Diffraction on periodic surface microrelief grating with positive or negative optical anisotropy

Victor V. Belyaev; Victor V. Belyaev; Victor V. Belyaev; Alexey S. Solomatin; Hakob Margaryan; Nune Hakobyan; Sandeep Kumar; Sandeep Kumar; Denis N. Chausov; Denis N. Chausov; Denis N. Chausov; Andrey A. Belyaev; Alexander G. Smirnov; Artem A. Gorbunov

doi:10.1364/AO.397133

Applied Optics
Vol. 59,
Issue 27,
pp. 8443-8449
(2020)
•https://doi.org/10.1364/AO.397133

Diffraction on periodic surface microrelief grating with positive or negative optical anisotropy

Victor V. Belyaev, Alexey S. Solomatin, Hakob Margaryan, Nune Hakobyan, Sandeep Kumar, Denis N. Chausov, Andrey A. Belyaev, Alexander G. Smirnov, and Artem A. Gorbunov

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Victor V. Belyaev, Alexey S. Solomatin, Hakob Margaryan, Nune Hakobyan, Sandeep Kumar, Denis N. Chausov, Andrey A. Belyaev, Alexander G. Smirnov, and Artem A. Gorbunov, "Diffraction on periodic surface microrelief grating with positive or negative optical anisotropy," Appl. Opt. 59, 8443-8449 (2020)

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Abstract

Diffraction optical elements (DOE) are important elements of systems for images displaying and processing. The DOE materials with both positive and negative birefringence enhance performances and functionality of such systems. We have calculated the diffraction of rays passing through optically anisotropic grating with surface microrelief by using our original Exedeep software. At the first time the diffraction parameters for both transmitted and reflected TE- and TM-waves are calculated for materials with both positive and negative optical anisotropy. The simulation results are to be used to create DOE for the visible, UV, IR and THz ranges.

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Applied Optics