Academics
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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
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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
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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
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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
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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
- Graduate Theses
- Calendar of Current Events
- General Information on a Course of Study
Research
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Projects 2019 - 2023
- P1: Magnetic and orbital excitations in strongly-correlated materials
- P2: Effective spin models for deconfined quantum criticality in strongly interacting Ising-gauged Fermi systems
- P3: Extending the GW approximation with the functional renormalization group
- P4: Non-equilibrium RG methods and Floquet theory
- P5: RG approaches to the non-equilibrium Kondo problem
- P6: Many-body localization in quasi-periodic and random potentials
- P7: Amplitude-mode duality of non-Markovian, fermionic, open systems
- P8: Controlled single-spin sources with time-dependent driving
- P9: Quasiparticle degradation in systems with quadratic band touchings
- P10: Time dynamics in correlated multi-level quantum dots
- P11: Quantifying electronic correlations in many-body wave-functions
- P12: Driven dissipative phase transitions in open quantum systems
- P13: Geometric pumping in driven non-Markovian open systems
- P14: Quantum-information approach to geometric pumping
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Projects 2014 -2018
- P1: Building effective models for correlated electron systems
- P2: Realistic spin models for strongly correlated materials
- P3: FRG extension of the GW approximation
- P4: Topological solitons in chiral magnets
- P5: Edge state correlations with matrix product states
- P6: Large scale simulation of edge magnetism
- P7: Interplay of screening and structure at interfaces of correlated electron systems
- P8: DFT for correlated nanosystems
- P9: Time scales in current-current correlations
- P10: Thermoelectrics of quantum dots
- P11: Spectral densities in non-equilibrium
- P12: Interaction quenches in closed one-dimensional systems
- P13: Quantum dots with time-dependent parameters
- P14: Periodically driven quantum dots
- P15: Quantum transport of many-particle correlations
- P16: Geometric phases and gauge-structure in adiabatically driven open quantum systems
- P17: Exact diagonalization for projected entangled pair states
- P18: Tensor network algorithms
- Publications
- Calendar of Current Events
The Research Training Group
- Who we are
- Principal Researchers
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Team
- PhD students
- Guest researchers
- Postdoctoral researchers
- Master's degree students
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Former members
- Jonas Becker
- Valentin Bruch
- Niklas Dittmann
- Christian Eckhardt
- Katharina Eissing
- Patrick Emonts
- Christoph Friedrich
- Jannis Ehrlich
- Cornelie Gergs
- Jonas Greitemann
- Farideh Hajiheidari
- Stephan Hesselmann
- Lennart Klebl
- Mohsin Iqbal
- Andisheh Khedri
- Michael Kinza
- Christian Kloeckner
- Julian Lichtenstein
- Carsten Lindner
- Yen-Ting Lin
- Maximilian Lohöfer
- Lisa Markhof
- Mathias C.T.D. Müller
- Niclas Müller
- Julian Mußhoff
- Konstantin Nestmann
- Jovan Odavić
- Lara Ortmanns
- Kiryl Piasotski
- Benedikt Placke
- Thilo Plücker
- Timo Reckling
- Viktor Reimer
- Jan Rentrop
- David Sánchez de la Peña
- Giulio Schober
- Henning Schlömer
- Jonas Stapmanns
- Philippe Suchsland
- Michael Voigt
- Lukas Weber
- Feng Xiong
- Qian Zhang
- Guests and Special Events
- Workshops
- Calendar of Current Events