As the electrons penetrate the sample surface, they interact with the atomic planes of the crystal lattice, causing some electrons to be backscattered. These backscattered electrons form a diffraction ...

Diffraction patterns were discovered for atoms, but they used gratings much larger than what could be found in crystals, as it was believed the high energy of these atoms would damage crystal ...

Electrons shot through a crystal could be made ... we observe diffraction patterns featuring coherent scattering of up to eight reciprocal lattice vectors. Diffraction in this regime is possible ...

The method can predict the structure directly from powder X-ray diffraction patterns ... make calculations using the "lattice constant," a property of the crystal being investigated.

A multi-dimensional wide-angle X-ray detector then collects numerous diffraction patterns while the battery ... shrinking or swelling of different crystal lattices could be followed instantly ...

It involves the interaction of a beam of electrons with a crystalline sample, resulting in a diffraction pattern ... crystal structure, symmetry, and strain. CBED is highly sensitive to small changes ...