The minimum Euclidean distance principle applied to improve the modulation diffraction efficiency in digitally controlled spatial light modulators

Lizana, A.; Márquez, A.; Lobato, L.; Rodange, Y.; Moreno, C.; Iemmi; Campos, J.

doi:10.1364/OE.18.010581

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Lizana, A.; Márquez, A.; Lobato, L.; Rodange, Y.; Moreno, C.; Iemmi; Campos, J. "The minimum Euclidean distance principle applied to improve the modulation diffraction efficiency in digitally controlled spatial light modulators" (2010) Optics Express. 18(10):10581-10593

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Abstract:

Digital addressing of the electrical signal in spatial light modulators, as it is the case in present liquid crystal on silicon (LCoS) displays, may lead to temporal phase fluctuations in the optical beam. In diffractive optics applications a reduction in the modulation diffraction efficiency may be expected. Experimental work is done characterizing the fluctuations amplitude and phase depth for three different digital addressing sequences. We propose a diffractive model to evaluate the modulation diffraction efficiency of phase diffractive optical elements (DOEs) in the presence of phase fluctuations. Best results are obtained for the most stable electrical sequence even though its phase depth is as small as 280°. The results show good agreement with the numerical calculation given by the model. © 2010 Optical. Society of America.

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Documento:	Artículo
Título:	The minimum Euclidean distance principle applied to improve the modulation diffraction efficiency in digitally controlled spatial light modulators
Autor:	Lizana, A.; Márquez, A.; Lobato, L.; Rodange, Y.; Moreno, C.; Iemmi; Campos, J.
Filiación:	Dept. de Física, Universitat Autónoma de Barcelona, Bellaterra, Spain Dept. de Física, Ingeniería de Sistemas y Teoría de la Señal, Universidad de Alicante, Alicante, Spain Dept. de Ciencia, de Materiales, Óptica y Tecnología Electrónica, Universidad Miguel Hernández, Elche, Spain Dept. de Física, Fac. de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Buenos Aires, Argentina
Palabras clave:	Diffraction efficiency; Light; Light modulation; Liquid crystals; Electrical signal; Euclidean distance; Liquid-crystal-on-silicon displays; Numerical calculation; Optical beams; Phase fluctuation; Spatial light modulators; Temporal phase; Light modulators; article; computer aided design; equipment; equipment design; instrumentation; optical instrumentation; signal processing; telecommunication; transducer; Computer-Aided Design; Equipment Design; Equipment Failure Analysis; Optical Devices; Signal Processing, Computer-Assisted; Telecommunications; Transducers
Año:	2010
Volumen:	18
Número:	10
Página de inicio:	10581
Página de fin:	10593
DOI:	http://dx.doi.org/10.1364/OE.18.010581
Título revista:	Optics Express
Título revista abreviado:	Opt. Express
ISSN:	10944087
Registro:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_10944087_v18_n10_p10581_Lizana

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Citas:

---------- APA ----------

Lizana, A., Márquez, A., Lobato, L., Rodange, Y., Moreno, C., Iemmi & Campos, J. (2010) . The minimum Euclidean distance principle applied to improve the modulation diffraction efficiency in digitally controlled spatial light modulators. Optics Express, 18(10), 10581-10593.
http://dx.doi.org/10.1364/OE.18.010581

---------- CHICAGO ----------

Lizana, A., Márquez, A., Lobato, L., Rodange, Y., Moreno, C., Iemmi, et al. "The minimum Euclidean distance principle applied to improve the modulation diffraction efficiency in digitally controlled spatial light modulators" . Optics Express 18, no. 10 (2010) : 10581-10593.
http://dx.doi.org/10.1364/OE.18.010581

---------- MLA ----------

Lizana, A., Márquez, A., Lobato, L., Rodange, Y., Moreno, C., Iemmi, et al. "The minimum Euclidean distance principle applied to improve the modulation diffraction efficiency in digitally controlled spatial light modulators" . Optics Express, vol. 18, no. 10, 2010, pp. 10581-10593.
http://dx.doi.org/10.1364/OE.18.010581

---------- VANCOUVER ----------

Lizana, A., Márquez, A., Lobato, L., Rodange, Y., Moreno, C., Iemmi, et al. The minimum Euclidean distance principle applied to improve the modulation diffraction efficiency in digitally controlled spatial light modulators. Opt. Express. 2010;18(10):10581-10593.
http://dx.doi.org/10.1364/OE.18.010581