6 - Surface polaritons

Summary

In dealing with magnetic surface modes in Chapters 3 and 4 we found it useful to classify modes, to some extent, by the range of the dominant restoring force. Thus Fig. 4.1 shows that for large enough wavevector |q∥| ≳ 10⁸ m^-1, the short-range exchange forces determine the nature of the surface modes. Over a wide range of intermediate wavevectors, approximately 10⁴ m^-1 < |q∥| < 10⁷ m^-1 the dipole—dipole force is dominant, and the important magnetostatic approximation holds. The properties of the magnetostatic surface modes are found by solving Maxwell's equations without retardation in the presence of the frequency-dependent tensorial magnetic susceptibility χ given by (4.15) to (4.17). Finally, for long-wavelength modes, |q∥| < 10³ m^-1, retardation cannot be neglected, and it is necessary to solve the full form of Maxwell's equations with susceptibility χ. This is the polariton, or electromagnetic, region, discussion of which has been deferred to this chapter.

Most of this chapter is concerned with electromagnetic, or polariton, modes arising from frequency-dispersion in the dielectric function rather than the magnetic susceptibility. The origin of dispersion was discussed in Chapter 5. Generally it results from the presence of a resonant mode carrying a dipole moment, like the optical phonon in a polar crystal.