Structural analysis techniques in solid state physics  

• X-ray diffraction for structure determination of crystalline materials: fundamentals, practical use, indexing, phase identification, and pole figure measurements for texture analysis • Total scattering of X-rays and analysis of the pair distribution function (PDF) for nanostructured and amorphous materials • Small angle scattering (SAXS) for obtaining structure information on the nanoscale • EXAFS (Extended X-ray absorption fine structure) for determining the local structure of an atom in crystalline as well as amorphous materials • Computed tomography with a focus on X-ray CT: micro-CT, reconstruction, visualization and analysis of 3D images, and applications • EPR (Electron paramagnetic resonance) and ENDOR (Electron nuclear double resonance) for the study of defects using magnetic resonance • Seminars on selected modern techniques for structural analysis: student seminar on a selected topic. Final competences: 1 Apply advanced knowledge of theories, models, methods, techniques, processes and applications in materials research to analyze and solve complex problems. 2 Analyze, evaluate and structurally synthesize information from scientific literature on experimental solid state physics. 3 Show a professional attitude which is a sign of openness to new scientific developments and their applications in a broad scientific, economic or social context. 4 Present personal research, ideas, thoughts, views or proposals appropriately orally or in writing, both in Dutch and English.
Presential
English
Structural analysis techniques in solid state physics
English

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