Journal of the European Optical Society - Rapid publications, Vol 6 (2011)

Characterization of the anamorphic and frequency dependent phenomenon in Liquid Crystal on Silicon displays

L. Lobato, A. Lizana, A. M´arquez, I. Moreno, C. Iemmi, J. Campos, M. J. Yzuel

Abstract


The diffractive efficiency of Liquid Crystal on Silicon (LCoS) displays can be greatly diminished by the appearance of temporal phase fluctuations in the reflected beam, depolarization effects and also because of phase modulation depths smaller than 2Ï€. In order to maximize the efficiency of the Diffractive Optical Elements (DOEs) implemented in the LCoS device, the Minimum Euclidean Distance principle can be applied. However, not all the diffractive elements can be corrected in the same way due to the anamorphic and frequency dependent phenomenon, which is related to the LCoS response, largely dependending on the period and the spatial orientation of the generated DOE. Experimental evidence for the anamorphic and frequency dependent phenomenon is provided in this paper, as well as a comparative study between the efficiency obtained for binary gratings of different periods

© The Authors. All rights reserved. [DOI: 10.2971/jeos.2011.11012s]

Full Text: PDF

Citation Details


Cite this article

References


S. T. Wu, and D. K. Yang, Reflective Liquid Crystal Displays (John Wiley & Sons Inc., Chichester, 2005). [2] J. Turunen, and F. Wyrowski, Diffractive Optics for Industrial and Commercial Applications (Akademie Verlag, Berlin, 1997).

R. Dou, and M. K. Giles, "Closed-loop adaptive optics system with a liquid crystal television as a phase retarder" Opt. Lett. 20, 1583-1585 (1995).

W. Osten, C. Kohler, and J. Liesener, "Evaluation and application of spatial light modulators for optical metrology" Opt. Pura Apl. 38, 71-81 (2005).

A. De Martino, Y. K. Kim, E. Garcia-Caurel, B. Laude and B. Drévillon, "Optimized Mueller polarimeter with liquid crystal" Opt. Lett. 28, 616-618 (2003).

M. Anastasiadou, A. De Martino, D. Clement, F. Liège, B. Laude-Boulesteix, N. Quang, J. Dreyfuss, et. al., "Polarimetric imaging for the diagnosis of cervical cancer" Phys. Status Solidi 5, 5 (2008).

A. Hermerschmidt, S. Osten, S. Krüger, and T. Blümel, "Wave front generation using a phase-only modulating liquid-crystalbased micro-display with HDTV resolution" Proc. SPIE 6584, 65840E (2007).

J. R. Moore, N. Collings, W. A. Crossland, A. B. Davey, M. Evans, A. M. Jeziorska, M. Komar_cevi´c, et. al., "The silicon backplane design for an LCOS polarization-insensitive phase hologram SLM" IEEE Photonic Tech. L. 20, 60-62 (2008).

A. Lizana, I. Moreno, A. Márquez, C. Iemmi, E. Fernández, J. Campos, and M. J. Yzuel, "Time fluctuations of the phase modulation in a liquid crystal on silicon display: characterization and effects in diffractive optics" Opt. Express 16, 16711-16722 (2008).

A. Lizana, I. Moreno, A. Márquez, E. Also, C. Iemmi, J. Campos, and M. J. Yzuel, "Influence of the temporal fluctuations phenomena on the ECB LCoS performance" Proc. SPIE 7442, 74420G-1 (2009).

J. E. Wolfe, and R. A. Chipman, "Polarimetric characterization of liquid-crystal-on-silicon panels" Appl. Opt. 45, 1688-1703 (2006).

A. Lizana, I. Moreno, C. Iemmi, A. Márquez, J. Campos, and M. J. Yzuel, "Time-resolved Mueller matrix analysis of a liquid crystal on silicon display" Appl. Opt. 47, 4267-4274 (2008).

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

I. Moreno, J. Campos, C. Gorecki, and M. J. Yzuel, "Effects of amplitude and phase mismatching errors in the generation of a kinoform for pattern recognition" Jpn. J. Appl. Phys. 34, 6423-6432 (1995).

R. D. Juday, "Optical realizable filters and the minimum Euclidean distance principle" Appl. Opt. 32, 5100-5111 (1993).

R. D. Juday, "Generality of matched filtering and minimum Euclidean distance projection for optical pattern recognition" J. Opt. Soc. Am. A 18, 1882-1896 (2001).

I. Moreno, C. Iemmi, A. Márquez, J. Campos, and M. J. Yzuel,"Modulation light efficiency of diffractive lenses displayed onto a restricted phase-mostly modulation display" Appl. Opt. 43, 6278-6284 (2004).

A. Márquez, C. Iemmi, I. Moreno, J. Campos, and M. J. Yzuel, "Anamorphic and spatial frequency dependent phase modulation on liquid crystal displays. Optimization of the modulation diffraction efficiency" Opt. Express 13, 2111-2119 (2005).

A. Márquez, I. Moreno, C. Iemmi, J. Campos, and M. J. Yzuel, "Electrical origin and compensation for two sources of degradation of the spatial frequency response exhibited by liquid crystal displays" Opt. Eng. 46, 114001, 1-11 (2007).

H. J. Coufal, D. Psaltis, and B. T. Sincerbox, Holographic Data Storage (Springer-Verlag, Berlin, 2000).

M. L. Hsieh, K. Y. Hsu, E. G. Paek, and C. L. Wilson, "Modulation transfer function of a liquid crystal spatial light modulator" Opt. Commun. 170, 221-227 (1999).

M. L. Hsieh, E. G. Paek, C. L. Wilson, and K. Y. Hsu, "Performance enhancement of a joint transform correlator using the directionality of a spatial light modulator" Opt. Eng. 38, 2118-2121 (1999).

P. Grother, and D. Casasent, "Modulation transfer function measurement method for electrically addressed spatial light modulators" Appl. Opt. 40, 5253-5259 (2001).

Z. Zhang, G. Lu, and F. T. S. Yu, "Simple method for measuring phase modulation in liquid crystal televisions" Opt. Eng. 33, 3018-3022 (1994).

J. Reményi, P. Vàrhegyi, L. Domján, P. Koppa, and E. Lörincz, "Amplitude, Phase, and Hybrid Ternary Modulation Modes of a Twisted-Nematic Liquid-Crystal Display at 400 nm" Appl. Opt. 42, 3428-3434 (2003).


Journal of the European Optical Society:Rapid publications - ISSN 1990-2573. JEOS:RP is subject to the EOS General Terms and Conditions.