Magnon damping in two-dimensional Heisenberg ferromagnetic system

Abstract

A magnon–phonon interaction model is set up for a two-dimensional insulating ferromagnetic system. By using Matsubara function theory we have studied the magnon damping − I m Σ ∗ ( 1 ) ( k → ) and calculated the magnon damping − I m Σ ∗ ( 1 ) ( k → ) curve on the main symmetric point and line in the Brillouin zone for various parameters in the system. It is concluded that at the boundary of Brillouin zone there is a strong magnon damping. However, the magnon damping is very weak on the zone of small wave vector and the magnon damping reaches maximal value at very low temperature. The contributions of longitudinal phonon and transverse phonon on the magnon damping are compared and the influences of various parameters are also discussed.