Scattering of spin waves by pores in ferrimagnetic materials

Abstract

The differential cross section of spherical pores in ferrimagnetic materials is calculated by using the Born approximation in scattering theory. Using this scattering cross section, the theory is developed for evaluating the wave-vector dependence of the spin-wave linewidth. The wave-vector dependence of the spin-wave linewidth is 1/k in the long-wavelength region and is proportional to k for the short-wavelength region, where k is the wave vector of the spin waves. It is concluded that the spin-wave linewidth is a function of both the number of pores and their radius. Agreement between the theoretical formula and the experimental results is good except in the region of very long wavelength.