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Lectures SoSe 2023
- Hands-on Tensor Networks
- Theoretical Physics I: Mechanic
- Quantum Theory of Many Body Systems (Lecture)
- Quantum Theory of Condensed Matter II
- Quantum Magnetism, Spin Waves, and Light
- Statistical Physics
- Superconduction Qubit Circuits
- Computational Physics
- Quantum Information
- Computational Many Body Theory
Lectures WS 2022/2023
- Mathematical Methods of Physics
- Thursday Seminar: Quantum Information Theory
- Theoretical Solid State Physics
- Theoretical Physics IV: Statistical Physics
- Quantum Computing (Chalmers University)
- Symmetries and the Many-Electron Problem
- Density Functional Theory and Electronic structure
Lectures SS 2022
- Theoretical Physics III: Quantum Mechanics (Lecture)
- Quantum Information Theory (Seminar)
- Quantum Theory of many body systems (Lecture)
- Quantum Theory of Condensed Matter II
- Mathematical Methods of Physics (Lecture)
- Statistical Physics
- Computational Physics
- Quantum Information
- Computational Many Body Theory
Lectures WS 2020/21
- Advanced Theory of Topological Insulators
- Path Integral Methods for Quantum Optics
- Quantum Theory of Condensed Matter I
- Groups and their Representation
- Theoretical Solid State Physics
- Density Functional Theory and Electronic structure
- Quantum Computing (Chalmers University)
- Quantum Optics
- Quantum Theory Derived from Information Principles
Lectures SS 2021
- Hands-on Tensor Networks
- Quantum Theory of Condensed Matter II
- Quantum Transport
- Advanced Quantum Electronics
- Statistical Physics
- Computational Physics
- Theory of Spin Qubits (RWTH Aachen/TU Delft)
- Quantum Information
- Computational Many-body Theory
Lectures SS 2020
- Theory of Disordered Systems
- Correlated Electrons in One Dimension
- Topology in Condensed Matter Systems
- Quantum Error Correction
- Quantum Measurement
- Quantum Transport
- Quantum Information
- Quantum Theory of Condensed Matter II
- Statistical Physics
- Computational Physics
- Computational Many Body Theory
- Advanced Quantum Electronics
Lectures WS 2019/20
- Topology in Condensed Matter Systems
- Functional renormalization group for nonequilibrium transport through mesoscopic systems
- Quantum Theory of Condensed Matter I
- Nonequilibrium Green's functions and open quantum systems
- Quantum Optics
- Theoretical Solid State Physics
- Symmetries and the Many-Electron Problem
- Density Functional Theory and Electronic structure
Lectures SS 2019
- Quantum Information
- Quantum Theory of Condensed Matter II
- Group Theory
- Theory of Disordered Systems
- Geometric Foundation of Classical Electrodynamics
- Statistical Physics
- Computational Physics
- Computational Many Body Theory
- Advanced Quantum Electronics and Quantum-Information Theory
Lectures WS 2018/19
- Nanomagnetism and Spin Dynamics
- Nonequilibrium Thermodynamics
- Theoretical Solid State Physics
- Quantum Theory of Condensed Matter I
- Applied Quantum Mechanics
- Classical and Quantum Theory of Information (Shannon Theory)
- Quantum optics
- Symmetries and the Many-Electron Problem
- Density Functional Theory and Electronic structure
Lectures SS 2018
- Quantum Theory of Condensed Matter II
- Quantum Information
- Statistical Physics
- Computational Physics
- Correlated Electrons
- Advanced Quantum Electronics and Quantum-Information Theory
- Computational Many Body Theory
Lectures WS 2017/18
- Quantum Optics
- Density Functional Theory and Electronic Structure
- Symmetries and the Many-Electron Problem
- Physics and Mathematics of Geometric Phases
Lectures SS 2017
- Correlated Electrons
- Nonequilibrium Green's Functions
- Quantum Transport
- Advanced quantum electronics and quantum-information theory
- Computational Physics
- Computational Many Body Theory
Lectures WS 2016/17
- Functional Integrals in Many-Body Theory
- Density Functional Theory and Electronic Structure
- Group Theory in Solid State Physics
Lectures SS 2016
- Quantum Information
- Statistical Physics
- Computational Physics
- Correlated Electrons
- Topological Transport
- Advanced Theoretical Solid State Physics
- Advanced Quantum Optics
- Open Quantum Systems: Liouville-space field theory
Lectures WS 2015/16
- Group Theory in Solid State Physics
- Physics and Mathematics of Geometric Phases
- Density Functional Theory and Electronic Structure
- Quantum Transport
- Quantum Optics
Lectures SS 2015
- Correlated Electrons
- Advanced Theoretical Solid State Physics
- Magnetism in Condensed Matter
- Functional Renormalization Group for Nonequilibrium Transport through Mesoscopic Systems
- Advanced Quantum Optics
- Correlated Electrons in One Dimension
- Open Quantum Systems: Liouville-space Field Theory
- Computational Physics
Lectures WS 2014/15
- Entanglement and Locality in Quantum Many-Body Systems
- Density Functional Theory and Electronic Structure
- Green's Functions in Nonequilibrium
- Open Quantum Systems
- Group Theory in Solid State Physics
- Physics and Mathematics of Geometric Phases
- Time-dependent Density Functional Theory
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