Topics of the talk:
1. High-dimensional Entanglement
2. High rate quantum key distribution (QKD)
3. Measurement-based quantum computing
4. Ion trap quantum computing
5. Quantum technologies using semiconductor quantum dots
6. Quantum computing with defect centers in solids
7. Quantum sensing
8. Superconducting with defect centers in solids
9. Hybrid quantum system
10. Quantum acoustics with optically active quantum dots
Vortragsthemen:
1. High-dimensional Entanglement
2. High rate quantum key distribution (QKD)
3. Measurement-based quantum computing
4. Ion trap quantum computing
5. Quantum technologies using semiconductor quantum dots
6. Quantum computing with defect centers in solids
7. Quantum sensing
8. Superconducting with defect centers in solids
9. Hybrid quantum system
10. Quantum acoustics with optically active quantum dots
- Lehrende/r: Tobias Heindel
- Lehrende/r: Hubert Krenner
- Lehrende/r: Robert Schmidt
- Lehrende/r: Carsten Schuck
- Lehrende/r: Matthias Weiß