The content of the lecture includes the following topics:
- Basics properties of superconductors and superconducting materials (different types of superconducting materials, superconductors in a
The content of the lecture includes the following topics:
- Basics properties of superconductors and superconducting materials (different types of superconducting materials, superconductors in a
Quantum Computing with Superconducting Qubits: Basic Concepts (0000001346) S 2026
Exercise to Quantum Computing with Superconducting Qubits: Basic Concepts (0000001350) S 2026
Exercise to Quantum Computing with Superconducting Qubits: Basic Concepts (0000001350) S 2026
Research paper featured in "Physics": 'Niobium air bridges as low-loss components for superconducting quantum hardware' by Bruckmoser et al.
R. Doll, M. Näbauer, Experimental Proof of Magnetic Flux Quantization in a Superconducting Ring, Phys. Rev. Lett. 7, 51-52 (1961).
Superconducting Quantum Computing: Multi-qubit operations Quantum Optimal Control Quantum Neural Networks
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.
Improving materials and fabrication concepts is the most essential ingredient for realizing high-quality quantum devices. There can never be enough coherence time.
Superconducting coils for contactless power transmission in the kilowatt range
Have you ever wondered how to control and measure a hidden superconducting qubit?
Applied Superconductivity 2: from superconducting quantum circuits to microwave quantum optics (0000001704) S 2020
Exercise to Applied Superconductivity 2: from superconducting quantum circuits to microwave quantum optics (0000004169) W 2020
Revision Course to Superconducting Quantum Circuits (0000000963) S 2018
Quantum Computing with Superconducting Qubits: architecture and algorithms (0000000961) S 2016
Exercise to Quantum Computing with Superconducting Qubits: architecture and algorithms (0000000962) W 2015
The content of the lecture includes the following topics:
Basics properties of superconductors and superconducting materials (different types of superconducting materials, superconductors in a
see http://www.ph.tum.de/mh?mid=PH1322
Quantum Computing with Superconducting Qubits 2: Advanced Topics (0000001847) W 2025
Exercise to Quantum Computing with Superconducting Qubits 2: Advanced Topics (0000001848) S 2026
Revision Course to Superconducting Quantum Circuits (0000005084) S 2026
- Basics (superconducting materials, superconductors in a magnetic field, type-I and type-II superconductors, thermodynamic properties)
- Phenomenological description of superconductivity (London
Quantum Computing with Superconducting Qubits: architecture and algorithms (0000004750) S 2026
Exercise to Quantum Computing with Superconducting Qubits: architecture and algorithms (0000004752) S 2026
see http://www.ph.tum.de/mh?mid=PH1322
Quantum Computing with Superconducting Qubits: architecture and algorithms (0000001090) S 2026
Exercise to Quantum Computing with Superconducting Qubits: architecture and algorithms (0000001911) S 2026
Revision Course to Superconducting Quantum Circuits (0000005084) S 2026
see http://www.ph.tum.de/mh?mid=PH1322
