Number of hours
- Lectures 10.0
- Projects -
- Tutorials 8.0
- Internship -
- Laboratory works -
- Written tests 2.0
ECTS
ECTS 0.4
Goal(s)
Understanding how crystallized condensed matter is described with the direct lattice and its symmetries.
Understanding diffraction processes and the reciprocal lattice.
Study of experimental techniques used in industry
Knowledge of complex exponentials and Fourier transforms
Content(s)
1 Fundamentals
1.1 Production of X-rays and neutrons
1.1.2 Synchrotron radiation spectrum
1.2 Radiation-matter interaction
1.2.2 Ewald Construction and Bragg's Law
1.2.3 Diffracted intensities and structure factor
2 X-ray characterization methods
2.1 Debye-Sherrer Method
2.2 Fluorescence
2.3 Rotating crystal method
Test
EXAM
Calendar
The course exists in the following branches:
- Curriculum - MAT - Semester 7
Additional Information
Course ID : KAMA7M10
Course language(s): 
You can find this course among all other courses.
Bibliography
P. Ducros, Radiocristallographie .
J.P. Eberhart, Méthodes physiques d'étude de minéraux et matériaux solides.
M. Van Meerssche, J. Feneau, Introduction à la Cristallographie 1-