Wavelength Separation on Dielectric Interface Based on Angular and Lateral Displacement
• 2016
Publication Information
Authors
A. Shaaban, M. B. El Mashade, L. R. Gomaa, A. Arafa, M. F. O. Hameed, S. S. A. Obayya
Keywords
BPM, Electromagnetic Optics, Integrated Optics, Optical Demultiplexer, Planar Integrated Optics
Journal
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Publisher
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Volume
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Issue
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Pages
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publication.type
International
Paper Link
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Supplementary Materials
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Abstract
Gaussian light beam
wavelengths separation with planar or
corrugated interfaces is studied using beam
propagation method (BPM). It is found that
the displacement for the reflected beams at
planar interface is larger than the
displacement at the transmitted beams.
However, the separation in the transmitted
beams in corrugated interface is larger than
the reflected fields. Therefore, the suggested
technique can separate the two wavelengths
in different optical paths successfully
wavelengths separation with planar or
corrugated interfaces is studied using beam
propagation method (BPM). It is found that
the displacement for the reflected beams at
planar interface is larger than the
displacement at the transmitted beams.
However, the separation in the transmitted
beams in corrugated interface is larger than
the reflected fields. Therefore, the suggested
technique can separate the two wavelengths
in different optical paths successfully
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