Lateral Refraction and Reflection of Polarized Light in Lenses. Lens Coplanar System and Application.
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Author(s)
Abstract
When linearly polarized light impinging on a lens, it will reflect and refract along the lines curves resulting from the interception of a plane (plane of polarization) with a sphere (lens surface) maintaining the orientation of refraction and reflection within the plane of polarization. This effect is significant only looking at the lens laterally. Therefore, a lens acts as a lateral analyzer when the polarization plane of polarized light incident on the lens is rotated. Following this principle that in the spherical surface of a lens fit n circles of radius r, where n is inversely proportional to r, and each circle is a lens itself. Then if a beam of light is shined in one of these areas, the phenomenon is expressed lateral side and diametrically opposite to where the incident linearly polarized light, the lens acting as a waveguide for the light beam polarized.
Keywords
Polarization, Optic, Lens, Measurement
Cite this paper
Miranda Díaz Lázaro J.,
Lateral Refraction and Reflection of Polarized Light in Lenses. Lens Coplanar System and Application.
, SCIREA Journal of Physics.
Volume 3, Issue 1, February 2018 | PP. 52-65.
References
[ 1 ] | G.S. Landsberg, Optic, First Book, MIR, (1976), Light Polarization 395-414 |
[ 2 ] | E. Hecht, Optics, Fourth Edition, 6 Geometrical Optics, 5.1Lens, 150-170, 8 Polarization, 325- 378 |
[ 3 ] | Miranda Díaz L.J., Invention Author Certificate, CU 23333 A1, EQUIPO DE POLARIMETRÍA Y MEDICIÓN DE ABSORCIÓN, 2008.12.24 |