
Accession Number : AD0846254
Title : Theory of Gyrotropic Birefringence,
Corporate Author : WEIZMANN INST OF SCIENCE REHOVOT (ISRAEL) DEPT OF ELECTRONICS
Personal Author(s) : Hornreich, R. ; Shtrikman, S.
Report Date : SEP 1967
Pagination or Media Count : 35
Abstract : A theoretical treatment of the optical effect known as gyrotropic or nonreciprocal birefringence is presented. By suitably renormalizing the electric dipole moment tensor, it is shown, for the case of lossless media, that 10 of the 18 independent quantities in the gyrotropic birefringence tensor have their origin in electric quadrupole effects. The other eight are shown to be related to the magnetoelectric effect. The general results are applied to the materials Cr2O3 and MnTiO3. The propagation of a plane wave along one of the crystalline axes of Cr2O3 is then considered. It is shown that the gyrotropic birefringence exhibits itself as a rotation of the principal optic axes, together with a change in the velocity of propagation of the wave in the medium. Next, the modified boundary conditions corresponding to the renormalized field vectors are given and the case of a plane wave normally incident on a gyrotropically birefringent medium is discussed. It is noted that the field relations at a boundary will be modified even when the quadrupole contribution vanishes and the magnetoelectric tensor is isotropic, a case in which there is no gyrotropic birefringence in the medium itself. Finally, a quantum mechanical calculation of the gyrotropic birefringence tensor at 0K is given. The general expression obtained is applied to the case of Cr2O3 and the electric quadrupole and magnetoelectric contributions are separated. It is roughly estimated that the electric quadrupole induced rotation of the principal optic axes of Cr2O3 is of the order of 10 to the 6th power radians and the magnetoelectric induced shift is two orders of magnitude less. (Author)
Descriptors : (*BIREFRINGENCE, TENSOR ANALYSIS), ELECTRIC MOMENTS, DIPOLE MOMENTS, ROTATION, QUANTUM THEORY, CHROMIUM COMPOUNDS, OXIDES, PERMEABILITY(MAGNETIC).
Subject Categories : Optics
Distribution Statement : APPROVED FOR PUBLIC RELEASE