Polarization diffractive elements displayed with liquid crystal spatial light modulators
In this work we present the analysis of polarization diffractive elements, and its experimental realization with a twisted nematic liquid-crystal spatial light modulator. We analyze different spatially variant polarization diffractive elements by an extension of the scalar Fourier optics theory to a...
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Acceso en línea: | http://hdl.handle.net/20.500.12110/paper_0277786X_v6187_n_p_Moreno |
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todo:paper_0277786X_v6187_n_p_Moreno2023-10-03T15:16:35Z Polarization diffractive elements displayed with liquid crystal spatial light modulators Moreno, I. Iemmi, C. Vargas, A. Campos, J. Yzuel, M.J. Fourier optics Jones matrices Liquid crystal display Optical diffractive elements Polarization Approximation theory Fourier optics Light modulation Liquid crystal displays Optical properties Polarization Jones matrices Optical diffractive elements Pupil filters Diffractive optics In this work we present the analysis of polarization diffractive elements, and its experimental realization with a twisted nematic liquid-crystal spatial light modulator. We analyze different spatially variant polarization diffractive elements by an extension of the scalar Fourier optics theory to a vectorial theory based on the Jones matrix formalism. Both the intensity and the local state of polarization distributions in the Fraunhoffer approximation are analyzed. We also present the extension of this formalism to study a polarization / diffractive element with rotational symmetry and we consider a binary polarization pupil filter for an optical system. We describe both the transversal plane and the axial polarization behavior. We show how the response of the optical system can be easily changed from apodizing to superresolving behavior, through the orientation of an analyzer placed behind the pupil. Finally we present the experimental realization of these polarization diffractive elements with a twisted nematic liquid crystal spatial light modulator (TN-SLM). We discuss the required polarization configuration of the display and experimentally demonstrate the polarization / diffraction properties of binary polarization diffractive elements. Experimental realization of the proposed binary polarization pupil filter is also demonstrated by placing the liquid crystal spatial light modulator at the exit pupil of an optical system. Fil:Iemmi, C. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. CONF info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_0277786X_v6187_n_p_Moreno |
institution |
Universidad de Buenos Aires |
institution_str |
I-28 |
repository_str |
R-134 |
collection |
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) |
topic |
Fourier optics Jones matrices Liquid crystal display Optical diffractive elements Polarization Approximation theory Fourier optics Light modulation Liquid crystal displays Optical properties Polarization Jones matrices Optical diffractive elements Pupil filters Diffractive optics |
spellingShingle |
Fourier optics Jones matrices Liquid crystal display Optical diffractive elements Polarization Approximation theory Fourier optics Light modulation Liquid crystal displays Optical properties Polarization Jones matrices Optical diffractive elements Pupil filters Diffractive optics Moreno, I. Iemmi, C. Vargas, A. Campos, J. Yzuel, M.J. Polarization diffractive elements displayed with liquid crystal spatial light modulators |
topic_facet |
Fourier optics Jones matrices Liquid crystal display Optical diffractive elements Polarization Approximation theory Fourier optics Light modulation Liquid crystal displays Optical properties Polarization Jones matrices Optical diffractive elements Pupil filters Diffractive optics |
description |
In this work we present the analysis of polarization diffractive elements, and its experimental realization with a twisted nematic liquid-crystal spatial light modulator. We analyze different spatially variant polarization diffractive elements by an extension of the scalar Fourier optics theory to a vectorial theory based on the Jones matrix formalism. Both the intensity and the local state of polarization distributions in the Fraunhoffer approximation are analyzed. We also present the extension of this formalism to study a polarization / diffractive element with rotational symmetry and we consider a binary polarization pupil filter for an optical system. We describe both the transversal plane and the axial polarization behavior. We show how the response of the optical system can be easily changed from apodizing to superresolving behavior, through the orientation of an analyzer placed behind the pupil. Finally we present the experimental realization of these polarization diffractive elements with a twisted nematic liquid crystal spatial light modulator (TN-SLM). We discuss the required polarization configuration of the display and experimentally demonstrate the polarization / diffraction properties of binary polarization diffractive elements. Experimental realization of the proposed binary polarization pupil filter is also demonstrated by placing the liquid crystal spatial light modulator at the exit pupil of an optical system. |
format |
CONF |
author |
Moreno, I. Iemmi, C. Vargas, A. Campos, J. Yzuel, M.J. |
author_facet |
Moreno, I. Iemmi, C. Vargas, A. Campos, J. Yzuel, M.J. |
author_sort |
Moreno, I. |
title |
Polarization diffractive elements displayed with liquid crystal spatial light modulators |
title_short |
Polarization diffractive elements displayed with liquid crystal spatial light modulators |
title_full |
Polarization diffractive elements displayed with liquid crystal spatial light modulators |
title_fullStr |
Polarization diffractive elements displayed with liquid crystal spatial light modulators |
title_full_unstemmed |
Polarization diffractive elements displayed with liquid crystal spatial light modulators |
title_sort |
polarization diffractive elements displayed with liquid crystal spatial light modulators |
url |
http://hdl.handle.net/20.500.12110/paper_0277786X_v6187_n_p_Moreno |
work_keys_str_mv |
AT morenoi polarizationdiffractiveelementsdisplayedwithliquidcrystalspatiallightmodulators AT iemmic polarizationdiffractiveelementsdisplayedwithliquidcrystalspatiallightmodulators AT vargasa polarizationdiffractiveelementsdisplayedwithliquidcrystalspatiallightmodulators AT camposj polarizationdiffractiveelementsdisplayedwithliquidcrystalspatiallightmodulators AT yzuelmj polarizationdiffractiveelementsdisplayedwithliquidcrystalspatiallightmodulators |
_version_ |
1782030188164415488 |