Scope
Ever smaller and better designed structures for sensing and computing are reaching the quantum realm, leading to new promises and challenges in information processing. The school "Nanotechnology meets Quantum Information" aims to provide a broad overview of different implementations of quantum information processing and quantum simulation enabled by recent progress in nanotechnologies.
Seven leading experts will review the experimental and theoretical state-of-the-art for some of the most promising implementations such as semiconductor quantum dots, superconducting circuits, defect centers in diamond, photonic crystal structures, and topological insulators and explore the prospects of quantum computing, quantum simulation, and the physics of quantum many-body systems.
The subjects covered in the school comprise:
- Quantum Information and Quantum Simulations
- Quantum Optics and Photonics
- Semiconductor Quantum Dots and Spin Qubits
- Circuit-QED and Superconducting Qubits
- Defects in Diamonds for Quantum Information processing and Metrology
- Solid-state Quantum Optics
- Topological Matter and Quantum Memories
Support and Funding
