In a process analogous to how solids melt into liquids, the electrons in many different metals form crystal-like patterns ...

Charge density waves in metals accumulate defects and melt much like physical solids, a behavior that could be harnessed for ...

A long-standing mystery in materials science is beginning to unravel as researchers directly probe the hidden atomic ...

Fundamentals of electron diffraction -- Relation between crystal lattice, stereographic projection and reciprocal lattice -- Indexing polycrystalline and single-crystal patterns -- Orientation ...

What was discovered: Scientists observed that electron crystals in metals can deform and melt like solids, disrupting their ordered patterns. Why it matters: Manipulating these structures could enable ...

For the first time, researchers directly characterized the 3D atomic structure of a relaxor ferroelectric, a class of ...

What is Electron Backscatter Diffraction (EBSD)? Electron backscatter diffraction (EBSD), also known as backscatter Kikuchi diffraction (BKD), is a powerful characterization technique used to analyze ...

Quantum physics once shocked scientists by revealing that particles can behave like waves—and now, that strange behavior has ...

Materials called relaxor ferroelectrics have been used for decades in technologies like ultrasounds, microphones, and sonar ...

In geology, electron backscatter diffraction (EBSD) is a powerful tool for the observation and analysis of microstructures and for phase identification. The EBSD system, by Oxford Instruments, ...