Sub-microsecond X-ray crystallography: Techniques, challenges, and applications for materials science

Dynamics of crystals is a subject of recent interest in solid-state physics and a challenge for modern X-ray crystallography. Time-dependent response of solids to an external perturbation on atomic and microstructural length scales is the key to understanding many physical properties. This paper reviews the challenges and opportunities for probing of sub-micro-, micro-, and millisecond dynamics of solids using the methods of X-ray crystallography. It starts with an overview of recent time-resolved X-ray diffraction techniques. It then focuses on the processes that are important for understanding functional materials: dynamics of ferroelectric and ferroelastic domain patterns, texture in piezoelectric ceramics, mechanical resonances in solids, and dynamics of structural disorder. Knowledge available from macroscopic experiments is summarized, and opportunities for X-ray crystallography to resolve existing controversies are presented. This paper suggests the possible synergy of macroscopic and X-ray crystallographic experimental techniques.