Lectures
Winter Term 2024/25
| Instructor | Course |
|---|---|
| Eng | Nanooptics - MC Nanobiophysics |
|
Büchner |
Superconductivity II |
| Geck, Inosov | Solid state spectroscopy |
| Büchner | The physics of 2D quantum materials |
| Kaiser | Ultrafast methods of solid state physics |
| Hassinger | Low temperature physics of quantum materials |
| Dörr | Physics under extreme conditions |
| Gati, Sarkar | Magnetism I |
| Bukov, Moessner | Many-Body Quantum Dynamics |
| Budich | Computational Tools for Quantum Many-Body Physics |
| Lubk | Fundamentals of particle and electron optics |
| Ruck | Structure Determination with Diffraction Methods |
| Doert | Fundamentals of Crystallography |
Summer Term 2024
| Instructor | Course |
|---|---|
| Büchner | Molecular Nanostructures |
| Inosov | Magnetism II |
| Wosnitza | Supraleitung 1 |
| Peets | Synthesis and physical properties of quantum materials |
| Kaiser | Ultraschnelle Nichtgleichgewichtsdynamik |
| Lubk | Electron Microscopy, Holography and Spectroscopy |
| Geck, Inosov | Condensed Matter Research with X-rays and Neutrons |
| Eng | Nanotechnology |
| Sarkar | Symmetry Breaking in Condensed Matter Physics |
| Eng | Scanning probe microscopy |
| Meng | Solid state theory |
| Janssen | Quantum Phase Transitions |
| Doert, Ruck, Brumme | Advanced Solid State Chemistry |
| Shekhar, Schnelle, Zhang | Topology and Materials |
Winter Term 2023/24
| Instructor | Course |
|---|---|
| Budich | Geometry and Topology in Quantum Physics |
| Büchner, Vool | Die Physik der 2D Quantenmaterialien |
| Sarkar, Gati | Magnetism I |
| Geck, Inosov | Solid State Spectroscopy |
| Lubk | Grundlagen der Teilchen- und Elektronenoptik |
| Eng | Nanooptics - MC Nanobiophysics |
| Nogueira, Shyta, van den Brink | Path inegral formalism for quantum matter |
| Hassinger | Physik der Quantenmaterialien bei tiefen Temperaturen |
| Dörr, Wirth | Physik unter extremen Bedingungen |
| Bukov, Claeys, Moessner | Many-Body Quantum Dynamics |
| Büchner, Grafe | Superconductivity II |
| Kaiser | Ultraschnelle Methoden der Festkörperphysik |
| Faßbender, Hassinger | Quanten-Materialien: Von grundlegenden Effekten bis zu Anwendungen |
| Ruck | Structure Determination with Diffraction Methods |
| Doert | Fundamentals of Crystallography |
Summer Term 2023
| Instructor | Course |
|---|---|
| Vojta, Frank | Theory of frustrated magnetism |
| Inosov | Condensed Matter Research with X-rays and Neutrons |
| Efremov | Introduction to topological materials |
| Thomas, Sarkar | Magnetism II |
| Büchner | Molecular Nanostructures |
| Eng | Nanotechnology 2023 |
| Wosnitza | Superconductivity 1 |
| Peets | Synthesis and physical properties of quantum materials |
| Tu | Solid state theory |
| Kaiser | Ultraschnelle Nichtgleichgewichtsdynamik |
| Eng | Scanning probe microscopy 2023 |
| Ruck | From metals and magnets to quantum materials |
| Doert | Concepts in crystal chemistry |
| Felser, Shekhar, Vool, Wang, Yao, Pan, Menges | Topology and Materials |
| Klauß, Kaiser | Spektroskopie Kondensierter Materie |
Winter Term 2022/23
|
Instructor |
Lecture |
|---|---|
| Budich | Analytical Tools for Quantum Many-Body Physics |
| Reichlova | Magnetism I |
| Geck, Inosov | Festkörperspektroskopie |
| Büchner, Wurmehl, Mühl, Dufouleur, Corredor Bohorquez | Magnetism on the nanoscale |
| Eng | Nanooptics - MC Nanobiophysics |
| Sarkar | NMR an kondensierter Materie |
| Nogueira, Shyta, van den Brink | Pfadintegrale in der Festkörperphysik: Von Hubbard zu SYK |
| Dörr, Wirth | Physik unter extremen Bedingungen |
| Eng, Bode | Scanning probe microscopie |
| Büchner | Superconductivity II |
| Link | Theory of superconductivity |
| Kaiser | Ultraschnelle Methoden der Festkörperphysik |
| Ruck | Crystal Structure Determination |
| Doert | Fundamentals of Crystallography |
| Wosnitza, Stockert | HS: Quanteneffekte unter extremen Bedingungen |
Summer Term 2022
| Instructor | Course |
|---|---|
| Felser, Shekhar, Pan, Ma, Vool, Vergniory, Menges | Comprehensive Course on Topology and Materials |
| Inosov, Geck | Condensed Matter Research with X-rays and Neutrons |
| Faßbender, Schultheiß | Magnetism II |
| Büchner | Molekulare Nanostrukturen |
| Eng | Nanotechnology |
| Eng | Scanning probe microscopy |
| Inosov | Statistical Evidence in Experimental Science |
| Wosnitza | Supraleitung 1 |
| Sarkar | Symmetry breaking in condensed matter physics: An experimental approach |
| Peets | Synthesis and physical properties of quantum materials |
| Lehmann | Theoretische Festkörperphysik |
| Reichlova | Transporteigenschaften von neuen Materialien |
| Kaiser | Ultraschnelle Nichtgleichgewichtsdynamik |
| Tu | Many-Body Theory in Condensed Matter |
| Ruck | Metalle und Magnete |
| Doert | Kristallchemie |
| Klauß, Kaiser | HS: Moderne Anwendungen des Magnetismus: Von Augmented Reality und Neuromorphem Computing zu Quantentechnologien |
Winter Term 2021/22
| Instructor | Course | E-Learning |
|---|---|---|
| Budich | Computational tools for quantum many-body physics | OPAL |
| Thomas | Magnetism I | OPAL |
| Geck, Inosov | Solid state spectroscopy | OPAL |
| Büchner | Magnetism on the nanoscale | |
| Eng, Kehr | Nanooptics - MC Nanobiophysics | OPAL |
| Sarkar | NMR on condensed matter | |
| Ruck, Doert | Kristallstrukturbestimmung | OPAL |
| Dörr | Physics at extreme conditions | OPAL |
| Büchner | Superconductivity II | |
| Kaiser | Ultrafast methods of solid state physics | OPAL |
| Wosnitza, Stockert | HS: Quantum effects under extreme conditions | |
| Lubk | Foundation of charge Particle optics | |
| Charnukha | Optical Spectroscopy of Quantum Matter |
Summer Term 2021
Winter Term 2020/21
| Instructor | Course | E-Learning |
|---|---|---|
| Büchner, Wurmehl, Corredor-Bohorquez, Mühl, Dufouleur | Magnetism on the Nanoscale | |
| Budich | Geometry and Topology in Quantum Physics | OPAL |
| Inosov, Geck | Solid state spectroscopy | OPAL |
| Dörr, Wirth | Physics at extreme conditions | OPAL |
| Büchner, Grafe, Efremov | Superconductivity II | Registration |
| Felser, Chandra, Gooth, Sun, Menges | Comprehensive Course on Materials and Topology | |
| Luitz, Piazza | Methoden der Vielteilchenquantendynamik | Registration via e-mail |
| Charnukha | Optical Spectroscopy of Quantum Matter | |
| Ruck, Doert | Kristallstrukturbestimmung | |
| Klauß | Festkörpermagnetismus I | |
| Timm | Many-particle theory | OPAL |
| Timm | HS Nanotransport | OPAL |
| Wosnitza, Stockert | HS Quantum effects under extreme conditions (German) | Registration |
Summer Term 2020
| Instructor | Course | E-Learning |
|---|---|---|
| Tu | Solid State Theory | Zoom |
| Tjeng | Practical Quantum Mechanics for Experimental Solid State Physicists | Zoom |
| Inosov, Geck | Forschung an kondensierter Materia mit Röntgen- und Neutronenstrahlen | OPAL |
| Vojta | Theory of Frustrated Magnetism | OPAL |
| Klauß | Magnetismus II | Registration |
| Büchner | Molecular Nanostructures | Registration |
| Eng | Nanotechnologie | OPAL |
| Wosnitza | Supraleitung I | Starts later |
| Eng | Scanning Probe Microscopy | OPAL |
| Isaeva | Synthese und physikalische Eigenschaften von Quantenmaterialien | OPAL |
| Ruck, Isaeva | Metalle und Magnete | OPAL |
| Doert | Kristallchemie | OPAL |
| Inosov, Faßbender | HS IFMP: Elektronische Eigenschaften von Festkörpern |
Winter Term 2019/20
| Instructor | Course |
|---|---|
| Büchner, Wurmehl, Isaeva, Corredor-Bohorquez, Mühl, Dufouleur | Magnetism on the Nanoscale |
| Budich | Analytical tools for quantum many-body physics |
| Inosov, Geck | Solid state spectroscopy |
| Goennenwein | Magnetism I |
| Eng | Nanooptics - MC Nanobiophysics |
| Dörr, Wirth | Physik unter extremen Bedingungen |
| Büchner, Grafe, Efremov | Superconductivity II |
| Wosnitza, Stockert | Hauptseminar Quanteneffekte in hohen Magnetfeldern |
| Ruck, Doert | Kristallstrukturbestimmung |
| Timm | Theory of Superconductivity |
| Timm | Hauptseminar Topologie: Von der Mathematik zur Physik |
Summer Term 2019
|
Instructor |
Course |
|---|---|
| Tu | Solid State Theory |
| Sarkar | Nuclear Magnetic Resonance and Moun Spin Rotation/Relaxation |
| Heyl, Luitz | Quantum Many-Body Dynamics: Correlation and Entanglement |
| Geck, Inosov | Forschung an kondensierter Materie mit Röntgen- und Neutronenstrahlen |
| Wosnitza | Supraleitung 1 |
| Klauß | Magnetismus II |
| Büchner | Molecular Nanostructures |
| Eng | Nanotechnologie |
| Eng | Rasterelektronenmikroskopie |
| Janssen, Vojta | HS ITP: Frustrierter Magnetismus |
| Ruck, Isaeva | Metalle und Magnete |
| Doert | Kristallchemie |
Winter Term 2018/19
| Instructor | Course |
|---|---|
| Eckardt, Heyl | Quantum Simulators: a theory perspective onto expermiental platforms and prospects |
| Büchner, Isaeva, Mühl, Dufouleur | Magnetism on the Nanoscale |
| Tu | Many-Body Theory in Condensed Matter |
| Sarkar |
Nuclear Magnetic resonance and Muon spin rotation in solid state physics |
| Budich | Computational tools for quantum many-body physics |
| Inosov, Geck | Solid state spectroscopy |
| Goennenwein | Magnetism I |
| Eng | Nanooptics - MC Nanobiophysics |
| Lazarides, Piazza | Thermalization and its absence in closed and open systems |
| Dörr, Wirth | Physik unter extremen Bedingungen |
| Büchner, Grafe, Heß | Superconductivity II |
| Wosnitza, Stockert | Hauptseminar Quanteneffekte in hohen Magnetfeldern |
| Ruck, Doert | Kristallstrukturbestimmung |
| Tjeng, Kasinathan | Practical Quantum Mechanics for Experimental Solid State Physicists |
SUmmer Term 2018
| Instructor | Course |
|---|---|
| Janssen | Quantum Phase Transitions |
| Tu | Solid State Theory |
| Nogueira, van den Brink | Introduction to topological field theory and anomalies in condensed matter |
|
Geck, Inosov |
Condensed matter research with x-rays and neutrons |
| Wosnitza | Supraleitung 1 |
| Klauß, Goennenwein | Magnetismus II |
| Büchner | Molecular Nanostructures |
| Eng | Nanotechnologie |
| Geck, Klauß | HS IFMP: Elektronische Eigenschaften von Festkörpern |
| Doert, Isaeva | Metalle und Magnete |
| Doert | Kristallchemie |
| Tjeng, Wirth | Practical Quantum Mechanics II: Correlated Systems |
Winter TERM 2017/18
| Instructor | Course |
|---|---|
|
Timm |
Theory of Superconductivity |
| Eckardt, Heyl, Moessner | Many-body quantum dynamics in and out of equilibrium from thermalization to new types of order |
| Budich | Geometry and Topology in Quantum Physics |
| Goennenwein | Magnetism I |
| Büchner, Heß, Grafe | Superconductivity II |
| Inosov | Condensed Matter Spectroscopy |
| Geck | Physik mit Synchrotronstrahlung |
| Büchner, Mühl, Dufouleur | Magnetism on the Nanoscale |
| Dörr, Wirth | Physik unter extremen Bedingungen |
| Wosnitza, Stockert | Hauptseminar Elektronische Eigenschaften von Festkörpern |
| Tjeng, Kasinathan | Practical Quantum Mechanics for Experimental Solid State Physicists |
| Ruck, Doert | Kristallstrukturbestimmung |
| Timm | Seminar on Theoretical Physics: Nanotransport |
Summer term 2017
| Instructor | Course |
|---|---|
| Lehmann | Theoretische Festkörperphysik |
| Vojta | Theory of Frustrated Magnetism |
| Meng | One-Dimensional Physics: From Quantum Wires to Quantum Field Theories |
|
Inosov, Stockert |
Modern Aspects of X-ray and Neutron Scattering |
| Wosnitza | Supraleitung I |
| Gönnenwein, Klauß | Magnetismus II |
| Eng | Rastersondenmikroskopie |
| Geck | Röntgenspektroskopie |
| Doert, Isaeva | Metalle und Magnete |
| Doert | Kristallchemie |
| Tjeng, Wirth | Practical Quantum Mechanics II: Correlated Systems |
Winter TERM 2016/17
| Instructor | Course |
|---|---|
|
Garst |
Many-body theory of condensed matter |
| Eckardt | Time-periodically driven many-body systems |
| Michetti | Group Theory in Condensed Matter Physics |
| Gönnenwein | Magnetism I |
| Büchner, Grafe, Hess | Superconductivity II |
| Inosov | Condensed Matter Spectroscopy |
| Geck | Physik mit Synchrotronstrahlung |
| Büchner, Mühl | Magnetism on the Nanoscale |
| Dörr, Wirth | Physik unter extremen Bedingungen |
| Wosnitza, Laubschat | Hauptseminar Elektronische Eigenschaften von Festkörpern |
| Tjeng, Kasinathan | Practical Quantum Mechanics for Experimental Solid State Physicists |
| Ruck, Doert | Kristallstrukturbestimmung |
Summer Term 2016
| Instructor | Course |
|---|---|
| Garst | Theoretische Festkörperphysik |
| Rachel, Meng | Topological Condensed Matter Theory |
| Vojta | Quantum Phase Transitions |
| Inosov | Modern Aspects of X-ray and Neutron Scattering |
| Wosnitza | Supraleitung I |
| Schultheiß | Magnetismus II |
| Eng | Rastersondenmikroskopie |
| Eng | Nanotechnology |
| Faßbender, Klauss | Hauptseminar Magnetismus/Spektroskopie |
| Doert, Isaeva | Metalle und Magnete |
| Doert | Kristallchemie |
| Valldor | Spins do - Experimenteller Magnetismus |
Winter TERM 2015/16
| Instructor | Course |
|---|---|
| Sykora | Theorie der Supraleitung |
| Erfemov, Nishimoto, Rößler, van den Brink | Theory of Magnetism |
| Bardarson, Moessner, Pollmann | Quantum Information and Computation |
| Inosov | Condensed Matter Spectroscopy |
| Büchner, Grafe, Heß | Superconductivity II |
| Dufouleur, Mühl, Wurmehl, Büchner | Magnetism on the nanoscale |
| Dörr, Wirth | Physik unter extremen Bedingungen |
| Schultheiß, Faßbender | Magnetismus I |
| Tjeng, Haverkort | Practical Quantum Mechanics for Experimental Solid State Physicsts |
| Wosnitza, Stockert | Hauptseminar Supraleitung |
| Ruck, Doert | Kristallstrukturbestimmung |
Summer Term 2015
| Instructor | Course |
|---|---|
| Lehmann | Theoretische Festkörperphysik |
| Vojta | Strongly Interacting Electrons: From Quantum Dots to High-Temperature Superconductivity |
| Diehl | Non-Equilibrium Field Theory |
| Inosov | Modern Aspects of X-ray and Neutron Scattering |
| Wosnitza | Supraleitung 1 |
| Faßbender | Magnetismus II |
| Büchner, Klauss | Hauptseminar Topologische Isolatoren |
| Ruck, Isaeva | Metalle und Magnete |
| Ruck, Doert | Kristallstrukturbestimmung |