Diffraction imaging is an X-ray imaging method which uses the crystallinity information (cell
parameter, orientation) as a signal to create an image pixel by pixel: a pencil beam is raster …

This review discusses recent progress in the development of hard X-ray microscopy
techniques for materials characterization at the nanoscale. Although the utility of traditionally …

Three dimensional (3D) information of the microstructure organization of various relevant
materials in industry and nature is fundamental to master the understanding of their …

The open-source PyNX toolkit has been extended to provide tools for coherent X-ray
imaging data analysis and simulation. All calculations can be executed on graphical …

X-ray diffraction (XRD) is a powerful nondestructive technique for characterizing crystalline
materials. It provides information on structures, phases, preferred crystal orientations …

X-ray scattering, including coherent, incoherent, and resonance (fluorescent) phenomena, is
of fundamental importance in contemporary science as a tool to probe the structure of matter …

X‐ray diffraction (XRD) analysis identifies the long‐range order (ie, the structure) of
crystalline materials and the short‐range order of non‐crystalline materials. From this …

Three-dimensional (3D) analysis is an essential tool to obtain quantitative results from 3D
datasets. Considerable progress has been made in 3D imaging techniques, resulting in a …

X-ray diffraction (XRD) is an important and widely used material characterization technique.
With the recent development in material science technology and understanding, various …

X-ray computed tomography (XCT) is a powerful 3D imaging technique that has been used
to investigate meteorites, mission-returned samples, and other planetary materials of all …