# E. Doctoral Degree Programme in Physics

For the Doctoral Programme in the Natural Sciences (Physics, Code 091411) the following rules apply: courses with at least 12 semester hours must be passed successfully, with at most 4 semester hours taught by the thesis advisor (at most 6 semester hours if the advisor is joint lecturer), at most 6 semester hours of physics laboratory and at most 6 semester hours of seminars. The courses should be related to the scientific discipline of the thesis and will be arranged jointly by the student, the advisor and by the Dean of Studies. After passing, the courses must be listed in the student's score sheet to be signed by the Dean of Studies. Recognition requires concrete contents of the courses taken (rather than general titles like Seminar for Doctoral Students, etc.).In this context, see also the courses in the Third Stage of the Diploma Physics Programme.

260002 VO Introduction to solid state physics (electronic properties) - for students of all semesters

260019 VO Methods of experimental quantum optics

260140 VO Introduction to nuclear physics I

260122 VO [en] Complex Quantum Systems Summerschool - Lectures by international guests with exams by Markus Arndt

260213 SE [en] Quantum Optics Seminar - The Seminar consists of a series of talks, given by mainly international guests.

260320 SE [en] Matrix Product States - Introduction to the formalism of Matrix Product States and discussion of its use in the context of simulation of strongly correlated quantum systems.

260355 SE [en] "Quantum and nanophysics: molecular quantum optics meets foundations/cluster phys/surface science"

260211 PR Laboratory Quantum Optics

260371 VO Quantum Theory and Quantum Information: an Introduction to "Paradoxes" and their Applications

260571 UE Introduction to Effective field theories in elementary particle and collider physics - Exercises

260054 VO [de en] Nonlocality, entanglement and geometry of quantum systems - Nonlocality and Bell inequalities, entanglement witnesses and geometry of composite quantum systems

260352 UE [de en] Nonlocality, entanglement and geometry of quantum systems - Nonlocality and Bell inequalities, entanglement witnesses and geometry of composite quantum systems

260122 VO [en] Complex Quantum Systems Summerschool - Lectures by international guests with exams by Markus Arndt

260144 VO Introduction to Particle Physics

260038 VO Relativity and Cosmology I

260023 UE Relativity and Cosmology I- Exercises

260280 VO Introduction to relativistic cosmology

260030 SE Literature seminar (Gravitation Theory)

260137 SE Selected problems of quantum theory

260213 SE [en] Quantum Optics Seminar - The Seminar consists of a series of talks, given by mainly international guests.

260235 SE Complex Stochastic Systems

260077 VO Computational Physics I: Basics

260016 UE Computational Physics I Problem class

260088 VO Theory of interconnected dynamical systems I - From cellular automata to genetic and artificial neural network models

260022 PR Laboratory Computational Physics

260088 VO Theory of interconnected dynamical systems I - From cellular automata to genetic and artificial neural network models

300196 UE Advanced biophysical laboratory work

260571 UE Introduction to Effective field theories in elementary particle and collider physics - Exercises

260076 VO [de en] Physics of molecular Nanostructures: Fullerenes, Nanotubes, and Graphene - The beauty of instabilities and the influence of basic correlation effects on the properties of molecular nanostructures such as fullerenes, nanotubes und graphene as well as implications on their application potential

260002 VO Introduction to solid state physics (electronic properties) - for students of all semesters

260214 VO Solid State Physics I

260111 UE Solid State Physics I - Exercises

260021 SE Seminar on advanced materials

260035 SE Condensed Matter Theory

260079 SE Scientific publishing and presentation

260377 SE [en] Seminar in low dimensional quantum solids - Seminar on new results on the properties of low dimensional quantum solids such as fullerenes, nanotubes and graphene, high temperature superconductors and optoelectronic materials as well as implications on their application potential

260005 PR Laboratory Solid State Physics: Advanced Materials - Advanced lab course in solid state physics

260020 VO Fundamentals of Materials Physics

260076 VO [de en] Physics of molecular Nanostructures: Fullerenes, Nanotubes, and Graphene - The beauty of instabilities and the influence of basic correlation effects on the properties of molecular nanostructures such as fullerenes, nanotubes und graphene as well as implications on their application potential

260015 SE Seminar on micro- and nanomaterials

260021 SE Seminar on advanced materials

260132 SE Physical materials testing - New methods

260377 SE [en] Seminar in low dimensional quantum solids - Seminar on new results on the properties of low dimensional quantum solids such as fullerenes, nanotubes and graphene, high temperature superconductors and optoelectronic materials as well as implications on their application potential

260060 PR Laboratory course on materials physics

260046 PR Nanocrystalline materials

*Last modified: We 13.06.2018 00:36*