Mueller matrix polarimetric imaging analysis of optical components for the generation of cylindrical vector beams

Guadalupe López-Morales; María Del Mar Sánchez-López; Ángel Lizana; Ignacio Moreno; Juan Campos

doi:10.3390/cryst10121155

Mueller matrix polarimetric imaging analysis of optical components for the generation of cylindrical vector beams

Guadalupe López-Morales, María Del Mar Sánchez-López^*, Ángel Lizana, Ignacio Moreno, Juan Campos

^*Autor corresponent d’aquest treball

Departament de Física

Universitat Miguel Hernández (UMH)

Producció científica: Contribució a revista › Article › Recerca › Avaluat per experts

17 Cites (Scopus)

Resum

In this work, we performed a Mueller matrix imaging analysis of two commercial optical components usually employed to generate and manipulate vector beams—a radial polarizer and a liquid-crystal q-plate. These two elements generate vector beams by different polarization mechanisms—polarizance and retardance, respectively. The quality of the vector beams relies on the quality of the device that generates them. Therefore, it is of interest to apply the well-established polarimetric imaging techniques to evaluate these optical components by identifying their spatial homogeneity in diattenuation, polarizance, depolarization, and retardance, as well as the spatial variation of the angles of polarizance and retardance vectors. For this purpose, we applied a customized imaging Mueller matrix polarimeter based on liquid-crystal retarders and a polarization camera. Experimental results were compared to the numerical simulations, considering the theoretical Mueller matrix. This kind of polarimetric characterization could be very helpful to the manufacturers and users of these devices.

Idioma original	Anglès
Número d’article	1155
Pàgines (de-a)	1-18
Nombre de pàgines	18
Revista	Crystals
Volum	10
Número	12
DOIs	https://doi.org/10.3390/cryst10121155
Estat de la publicació	Publicada - de des. 2020

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10.3390/cryst10121155

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Link to publication in Scopus

Desarrollo de instrumentación polarimétrica avanzada para la caracterización de materiales y tejidos; y metrología de superficies por deflectometría
Campos Coloma, J. I. P. (Investigador/a principal), Lizana Tutusaus, A. (Co-Investigador/a Principal), Márquez Ruiz, A. (Investigador/a), Yzuel Gimenez, J. (Investigador/a) & Rodríguez Mangues, C. (Col.laborador/a)
Ministerio de Economía y Competitividad (MINECO), Fons Europeu de Desenvolupament Regional (FEDER)
1/01/19 → 30/06/22
Projecte: Projectes i Ajuts a la Recerca

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@article{04b57fd7edab4454a3d1ab9145cc58d4,

title = "Mueller matrix polarimetric imaging analysis of optical components for the generation of cylindrical vector beams",

abstract = "In this work, we performed a Mueller matrix imaging analysis of two commercial optical components usually employed to generate and manipulate vector beams—a radial polarizer and a liquid-crystal q-plate. These two elements generate vector beams by different polarization mechanisms—polarizance and retardance, respectively. The quality of the vector beams relies on the quality of the device that generates them. Therefore, it is of interest to apply the well-established polarimetric imaging techniques to evaluate these optical components by identifying their spatial homogeneity in diattenuation, polarizance, depolarization, and retardance, as well as the spatial variation of the angles of polarizance and retardance vectors. For this purpose, we applied a customized imaging Mueller matrix polarimeter based on liquid-crystal retarders and a polarization camera. Experimental results were compared to the numerical simulations, considering the theoretical Mueller matrix. This kind of polarimetric characterization could be very helpful to the manufacturers and users of these devices.",

keywords = "Liquid-crystal retarders, Polarimetric camera, Polarimetric imaging, Q-plates, Radial polarizers, Vector beams",

author = "Guadalupe L{\'o}pez-Morales and S{\'a}nchez-L{\'o}pez, \{Mar{\'i}a Del Mar\} and {\'A}ngel Lizana and Ignacio Moreno and Juan Campos",

note = "Publisher Copyright: {\textcopyright} 2020 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2020",

month = dec,

doi = "10.3390/cryst10121155",

language = "English",

volume = "10",

pages = "1--18",

journal = "Crystals",

issn = "2073-4352",

publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",

number = "12",

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TY - JOUR

T1 - Mueller matrix polarimetric imaging analysis of optical components for the generation of cylindrical vector beams

AU - López-Morales, Guadalupe

AU - Sánchez-López, María Del Mar

AU - Lizana, Ángel

AU - Moreno, Ignacio

AU - Campos, Juan

PY - 2020/12

Y1 - 2020/12

N2 - In this work, we performed a Mueller matrix imaging analysis of two commercial optical components usually employed to generate and manipulate vector beams—a radial polarizer and a liquid-crystal q-plate. These two elements generate vector beams by different polarization mechanisms—polarizance and retardance, respectively. The quality of the vector beams relies on the quality of the device that generates them. Therefore, it is of interest to apply the well-established polarimetric imaging techniques to evaluate these optical components by identifying their spatial homogeneity in diattenuation, polarizance, depolarization, and retardance, as well as the spatial variation of the angles of polarizance and retardance vectors. For this purpose, we applied a customized imaging Mueller matrix polarimeter based on liquid-crystal retarders and a polarization camera. Experimental results were compared to the numerical simulations, considering the theoretical Mueller matrix. This kind of polarimetric characterization could be very helpful to the manufacturers and users of these devices.

AB - In this work, we performed a Mueller matrix imaging analysis of two commercial optical components usually employed to generate and manipulate vector beams—a radial polarizer and a liquid-crystal q-plate. These two elements generate vector beams by different polarization mechanisms—polarizance and retardance, respectively. The quality of the vector beams relies on the quality of the device that generates them. Therefore, it is of interest to apply the well-established polarimetric imaging techniques to evaluate these optical components by identifying their spatial homogeneity in diattenuation, polarizance, depolarization, and retardance, as well as the spatial variation of the angles of polarizance and retardance vectors. For this purpose, we applied a customized imaging Mueller matrix polarimeter based on liquid-crystal retarders and a polarization camera. Experimental results were compared to the numerical simulations, considering the theoretical Mueller matrix. This kind of polarimetric characterization could be very helpful to the manufacturers and users of these devices.

KW - Liquid-crystal retarders

KW - Polarimetric camera

KW - Polarimetric imaging

KW - Q-plates

KW - Radial polarizers

KW - Vector beams

UR - https://www.scopus.com/pages/publications/85098109344

U2 - 10.3390/cryst10121155

DO - 10.3390/cryst10121155

M3 - Article

AN - SCOPUS:85098109344

SN - 2073-4352

VL - 10

SP - 1

EP - 18

JO - Crystals

JF - Crystals

IS - 12

M1 - 1155

ER -

Mueller matrix polarimetric imaging analysis of optical components for the generation of cylindrical vector beams

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Desarrollo de instrumentación polarimétrica avanzada para la caracterización de materiales y tejidos; y metrología de superficies por deflectometría

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