The phonon dispersion of chromium has been investigated over a large temperature range. Besides an overall decrease in the phonon frequencies the L2/3(111) mode and the ${\mathit{T}}_1$[ξξ0] branch exhibit a remarkable softening with increasing temperature. The analysis in terms of a Born–von Kármán force-constant model assuming axial symmetry yields dominating second-nearest-neighbor force constants. Their variation with temperature causes the observed phonon softening. A comparison with other transition metals shows a systematic softening of the shear motion of [111] rows against each other with decreasing d-electron density.

• Received 23 April 1992

DOI:https://doi.org/10.1103/PhysRevB.47.3132