Andreas Schönleber  –  Teaching

Ongoing and previous courses, University of Bayreuth

Lecture with exercise:
Crystallography in superspace, for master students in physics and doctoral candidates

Lecture: Crystallography in superspace, for master students in physics and doctoral candidates

Lecture: Crystallography in solid-state physics, for master students in physics and doctoral candidates

Lecture: Structural analysis of crystalline matter, for master students in physics and doctoral candidates

Lecture: Crystallography: structure solution, crystal chemistry and aperiodic crystals, for master students in physics and doctoral candidates

Lecture: Basics of crystallography, for bachelor students in physics

Lecture: Crystallography: X-ray diffraction, for bachelor students in physics

Block course: Crystal structure solution and refinement, for master students in experimental geosciences and doctoral candidates

Exercise: Crystallography in superspace, for master students in physics and doctoral candidates

Exercise: Crystallography in solid-state physics, for master students in physics and doctoral candidates

Exercise: Structural analysis of crystalline matter, for master students in physics and doctoral candidates

Exercise: The higher-dimensional superspace approach in crystallography, for master students in physics and doctoral candidates

Exercise: Basics of crystallography, for bachelor students in physics

Exercise: Crystallography for materials science, for bachelor and master students in materials science and engineering technology

Seminar: The higher-dimensional superspace approach, for master students in physics and doctoral candidates

Seminar: Experimental techniques, for bachelor and master students in physics and doctoral candidates

Seminar: Data reduction and data analysis, for bachelor and master students in physics and doctoral candidates

Laboratory course: Advanced crystallography: X-ray diffraction, for master students in physics und IAESTE exchange students

Laboratory course: Advanced physics, for master students in physics
◊ Experiment: Absorption and diffraction of X-rays in solid matter

Laboratory course: Biophysical chemistry, for master students in chemistry and biochemistry
◊ Experiment: X-ray diffraction analysis

Laboratory course: Basics of X-ray diffraction, for bachelor students in physics

Laboratory course: Basic physics, for bachelor students in physics
◊ Experiment: Introduction into the vacuum technology
◊ Experiment: Real gases and liquefaction
◊ Experiment: Magnetic hysteresis, the transformer
◊ Experiment: Moment of inertia, torsion and bending

Laboratory course: Materials science, for bachelor students in materials science
◊ Experiment: Qualitative and quantitative phase analysis
◊ Experiment: Structure analysis

Laboratory course: Basic physics, for bachelor students in materials science and engineering technology
◊ Experiment: Forced oscillations

Laboratory course: Basic physics, for bachelor students in chemistry
◊ Experiment: Impedance, alternating current and alternating voltage
◊ Experiment: Counting statistics and β–spectrum

Laboratory course: Basic physics, for bachelor students in biology
◊ Experiment: Radioactivity and counting statistics

Previous courses, University and EPF Lausanne

Exercise: Crystallography and diffraction, for master students in chemistry and chemical engineering

Exercise: Crystallography I – Structure of condensed matter, for bachelor students in physics

Exercise: Crystallography, for bachelor students in materials science and engineering technology

Laboratory course: Crystallography III, for master students in physics and doctoral candidates
◊ Experiment: Precession camera
◊ Experiment: Single crystal diffractometer with CCD detector
◊ Experiment: Data bases
◊ Experiment: Structure analysis

Laboratory course: Crystallography I – Structure of condensed matter, for bachelor students in physics
◊ Experiment: Diffraction