Weeks | Topics |
1 |
X-ray diffractometer: Tools and principles
|
2 |
Properties of X-rays: Electromagnetic radiation, The continous spectrum, The characteristic spectrum
|
3 |
Properties of X-rays: Absorbtion, Filters, Production of X-rays, Detection of X-rays, Safety precautions
|
4 |
Diffraction I. Directions of Diffracted Beams: Diffraction, The Bragg Law
|
5 |
Diffraction II. Intensities of Diffracted Beams: Scattering by an electron, Scattering by an atom, Scattering by a unit cell, Some useful relations
|
6 |
Diffractometer and Spectrometer Measurements: X-ray optics, Counters (Proportional Counters, Geiger Counters, Semicoductor Counters), Pulse-height analysis
|
7 |
Chemical Analysis by X-ray Diffraction. Oualitative and quantitative Analysis: External and internal methods
|
8 |
Midterm
|
9 |
The preparation of oriented and unoriented preparation of geological materials
|
10 |
X-ray Diffractograms: The determination of whole-rock of Geological Materials by X-ray Diffraction
|
11 |
X-ray Diffractograms: The determination of whole-rock of Geological Materials by X-ray Diffraction
|
12 |
X-ray Diffractograms: The determination of clay fraction of polytypes, crystallinity, measurements of b0 parameter by X-ray Diffraction
|
13 |
-ray Diffractograms: The determination of semi-quantative percentages of rock-forming minerals by X-ray Diffraction
|
14 |
X-ray Diffractograms: The determination of semi-quantative percentages of clay minerals by X-ray Diffraction
|