Mathematical Physics and String Theory
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Teaching During Previous Terms

During previous terms, the following courses have been taught at the LMU by string theory group members:

Winter Term 2024/25

      • String Theory 1: Blumenhagen
      • Conformal Field Theory: Brunner
      • Quantenmechanik plus: Haack
      • Seminar on Theoretical Quantum Computing: Haack & Helling
      • Mathematical Quantum Mechanics: Helling
      • Physics and Geometry: Saberi
      • Seminar on Topics in Supersymmetry: Saberi

Summer Term 2024

      • Topological Quantum Field Theory: Brunner
      • String Theory 2: Dierigl
      • Theoretische Mechanik plus: Haack
      • Instantons and Black Holes: Helling
      • Groups and Lie algebras: Saberi

Winter Term 2023/24

      • Thermodynamics & Statistical Physics: Brunner
      • Seminar on Generalized Symmetries in Quantum Field Theories: Dierigl
      • Quantenmechanik plus: Haack
      • String Theory 1: Helling

Summer Term 2023

      • Lie Groups, Lie Algebras: Brunner
      • Seminar on The Physics of Energy: Brunner
      • String Theory 2: Dierigl
      • Mechanik plus: Haack
      • QCD and Standard Model: Helling
      • Discrete Quantum Gravity: Oriti
      • Seminar on Foundations of Quantum Mechanics: Oriti
      • Supersymmetry: Saberi

Winter Term 2022/23

      • Thermodynamics & Statistical Physics: Brunner/Saberi
      • String Theory 1: Dierigl
      • Thermodynamik & Statistische Physik plus: Haack
      • Differential Geometry: Helling
      • Topological Strings: Mayr
      • Introduction to Quantum Gravity: Oriti
      • Seminar on Interpretation of Quantum Mechanics: Oriti

Summer Term 2022

      • Lie groups and Lie Algebras: Brunner
      • Elektrodynamik plus: Haack
      • Instantons and Black Holes: Helling
      • Physik im Querschnitt: Mayr
      • Tensor models and group field theories: Oriti
      • Seminar on Grundlagen der Quantenmechanik: Oriti
      • Supersymmetry: Saberi

Winter Term 2021/22

      • Grand Unified Theories and Supersymmetry: Blumenhagen
      • Anomalies: Dierigl
      • Thermodynamik & Statistische Physik plus: Haack
      • Physics and Geometry: Helling
      • Seminar on Physics with Mathematica: Helling
      • Seminar on Effective Field Theories: Krippendorf
      • String Theory I: Lüst
      • Classical and Quantum Simulations of Physical Systems: Marinkovic
      • Topological Strings: Mayr
      • Introduction to Quantum Gravity: Oriti
      • Seminar on Interpretation of Quantum Mechanics: Oriti

Summer Term 2021

      • Lie groups, Lie Algebras: Brunner
      • Stringtheory II: Dierigl
      • Elektrodynamik plus: Haack
      • Mathematical Statistical Physics: Jansen , Helling
      • Machine Learning in Fundamental Physics: Krippendorf
      • Supersymmetry: Mayr
      • Introduction to Quantum Gravity: Lüst
      • Tensor models and group field theories for quantum gravity: Oriti
      • Mathematical methods and selected topics in supersymmetry: Saberi

Winter Term 2020/21

      • Grand Unified Theories and Supersymmetry: Blumenhagen
      • Thermodynamics & Statistical Physics: Brunner
      • String Theory I: Helling
      • Seminar on Dualities: Krippendorf
      • Black holes and their Thermodynamics: Lüst
      • Classical and Quantum Simulations of Physical Systems: Marinkovic
      • Thermodynamics and Statistics for Bachelor plus: Mayr
      • Introduction to Quantum Gravity: Oriti
      • Seminar on Interpretation of Quantum Mechanics: Oriti

Summer Term 2020

      • Lie-Groups and Lie-Algebras: Brunner
      • Stringtheorie II: Haack
      • Mathematische Statistische Physik: Jansen / Helling
      • Machine Learning in Fundamental Physics: Krippendorf
      • Topics in Quantum Gravity: Lüst
      • Introduction to Lattice Gauge Theories: Marinkovic
      • Supersymmetry: Mayr
      • Random tensor models and group field theories: Oriti

Winter Term 2019/20

Summer Term 2019

Winter Term 2018/19

Summer Term 2018

Winter Term 2017/18

Summer Term 2017

Winter Term 2016/17

Summer Term 2016

Winter Term 2015/16

Summer Term 2015

Winter Term 2014/15

Summer Term 2014

Winter Term 2013/14

      • Conformal Field Theory - Brunner
      • Introduction to Gauge Gravity/Duality - Erdmenger
      • Group theory - Groot Nibbelink
      • Theoretical Quantum Mechanics for Bachelor Plus / Lehramt Gymnasium - Haack
      • Mathematical Quantum Mechanics - Helling
      • String Theory I - Lüst
      • Statistical Physics for Bachelor Plus / Lehramt Gymnasium - Mayr

Summer Term 2013

      • String Theory II - Brunner
      • Introduction to Theoretical Particle Physics - Groot Nibbelink
      • Theoretical Mechanics for Bachelor Plus / Lehramt Gymnasium - Haack
      • Theoretical Mechanics for Bachelor - Lüst
      • Instantons and Black Holes - Mayr

Winter Term 2012/13

      • Stringtheory I - Groot Nibbelink
      • Quantum Mechanics for Bachelor Plus / Lehramt Gymnasium - Haack
      • Thermodynamics & Statistical Physics for Bachelor Plus / Lehramt Gymnasium - Mayr

Summer Term 2012

      • Supersymmetry - Brunner
      • Stringtheory II - Groot Nibbelink
      • Mechanics for Bachelor Plus / Lehramt Gymnasium - Haack
      • Geometry and Chaos / Mathematical Aspects of Mechanics - Helling
      • Instantons / Black Holes - Mayr

Winter Term 2011/12

      • Thermodynamics & Statistical Physics - Brunner
      • Stringtheory I - Groot Nibbelink
      • Quantum Field Theory - Lüst
      • Quantum Mechanics - Mayr
      • Classical Mechanics - Römelsberger

Summer Term 2011

      • Supersymmetry - Brunner
      • Introduction to Particle Physics - Groot Nibbelink
      • Electrodynamics for Bachelor+ - Haack
      • Instantons/Black Holes - Mayr
      • Electrodynamics for Bachelor - Römelsberger

Winter Term 2010/11

      • Statistical Physics for Bachelor, I. Brunner
      • Mathematical Methods for Bachelor Plus, S. Groot Nibbelink
      • Quantum Mechanics for Bachelor, P. Mayr
      • Quantum Mechanics for Bachelor Plus, M. Haack

Summer Term 2010

      • String Theory II, I. Brunner
      • Lie Groups and Representation Theory, S. Groot Nibbelink
      • Electrodynamics for Bachelor Plus, M. Haack
      • Electrodynamics for Bachelor,  C. Römelsberger

Winter Term 2009/10

      • Quantum Mechanics, G. Curio
      • Statistical Physics, I. Brunner
      • Particle Physics at the Beginning of LHC, D. Luest, G. Dvali
      • String Theory I, M. Haack
      • Conformal Field Theory, C. Römelsberger

Summer Term 2009

      • QCD Standardmodel, G. Curio
      • String Theory II, D. Tsimpis
      • Introduction to Superspace, D. Tsimpis
      • Lie Groups and Representation Theory, R. Helling

Winter Term 2008/09

      • Introduction to Conformal Field Theory, R. Blumenhagen
      • String Theory I, G. Cardoso
      • Quantum Field Theory in Curved Spaces, J. Erdmenger
      • Mathematical Aspects of Quantum Mechanics, R. Helling and L. Erdös

Summer Term 2008

          • Instantons and Black Holes with tutorials, G. Cardoso
          • Quantum Chromo Dynamics with tutorials, G. Curio
          • String Theory II, S. Stieberger

Winter Term 2007/08

          • Introduction to Conformal Field Theory with tutorials, R. Blumenhagen
          • Stringtheory I with tutorials, G. Cardoso
          • Dualities between Quantum Field Theories and Gravitational Theories, J. Erdmenger
          • Introduction to Quantum Field Theory, R. Helling
          • Quantum Mechanics II with tutorials, D. Lüst
          • Quantum Mechanics for Bachelor+ with tutorials, C. Römelsberger

Summer Term 2007

          • Mechanics for Bachelor+ with tutorials, P. Mayr
          • Theoretical Physics for Teachers with tutorials, G. Cardoso
          • Non-perturbative Effects in Gauge Theories and String Theory with tutorials, D. Lüst

Winter Term 2006/07

        • Quantum Mechanics with tutorials, D. Lüst
        • Thermodynamics with tutorials, P. Mayr
        • String Theory II, M. Haack and S. Stieberger
        • Supergravity, M. Zagermann
        • Dualities between Quantum Field Theories and Gravitational Theories, J. Erdmenger