This course will cover the basics of quantum
simulation, with a focus on cold-atom platforms. There will be two major
directions: (i) Mapping quantum many-body models onto analog quantum-simulation
platforms that are amenable for experimental realization, (ii) exploring the
far-from-equilibrium properties of quantum many-body models. Crucial for both
directions will be exact diagonalization methods, which will be a main focus of
the course and the project component thereof. The course will have a research
element to it, as we will be covering the latest in quantum simulation and
far-from-equilibrium quantum many-body physics, and it will aim to bring the
student up to speed on the state of the art in these fields. Quantum Mechanics
I and II are prerequisites.
- Trainer/in: Jad Halimeh
- Trainer/in: Philipp Bakauov
- Trainer/in: Robert Helling
- Trainer/in: Alina Fantauzzi
- Trainer/in: Alina Fantauzzi
- Trainer/in: Aida Hashtroud
- Trainer/in: Steffen Rulands
- Trainer/in: Lode Pollet
- Trainer/in: Zhaoxuan Xie
- Trainer/in: Anxiang Ge
- Trainer/in: Valentin Kiendl
- Trainer/in: Lode Pollet
- Trainer/in: Markus Scheb
- Trainer/in: Ilka Brunner
- Trainer/in: William Luciani
- Trainer/in: Marcel Gievers
- Trainer/in: Andreas Gleis
- Trainer/in: Benedikt Schneider
- Trainer/in: Honghao Tu
- Trainer/in: James Creswell
- Trainer/in: Mariam Khaldieh
- Trainer/in: Sayyed Raiessi Toussi
- Trainer/in: Oleksandr Sulyma
- Trainer/in: Markus Dierigl
- Trainer/in: Dusan Novicic
- Trainer/in: Baris Ölmez
- Trainer/in: Hartmut Ruhl
- Trainer/in: Yukiko Song