Physics – Optics
Scientific paper
2007-01-18
Phys.Rev.A75:053821,2007
Physics
Optics
18 pages, 3 figures, to appear in Phys. Rev. A
Scientific paper
10.1103/PhysRevA.75.053821
A theory of electromagnetic wave propagation in a weakly anisotropic smoothly inhomogeneous medium is developed, based on the quantum-mechanical diagonalization procedure applied to Maxwell equations. The equations of motion for the translational (ray) and intrinsic (polarization) degrees of freedom are derived ab initio. The ray equations take into account the optical Magnus effect (spin Hall effect of photons) as well as trajectory variations owing to the medium anisotropy. Polarization evolution is described by the precession equation for the Stokes vector. In generic case, the evolution of waves turns out to be non-Abelian: it is accompanied by mutual conversion of the normal modes and periodic oscillations of the ray trajectories analogous to electron zitterbewegung. The general theory is applied to examples of wave evolution in media with circular and linear birefringence.
Bliokh Konstantin Y.
Frolov Dimitry Y.
Kravtsov Yu. A.
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