Prof. Dr. Oliver Mülken

teaching:

[L: lecturer]
[E: supervisior/coordinator of exercises/exams]
[S: supervisor in seminar/term paper]
[T: Teacher]
[l: substitute lecturer]
[e: tutor for students in exercise sessions]

University of Applied Science Northwestern Switzerland - FHNW
  • Spring 2023
    • Analysis II [L,E]
    • Physik II - Elektrodynamik und Optik) (Electrodynamics and Optics) [L,E]
  • Fall 2022
    • Linear Algebra [L,E]
    • Physik I - Mechanik und Wärme (Mechanics and Heat) [L,E]
  • Spring 2022
    • Analysis II [L,E]
    • Statistik und Wahrscheinlichkeitsrechnung (Statistics and Probability Calculus) [L,E]
  • Fall 2021
    • Analysis I [L,E]
    • Statistik und Computeranwendungen (Statistics and Computer Applications) [L,E]
    • Grundlagen Physik (Physical Principles) [L,E]
  • Spring 2021
    • Analysis II [L,E]
    • Statistik und Wahrscheinlichkeitsrechnung (Statistics and Probability Calculus) [L,E]
  • Fall 2020
    • Analysis I [L,E]
    • Grundlagen Physik (Physical Principles) [L,E]
  • Spring 2020
    • Analysis II [L,E]
  • Fall 2019
    • Grundlagen Physik (Physical Principles) [L,E]

Schools
  • School year 2019/2020
    • Mathematics and Physics at Fachmaturitätsschule Basel, CH [T]
  • School year 2018/2019
    • Mathematics and Physics at Scheffel-Gymnasium Lahr [T]
    • Mathematics at Kreisgymnasium Bad Krozingen [T]
    • Mathematics at Städtisches Gymnasium Ettenheim [T]
  • School year 2017/2018
    • Mathematics and Physics at Kepler-Gymnasium Freiburg [T]

University of Freiburg
  • Summer 2017
    • Classical Complex Dynamics [L]
  • Summer 2016
    • Dynamics in Complex Systems [L,E,e]
  • Winter 2015/16
    • Classical Complex Dynamics [L]
    • Selected Topics of Statistical Physics [S]
  • Summer 2015
    • Theoretical Solid State Physics [L,E,e]
    • Modern Aspects in Soft Matter Physics [S]
  • Winter 2014/15
    • Phase Transitions and Critical Phenomena [L,E,e]
    • Vorkurs Mathematik (preparatory course mathematics) [L]
  • Summer 2014
    • parental leave
  • Winter 2013/14
    • Classical Complex Dynamics [L,E,e]
  • Summer 2013
    • Dynamics in Complex Systems [L]
    • Dynamics in Complex Systems and Atomistic Simulations [S]
  • Winter 2012/13
    • Chaos Theory [L]
    • Puzzles of Quantum Mechanics: Theoretical Concepts and Gedanken Experiments [S]
  • Summer 2012
    • Dynamics in Complex Systems [L]
  • Winter 2011/12
    • Theoretical Soft Matter Physics [L]
  • Summer 2011
    • Phase Transitions and Critical Phenomena [L,E,e]
  • Winter 2010/11
    • Chaotic Dynamics [L,E,e]
  • Summer 2010
    • Quantum Noise [L,E,e]
    • Quantum dynamics in mesoscopic systems [S]
  • Winter 2009/10
    • Dynamical processes in physics, chemistry, and biology [L,E,e]
    • Are there quantum effects in biological systems? [S]
  • Summer 2009
    • Phase Transitions and Critical Phenomena [L,E,e]
  • Winter 2008/09
    • Transport processes in complex systems [S]
  • Summer 2008
    • Quantum Mechanics II [E,l]
  • Winter 2007/08
    • Electrodynamics [E,l]
  • Summer 2007
    • Quantum Mechanics I [E,e,l]
  • Winter 2006/07
    • Electrodynamics [e]
  • Summer 2006
    • Quantum Mechanics II [E,l]
  • Winter 2005/06
    • Statistical Physics [E]
  • Summer 2005
    • Quantum Mechanics I [E,l]
    • Theoretical Polymer Physics [l]
    • Dynamical models of complex systems [S]
  • Winter 2004/05
    • Statistical Physics [E,l]
  • Summer 2004
    • Classical Mechanics [E]
    • Macroscopic quantum phenomena [S]

Utrecht University
  • Fall 2003
    • Advanced Classical Mechanics [e]
  • Spring 2002
    • Chaos Theory [e]

University of Oldenburg
  • Winter 1999/2000
    • Mathematical Methods I (linear algebra) [e]
  • Summer 1999
    • Lernzentrum [e]
  • Winter 1998/99
    • Introduction to theoretical physics [e]
  • Summer 1998
    • Lernzentrum (for supporting all students in physics in their studies) [e]
  • Winter 1997/98
    • Mathematical Methods in Physics I (differential equations) [e]