forthcoming articles

Direct derivation of anisotropic atomic displacement parameters is possible using molecular dynamics simulations of supercells at finite temperature.

An algorithm is described to recover super-temporal resolution dynamics of X-ray scattering profiles of photo-excited biomolecules in solution from pump–probe X-ray solution scattering data.

Scanning tables for the layer groups are presented, listing the crystal symmetries for all rational lines in all layer groups (describing monolayer crystals). This has applications for linear defects and domain walls in 2D materials.

We have studied the constraints that the spin group symmetry imposes on the most important crystal tensors, on the basis of a generalization of the Neumann principle to spin point groups. Some examples of real materials are presented, and their tensor forms under the spin and magnetic point groups are compared.

The contradiction between 7 band symmetry groups and 5 uniaxial Curie limit symmetry groups is resolved. There arise 2 more limit symmetry groups with true inversion axes if we change the understanding of the symmetry axis n → ∞.