Spin dynamics from time-dependent spin density-functional theory
arXiv:cond-mat/0108193 · doi:10.1103/PhysRevLett.88.056404
Abstract
We derive the spin-wave dynamics of a magnetic material from the time-dependent spin density functional theory in the linear response regime. The equation of motion for the magnetization includes, besides the static spin stiffness, a "Berry curvature" correction and a damping term. A gradient expansion scheme based on the homogeneous spin-polarized electron gas is proposed for the latter two quantities, and the first few coefficients of the expansion are calculated to second order in the Coulomb interaction.
8 pages, no figures