Author(s)

Alfred Wünsche

Institut für Physik, Humboldt-Universität, Berlin, Germany.

Two concepts of phenomenological optics of homogeneous, anisotropic and dispersive media are compared, the younger and more general concept of media with spatial dispersion and the older concept of (bi)-anisotropic media with material tensors for electric and magnetic induction which only depend on the frequency. The general algebraic form of the polarization vectors for the electric field and their one-dimensional projection operators is discussed without the degenerate cases of optic axis for which they become two-dimensional projection operators. Group velocity and diffraction coefficients in an approximate equation for the slowly varying amplitudes of beam solutions are calculated. As special case a polariton permittivity for isotropic media with frequency dispersion but without losses is discussed for the usual passive case and for the active case (occupation inversion of two energy levels that goes in direction of laser theory) and the group velocity is calculated. For this active case, regions of frequency and wave vector with group velocities greater than that of light in vacuum were found. This is not fully understood and due to large diffraction is likely only to realize in guided resonator form. The notion of “negative refraction” is shortly discussed but we did not find agreement with its assessment in the original paper.

Spatial and Frequency Dispersion, Bi-Anisotropic Media, Uniaxial Media, Passive and Active Media, Negative Refraction, Operator Invariants, Complementary Operator, Group Velocity

Wünsche, A. (2022) Two Concepts in Optics of Anisotropic Dispersive Media and Polariton Case in Coordinate-Invariant Way. Journal of Modern Physics, 13, 574-619. doi: 10.4236/jmp.2022.134035.