quantum Circuits", students present state-of-the-art developments in modern quantum technology with superconducting quantum circuits. In this field,
Content
Within the seminar Superconducting Quantum Circuits, students present state-of-the-art developments in modern quantum technology with superconducting quantum circuits. In this field,
Content
Within the seminar Superconducting Quantum Circuits, students present state-of-the-art developments in modern quantum technology with superconducting quantum circuits. In this field,
Content
This is the joint module page of LV1370 "Supraleitende Quantenschaltkreise" and LV2475 "Cavity-, Circuit- und Waveguide-QED".
Within the seminars, students present state-of-the-art
Content
This is the joint module page of LV0622 "Supraleitende Quantenschaltkreise" and LV1569 "Cavity-, Circuit- und Waveguide-QED".
Information about scheduling, paper-allocations and all other
About us
Mission statement
The Walther-Meißner-Institute for Low Temperature Research (WMI) is a research institute of the Bavarian Academy of Sciences and Humanities (BAdW). It conducts
History
In the following we provide a brief overview of some historical facts about the WMI, its scientific directors, important discoveries made at WMI, as well as the key research directions
The primary focus of this project will be on the design, optimal characterization and control of multi-qubit superconducting devices based on transmon qubits in a circuit QED architecture. We will
The European Union has approved SUPREME, a major new pilot line to industrialise superconducting quantum chip fabrication, across 8 EU member states.
Contactless High Performance Power Transmission
12 March 2021
Superconducting coils boost performance of contactless power transmission
A team led by Technical University of Munich (TUM)
Dr. Johneph Sukham †
Quantum scientist at the Walther-Meißner-Institute
On July 3 Johneph Sukham died in a tragic accident. He joined the Walther-Meißner-Institute in February 2021 as a quantum
Walther-Meißner-Seminar
Seminar Program WS 2024/25
Time: Friday, 11.15 h Place: Seminar Room 143,
| Michael Fischer, Qi-Ming Chen, Christian Besson, Peter Eder, Jan Goetz, Stefan Pogorzalek, Michael Renger, Edwar Xie, Michael J. Hartmann, Kirill G. Fedorov, Achim Marx, Frank Deppe, Rudolf Gross
| Christoph Utschick, Cem Som, Ján Šouc, Veit Große, Fedor Gömöry, Rudolf Gross
Light-matter interaction in optomechanical systems is the foundation for ultra-sensitive detection schemes as well as the generation of phononic and photonic quantum states. Electromechanical systems
| Stefan Weichselbaumer, Petio Natzkin, Christoph W. Zollitsch, Mathias Weiler, Rudolf Gross, Hans Huebl
| Philip Schmidt, Daniel Schwienbacher, Matthias Pernpeintner, Friedrich Wulschner, Frank Deppe, Achim Marx, Rudolf Gross, Hans Huebl
| D. Jost, J.-R. Scholz, U. Zweck, W. R. Meier, A. E. Böhmer, P. C. Canfield, N. Lazarevic and R. Hackl
| J. Salmilehto, F. Deppe, M. Di Ventra, M. Sanz, E. Solano
| Michael Kaniber, Fabian Flassig, Günther Reithmaier, Rudolf Gross, Jonathan J. Finley
| J. Goetz, F. Deppe, M. Haeberlein, F. Wulschner, C. W. Zollitsch, S. Meier, M. Fischer, P. Eder, E. Xie, K. G. Fedorov, E. P. Menzel, A. Marx, and R. Gross
| Christoph W. Zollitsch, Kai Mueller, David P. Franke, Sebastian T. B. Goennenwein, Martin S. Brandt, Rudolf Gross, Hans Huebl
| A. Baust, E. Hoffmann, M. Haeberlein, M. J. Schwarz, P. Eder, E. P. Menzel, K. Fedorov, J. Goetz, F. Wulschner, E. Xie, L. Zhong, F. Quijandria, B. Peropadre, D. Zueco, J.-J. Garcia Ripoll, E.
| G. Reithmaier, F. Flassig, P. Hasch, S. Lichtmannecker, K. Müller, J. Vuckovic, R. Gross, M. Kaniber, J. J. Finley
| M. Haeberlein, D. Zueco, P. Assum, T. Weißl, E. Hoffmann, B. Peropadre, J.J. Garc\ia-Ripoll, E. Solano, F. Deppe, A. Marx, R. Gross
| Günther Reithmaier, Stefan Lichtmannecker, Thorsten Reichert, Peter Hasch, Kai Müller, Max Bichler, Rudolf Gross, Jonathan J. Finley
| B. Peropadre, D. Zueco, F. Wulschner, F. Deppe, A. Marx, R. Gross, J.J. García-Ripoll
