Optical problems in the electrodynamics of gyrotropic media

Abstract: PACS. 64.70J -Liquid-liquid transitions.Abstract. -Phase separation of COz near its critical point is investigated by optical means. In order to prevent the usual strong gravity-driven flows that overwhelm the process, the experiment is performed under reduced gravity. A pattern of interconnected domains of vapour and liquid is observed whose typical scaled wavelength evolves as in density-matched critical binary liquids. In addition, rapid density fluctuations are observed whose origin is unclear.

“…This general form of the eigenstates, as well as the corresponding general form (15) of the dispersion relation, can be naturally described in terms of the analogy discussed in Section II with propagation of ordinary waves in gyrotropic media [23][24][25], but of course this analogy is here of mere academic interest.…”

Planck-scale modifications to electrodynamics characterized by a spacelike symmetry-breaking vector

“…This general form of the eigenstates, as well as the corresponding general form (15) of the dispersion relation, can be naturally described in terms of the analogy discussed in Section II with propagation of ordinary waves in gyrotropic media [23][24][25], but of course this analogy is here of mere academic interest.…”

Planck-scale modifications to electrodynamics characterized by a spacelike symmetry-breaking vector

Specular light scattering from a chiral medium: Unambiguous test of gyrotropic constitutive relations

Large enhancement of chiral asymmetry in light reflection near critical angle