Microparticle manipulation and imaging through a self-calibrated liquid crystal on silicon display

Zhang, H.; Lizana, A.; Van Eeckhout, A.; Turpin, A.; Ramirez, C.; Iemmi, C.; Campos, J.

doi:10.3390/app8112310

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Zhang, H.; Lizana, A.; Van Eeckhout, A.; Turpin, A.; Ramirez, C.; Iemmi, C.; Campos, J. "Microparticle manipulation and imaging through a self-calibrated liquid crystal on silicon display" (2018) Applied Sciences (Switzerland). 8(11)

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Abstract:

We present in this paper a revision of three different methods we conceived in the framework of liquid crystal on silicon (LCoS) display optimization and application.We preliminarily demonstrate an LCoS self-calibration technique, from which we can perform a complete LCoS characterization. In particular, two important characteristics of LCoS displays are retrieved by using self-addressed digital holograms. On the one hand, we determine its phase-voltage curve by using the interference pattern generated by a digital two-sectorial split-lens configuration. On the other hand, the LCoS surface profile is also determined by using a self-addressed dynamicmicro-lens array pattern. Second, the implementation of microparticle manipulation through optical traps created by an LCoS display is demonstrated. Finally, an LCoS display based inline (IL) holographic imaging system is described. By using the LCoS display to implement a double-sideband filter configuration, this inline architecture demonstrates the advantage of obtaining dynamic holographic imaging of microparticles independently of their spatial positions by avoiding the non-desired conjugate images. © 2018 by the authors.

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Documento:	Artículo
Título:	Microparticle manipulation and imaging through a self-calibrated liquid crystal on silicon display
Autor:	Zhang, H.; Lizana, A.; Van Eeckhout, A.; Turpin, A.; Ramirez, C.; Iemmi, C.; Campos, J.
Filiación:	Departamento de Física, Universitat Autònoma de Barcelona, Bellaterra, 08193, Spain Leibniz Institute of Photonic Technology, Albert-Einstein-Straße 9, Jena, 07745, Germany School of Physics and Astronomy, Kelvin Building, University of Glasgow, Glasgow, G12 8QQ, United Kingdom Instituto de Ciencias Aplicadas y Tecnología (ICAT), Universidad Nacional Autónoma de México, Mexico City, 04510, Mexico Departamento de Física, Universidad de Buenos Aires, Consejo Nacional de Investigaciones Científicas y Técnicas, Buenos Aires, 1428, Argentina
Palabras clave:	Calibration; Diffractive optics; Holography; Liquid Crystal on Silicon display; Optical manipulation; Phase modulation
Año:	2018
Volumen:	8
Número:	11
DOI:	http://dx.doi.org/10.3390/app8112310
Título revista:	Applied Sciences (Switzerland)
Título revista abreviado:	Appl. Sci.
ISSN:	20763417
Registro:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_20763417_v8_n11_p_Zhang

Referencias:

Mu, Q., Cao, Z., Hu, L., Li, D., Xuan, L., Adaptive optics imaging system based on a high-resolution liquid crystal on silicon device (2006) Opt. Express, 14, pp. 8013-8018
Fernández, E.J., Prieto, P.M., Artal, P., Wave-aberration control with a liquid crystal on silicon (LCOS) spatial phase modulator (2009) Opt. Express, 17, pp. 11013-11025
Zhang, Z., You, Z., Chu, D., Fundamentals of phase-only liquid crystal on silicon (LCOS) devices (2014) Light Sci. Appl, 3
Matsumoto, N., Itoh, H., Inoue, T., Otsu, T., Toyoda, H., Stable and flexible multiple spot pattern generation using LCOS spatial light modulator (2014) Opt. Express, 22, pp. 24722-24733
Marquez, A., Moreno, I., Iemmi, C., Lizana, A., Campos, J., Yzuel, M.J., Mueller-Stokes characterization and optimization of a liquid crystal on silicon display showing depolarization (2008) Opt. Express, 16, pp. 1669-1685
Ni, J., Wang, C., Zhang, C., Hu, Y., Yang, L., Lao, Z., Xu, B., Chu, J., Three-dimensional chiral microstructures fabricated by structured optical vortices in isotropic material (2017) Light Sci. Appl, 6
Kowalczyk, A.P., Makowski, M., Ducin, I., Sypek, M., Kolodziejczyk, A., Collective matrix of spatial light modulators for increased resolution in holographic image projection (2018) Opt. Express, 26, pp. 17158-17169
Fuentes, J.L.M., Moreno, I., Random technique to encode complex valued holograms with on axis reconstruction onto phase-only displays (2018) Opt. Express, 26, pp. 5875-5893
Vinas, M., Dorronsoro, C., Radhakrishnan, A., Benedi-Garcia, C., Lavilla, E.A., Schwiegerling, J., Marcos, S., Comparison of vision through surfacemodulated and spatial lightmodulatedmultifocal optics (2017) Biomed. Opt. Express, 8, pp. 2055-2068
Qaderi, K., Leach, C., Smalley, D.E., Paired leaky mode spatial light modulators with a 28° total deflection angle (2017) Opt. Lett, 42, pp. 1345-1348
Cheng, Q., Rumley, S., Bahadori, M., Bergman, K., Photonic switching in high performance datacenters [Invited] (2018) Opt. Express, 26, pp. 16022-16043
Lizana, A., Zhang, H., Turpin, A., Van Eeckhout, A., Torres-Ruiz, F.A., Vargas, A., Ramirez, C., Campos, J., Generation of reconfigurable optical traps for microparticles spatial manipulation through dynamic split lens inspired light structures (2018) Sci. Rep, 8, p. 11263
Zhang, H., Lizana, A., Van Eeckhout, A., Turpin, A., Iemmi, C., Márquez, A., Moreno, I., Pi, F., Dynamic microparticle manipulation through light structures generated by a self-calibrated Liquid Crystal on Silicon display (2018) Proc. SPIE
Fuentes, J.L.M., Fernández, E.J., Prieto, P.M., Artal, P., Interferometric method for phase calibration in liquid crystal spatial light modulators using a self-generated diffraction-grating (2016) Opt. Express, 24, pp. 14159-14171
Zhang, H., Lizana, Á., Iemmi, C., Monroy-Ramirez, F.A., Márquez, A., Moreno, I., Campos, J., LCoS display phase self-calibration method based on diffractive lens schemes (2018) Opt. Lasers Eng, 106, pp. 147-154
Zhang, H., Lizana, A., Iemmi, C., Monroy-Ramírez, F.A., Marquez, A., Moreno, I., Campos, J., Self-addressed diffractive lens schemes for the characterization of LCoS displays (2018) Proc. SPIE
Lizana, A., Vargas, A., Turpin, A., Ramirez, C., Estevez, I., Campos, J., Shaping light with split lens configurations (2016) J. Opt, 18
Cofré, A., Vargas, A., Torres-Ruiz, F.A., Campos, J., Lizana, A., Sánchez-López, M.M., Moreno, I., Dual polarization split lenses (2017) Opt. Express, 25, pp. 23773-23783
Lobato, L., Márquez, A., Lizana, A., Moreno, I., Iemmi, C., Campos, J., Characterization of a parallel aligned liquid crystal on silicon and its application on a Shack-Hartmann sensor (2010) Proc. SPIE, 7797, p. 77970Q
Schwiegerling, J., DeHoog, E., Problems testing diffractive intraocular lenses with Shack-Hartmann sensors (2010) Appl. Opt, 49, pp. D62-D68
López-Quesada, C., Andilla, J., Martín-Badosa, E., Correction of aberration in holographic optical tweezers using a Shack-Hartmann sensor (2009) Appl. Opt, 48, pp. 1084-1090
Lizana, A., Moreno, I., Marquez, A., Iemmi, C., Fernandez, E., Campos, J., Yzuel, M.J., Time fluctuations of the phase modulation in a liquid crystal on silicon display: Characterization and effects in diffractive optics (2008) Opt. Express, 16, pp. 16711-16722
Ramírez, C., Lizana, A., Iemmi, C., Campos, J., Method based on the double sideband technique for the dynamic tracking of micrometric particles (2016) J. Opt, 18
Ramirez, C., Lizana, A., Iemmi, C., Campos, J., Inline digital holographic movie based on a double-sideband filter (2015) Opt. Lett, 40, pp. 4142-4145
Jovanovic, O., Photophoresis-Light induced motion of particles suspended in gas (2009) J. Quant. Spectrosc. Radiat. Transf, 110, pp. 889-901
Barry, J.F., McCarron, D.J., Norrgard, E., Steinecker, M.H., DeMille, D., Magneto-optical trapping of a diatomic molecule (2014) Nature, 512, pp. 286-289
Maunz, P., Puppe, T., Schuster, I., Syassen, N., Pinkse, P.W., Rempe, G., Cavity cooling of a single atom (2004) Nature, 428, pp. 50-52
Ashkin, A., Dziedzic, J.M., Yamane, T., Optical trapping and manipulation of single cells using infrared laser beams (1987) Nature, 330, pp. 769-771
Zhang, H., Monroy-Ramírez, A.F., Lizana, A., Iemmi, C., Bennis, N., Morawiak, P., Piecek, W., Campos, J., Wavefront imaging by using an inline holographic microscopy system based on a double-sideband filter (2019) Opt. Lasers Eng, 113, pp. 71-76
Cheng, C., Chern, J., Symmetry property of a generalized billet's n-split lens (2010) Opt. Commun, 283, pp. 3564-3568
Yaroslavsky, L.P., Moreno, A., Campos, J., Frequency responses and resolving power of numerical integration of sampled data (2005) Opt. Express, 13, pp. 2892-2905
Cheng, C., Chern, J., Quasi bessel beam by billet's n-split lens (2010) Opt. Commun, 283, pp. 4892-4898
Cuche, E., Marquet, P., Depeursinge, C., Spatial filtering for zero-order and twin-image elimination in digital off-axis holography (2000) Appl. Opt, 39, pp. 4070-4075
Hong, J., Kim, M.K., Single-shot self-interference incoherent digital holography using off-axis configuration (2013) Opt. Lett, 38, pp. 5196-5199
Meng, H., Hussain, F., In-line recording and off-axis viewing technique for holographic particle velocimetry (1995) Appl. Opt, 34, pp. 1827-1840
Pan, Y.-L., Hill, S.C., Coleman, M., Photophoretic trapping of absorbing particles in air and measurement of their single-particle Raman spectra (2012) Opt. Express, 20, pp. 5325-5334
Zhang, Z., Cannan, D., Liu, J., Zhang, P., Christodoulides, D.N., Chen, Z., Observation of trapping and transporting air-borne absorbing particles with a single optical beam (2012) Opt. Express, 20, pp. 16212-16217
Pedrini, G., Osten, W., Zhang, Y., Wave-front reconstruction from a sequence of inter-ferograms recorded at different planes (2005) Opt. Lett, 30, pp. 833-835
Grilli, S., Ferraro, P., De Nicola, S., Finizio, A., Pierattini, G., Meucci, R., Whole optical wavefields reconstruction by Digital Holography (2001) Opt Express, 9, pp. 294-302

Citas:

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

Zhang, H., Lizana, A., Van Eeckhout, A., Turpin, A., Ramirez, C., Iemmi, C. & Campos, J. (2018) . Microparticle manipulation and imaging through a self-calibrated liquid crystal on silicon display. Applied Sciences (Switzerland), 8(11).
http://dx.doi.org/10.3390/app8112310

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

Zhang, H., Lizana, A., Van Eeckhout, A., Turpin, A., Ramirez, C., Iemmi, C., et al. "Microparticle manipulation and imaging through a self-calibrated liquid crystal on silicon display" . Applied Sciences (Switzerland) 8, no. 11 (2018).
http://dx.doi.org/10.3390/app8112310

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

Zhang, H., Lizana, A., Van Eeckhout, A., Turpin, A., Ramirez, C., Iemmi, C., et al. "Microparticle manipulation and imaging through a self-calibrated liquid crystal on silicon display" . Applied Sciences (Switzerland), vol. 8, no. 11, 2018.
http://dx.doi.org/10.3390/app8112310

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

Zhang, H., Lizana, A., Van Eeckhout, A., Turpin, A., Ramirez, C., Iemmi, C., et al. Microparticle manipulation and imaging through a self-calibrated liquid crystal on silicon display. Appl. Sci. 2018;8(11).
http://dx.doi.org/10.3390/app8112310