# E. Doctoral Programme 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.

260131 VO [en] Advanced Module Quantum Optics, Quantum Nanophysics and Quantum Information - Elements of information theory

260059 VO Advanced Module Nuclear and Isotope Physics - Trace isotopes in environment and technology II

260129 SE [en] Advanced Module Quantum Optics, Quantum Nanophysics and Quantum Information - Seminar on Interacting Electrons and Quantum Magnetism

260285 SE Advanced Module Environmental Physics and Biophysics - Introduction to environmental sciences, seminar

260184 SE Seminar: Problems in experimental nuclear and atomic physics and data evaluation II - (for Bachelor-Thesis, Diploma/Master-Thesis, Doctorate Studies)

260135 SE Seminar on experimental particle physics

260057 PR Laboratory Nuclear and Isotope Physics

260013 UE Fourier analysis of magnetic fields II

260236 SE Photonic and molecular coherence

260180 VO [en] Advanced Optics and Quantum Optics - Introduction to concepts of advanced optics. This is a good preparation to all laboratory courses as well as an introduction to photonic quantum computation.

260194 SE [en] Advanced Optics and Quantum Optics - Introduction to concepts of advanced optics. This is a good preparation to all laboratory courses as well as an introduction to photonic quantum computation.

260083 VO Relativity and Cosmology II

260131 VO [en] Advanced Module Quantum Optics, Quantum Nanophysics and Quantum Information - Elements of information theory

260106 VO Particle Physics II

260129 SE [en] Advanced Module Quantum Optics, Quantum Nanophysics and Quantum Information - Seminar on Interacting Electrons and Quantum Magnetism

260130 SE Seminar in special topics in relativity

260137 SE Selected problems of quantum theory

260028 SE Advanced Module Mathematical and Gravitation Physics - Seminar on analytical and numerical problems in gravitation

260143 SE [en] Advanced Module Quantum Optics, Quantum Nanophysics and Quantum Information - Literature studies exploring the interface between quantum physics and biology

260180 VO [en] Advanced Optics and Quantum Optics - Introduction to concepts of advanced optics. This is a good preparation to all laboratory courses as well as an introduction to photonic quantum computation.

260194 SE [en] Advanced Optics and Quantum Optics - Introduction to concepts of advanced optics. This is a good preparation to all laboratory courses as well as an introduction to photonic quantum computation.

260236 SE Photonic and molecular coherence

260262 VO Theory of interconnected dynamical systems II - from cellular automata to genetic and artificial neural network models

260143 SE [en] Advanced Module Quantum Optics, Quantum Nanophysics and Quantum Information - Literature studies exploring the interface between quantum physics and biology

260195 VO Ion beam analysis of materials II

260059 VO Advanced Module Nuclear and Isotope Physics - Trace isotopes in environment and technology II

260262 VO Theory of interconnected dynamical systems II - from cellular automata to genetic and artificial neural network models

260283 VO P 15 Common features of methods in complementary medicine - from scientific and intercultural points of view

260285 SE Advanced Module Environmental Physics and Biophysics - Introduction to environmental sciences, seminar

260111 SE Physics of Physiological Processes

260059 VO Advanced Module Nuclear and Isotope Physics - Trace isotopes in environment and technology II

260195 VO Ion beam analysis of materials II

260132 VO Advanced Module Nuclear and Isotope Physics - Nucleosynthesis in the Laboratory - Selected experiments for studying nuclear astrophysics

260001 SE Advanced Module Nuclear and Isotope Physics - Seminar on current topics in subatomic physics

260112 SE Seminar Nuclear Reactions

260184 SE Seminar: Problems in experimental nuclear and atomic physics and data evaluation II - (for Bachelor-Thesis, Diploma/Master-Thesis, Doctorate Studies)

260057 PR Laboratory Nuclear and Isotope Physics

260105 SE Electron microscopical methods (TEM)

260147 SE Atomic ordering in alloys

260027 SE Experimental materials science - nanostructured materials - Present progress of the Initiative College "Experimental materials science - nanostructured materials"

260229 SE Theory of condensed matter

260197 VO Guest lecture

260195 VO Ion beam analysis of materials II

260027 SE Experimental materials science - nanostructured materials - Present progress of the Initiative College "Experimental materials science - nanostructured materials"

260105 SE Electron microscopical methods (TEM)

260147 SE Atomic ordering in alloys

260015 SE Seminar on micro- and nanomaterials

260229 SE Theory of condensed matter

260197 VO Guest lecture

*Last modified: We 13.06.2018 00:34*