📝 SummarXiv

Abstract

A Chain of Springs and Masses (CSM) model is used in the interpretation of molecular dynamics (MD) simulations of movement of atoms in FCC crystals, oriented like during typical simulations performed in studies of the dynamics of line dislocations. The proposed description is inspired by and supported by MD simulations. We find out that a force that is perpendicular to the direction of the applied external shear pressure and in the direction of line dislocations occurs within the bulk of crystal volume. The force is of a dynamic origin, and it has not been analyzed so far. It is proportional to the square of the applied pressure; It causes breaking of axial symmetry for propagation of transverse acoustic waves. It leads to a non-linear and non-elastic response of crystals and to chaotic patterns in motion of atoms. We provide an analytical derivation of an effective atomistic potential for interaction between atoms and propose an analytical model of their dynamics. The model predicts some effects that may have been overlooked in experiments and are inconsistent with the static theory of elasticity of crystals.