Magneto-Optical Properties of Ultrasonic Light Diffraction in Glasses
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概要
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The polarization properties of ultrasonic light diffraction in glasses (FR5) under a magnetic field are studied both experimentally and theoretically. When the incident light is linearly polarized, the polarization azimuth of the Diffracted light is measured as a function of the magnetic field and the polarization azimuth of incidence. In the case of a transverse acoustic wave, the polarization azimuth of diffraction is independent of the magnetic field. In the case of a longitudinal acoustic wave, the polarization azimuth of diffraction rotates with increasing magnetic field, but the rotation angle differs from theFaraday rotation and depends on the polarization azimuth of incidence. Theoretical expressions for the polarization states of the diffracted light are derived from Maxwell's equations for a gyrotropic dielectric tensor. Good agreement is obtained between the experimental and theoretical results.
- 社団法人応用物理学会の論文
- 1978-07-05
著者
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Yoshino Toshihiko
Institute Of Industrial Science University Of Tokyo
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Yoshino Toshihiko
Instisute Of Industrial Science University Of Tokyo
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