Add to ORKGTheory and principles of the three-dimensional pair distribution function analysis of disordered single crystals are introduced. The mathematical framework is presented and the appearance of pair distribution function patterns is discussed on the examples of some basic disorder models. It is further demonstrated how pair distribution function maps are affected by typical experimental problems. Approaches for a better understanding of such effects and strategies for a proper handing of artifacts in diffuse scattering experiments are propose
The ability of the pair distribution function (PDF) analysis of total scattering (TS) from a powder ...
The pair distribution analysis method is a fast spreading structural analysis method allowing to go ...
Diffuse scattering is a probe of the local correlations in a crystal, whereas Bragg peaks are descri...
Diffuse scattering from a crystal contains valuable information about the two-body correlations (rel...
The atomic pair distribution function (PDF) approach has been used to study the local structure of l...
We explore data reduction and correction steps and processed data reproducibility in the emerging si...
A formal theoretical treatment of X-ray diffraction in disordered crystal with a nearly perfect unit...
Stacking-disordered materials display crystalline order in two dimensions but are disordered along t...
Diffuse scattering probes the local ordering in a crystal, whereas Bragg peaks are descriptive of th...
Crystals of polytypic materials often contain a high concentration of stacking faults giving rise to...
Nanoscale structural characterization is critical to understanding the physical underpinnings of pro...
Significant progress was achieved with the application of Rietveld method to characterize the crysta...
The thesis presented here deals with complex diffuse diffraction patterns. The analysis of disorder ...
It is shown that the diffraction of slow electrons from disordered crystal surfaces is correlated wi...
Over the past five years, the use of pair distribution function (PDF) methods to study local structu...
The ability of the pair distribution function (PDF) analysis of total scattering (TS) from a powder ...
The pair distribution analysis method is a fast spreading structural analysis method allowing to go ...
Diffuse scattering is a probe of the local correlations in a crystal, whereas Bragg peaks are descri...
Diffuse scattering from a crystal contains valuable information about the two-body correlations (rel...
The atomic pair distribution function (PDF) approach has been used to study the local structure of l...
We explore data reduction and correction steps and processed data reproducibility in the emerging si...
A formal theoretical treatment of X-ray diffraction in disordered crystal with a nearly perfect unit...
Stacking-disordered materials display crystalline order in two dimensions but are disordered along t...
Diffuse scattering probes the local ordering in a crystal, whereas Bragg peaks are descriptive of th...
Crystals of polytypic materials often contain a high concentration of stacking faults giving rise to...
Nanoscale structural characterization is critical to understanding the physical underpinnings of pro...
Significant progress was achieved with the application of Rietveld method to characterize the crysta...
The thesis presented here deals with complex diffuse diffraction patterns. The analysis of disorder ...
It is shown that the diffraction of slow electrons from disordered crystal surfaces is correlated wi...
Over the past five years, the use of pair distribution function (PDF) methods to study local structu...
The ability of the pair distribution function (PDF) analysis of total scattering (TS) from a powder ...
The pair distribution analysis method is a fast spreading structural analysis method allowing to go ...
Diffuse scattering is a probe of the local correlations in a crystal, whereas Bragg peaks are descri...