Dynamic microparticle manipulation through light structures generated by a self-calibrated Liquid Crystal on Silicon display

This paper is devoted to investigating the application of different dynamic light structures generated by a self-calibrated Liquid Crystal on Silicon (LCoS) display for microparticle manipulation. Two major studies based on implementing different DOEs, to thoroughly characterize the LCoS display and...

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Detalles Bibliográficos
Publicado: 2018
Materias:
Calibration
Diffractive optical element
Holographic display
Liquid-crystal devices
Optical trapping
Phase modulation
Diffractive optical elements
Liquid crystal displays
Liquid crystals
Microlenses
Optical image storage
Optical projectors
Particle optics
Silicon
Liquid crystal devices
Liquid-crystal-on-silicon displays
Microparticle manipulations
Optical manipulation
Opticaltrapping
Optimal performance
Particle manipulation
Phase distribution
Holographic displays
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_0277786X_v10677_n_p_Zhang
http://hdl.handle.net/20.500.12110/paper_0277786X_v10677_n_p_Zhang
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_0277786X_v10677_n_p_Zhang
record_format dspace
spelling paper:paper_0277786X_v10677_n_p_Zhang2023-06-08T15:26:09Z Dynamic microparticle manipulation through light structures generated by a self-calibrated Liquid Crystal on Silicon display Calibration Diffractive optical element Holographic display Liquid-crystal devices Optical trapping Phase modulation Calibration Diffractive optical elements Liquid crystal displays Liquid crystals Microlenses Optical image storage Optical projectors Particle optics Phase modulation Silicon Liquid crystal devices Liquid-crystal-on-silicon displays Microparticle manipulations Optical manipulation Opticaltrapping Optimal performance Particle manipulation Phase distribution Holographic displays This paper is devoted to investigating the application of different dynamic light structures generated by a self-calibrated Liquid Crystal on Silicon (LCoS) display for microparticle manipulation. Two major studies based on implementing different DOEs, to thoroughly characterize the LCoS display and to achieve optical-inspired particle manipulation, are proposed, respectively. On the one hand, we dynamically introduced two diffractive lens based patterns (the Billet-lens configuration and the micro-lens array pattern) on the LCoS display, from which the self-calibration of the studied device is implemented. In this case, both the phase-voltage relation and the surface profile were determined and optimized to the optimal performance for microparticle manipulation. On the other hand, we performed the optical manipulation of microparticles by addressing configurable three-dimensional light structures obtained from different phase driven split-lens configurations initiated by the same but optimized LCoS display. Experimental results demonstrated that, by addressing certain phase distributions on the LCoS display, the microparticle can be trapped in the light cones and manipulated by providing certain continuous split-lens configurations. © COPYRIGHT SPIE. Downloading of the abstract is permitted for personal use only. 2018 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_0277786X_v10677_n_p_Zhang http://hdl.handle.net/20.500.12110/paper_0277786X_v10677_n_p_Zhang
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Calibration
Diffractive optical element
Holographic display
Liquid-crystal devices
Optical trapping
Phase modulation
Calibration
Diffractive optical elements
Liquid crystal displays
Liquid crystals
Microlenses
Optical image storage
Optical projectors
Particle optics
Phase modulation
Silicon
Liquid crystal devices
Liquid-crystal-on-silicon displays
Microparticle manipulations
Optical manipulation
Opticaltrapping
Optimal performance
Particle manipulation
Phase distribution
Holographic displays
spellingShingle Calibration
Diffractive optical element
Holographic display
Liquid-crystal devices
Optical trapping
Phase modulation
Calibration
Diffractive optical elements
Liquid crystal displays
Liquid crystals
Microlenses
Optical image storage
Optical projectors
Particle optics
Phase modulation
Silicon
Liquid crystal devices
Liquid-crystal-on-silicon displays
Microparticle manipulations
Optical manipulation
Opticaltrapping
Optimal performance
Particle manipulation
Phase distribution
Holographic displays
Dynamic microparticle manipulation through light structures generated by a self-calibrated Liquid Crystal on Silicon display
topic_facet Calibration
Diffractive optical element
Holographic display
Liquid-crystal devices
Optical trapping
Phase modulation
Calibration
Diffractive optical elements
Liquid crystal displays
Liquid crystals
Microlenses
Optical image storage
Optical projectors
Particle optics
Phase modulation
Silicon
Liquid crystal devices
Liquid-crystal-on-silicon displays
Microparticle manipulations
Optical manipulation
Opticaltrapping
Optimal performance
Particle manipulation
Phase distribution
Holographic displays
description This paper is devoted to investigating the application of different dynamic light structures generated by a self-calibrated Liquid Crystal on Silicon (LCoS) display for microparticle manipulation. Two major studies based on implementing different DOEs, to thoroughly characterize the LCoS display and to achieve optical-inspired particle manipulation, are proposed, respectively. On the one hand, we dynamically introduced two diffractive lens based patterns (the Billet-lens configuration and the micro-lens array pattern) on the LCoS display, from which the self-calibration of the studied device is implemented. In this case, both the phase-voltage relation and the surface profile were determined and optimized to the optimal performance for microparticle manipulation. On the other hand, we performed the optical manipulation of microparticles by addressing configurable three-dimensional light structures obtained from different phase driven split-lens configurations initiated by the same but optimized LCoS display. Experimental results demonstrated that, by addressing certain phase distributions on the LCoS display, the microparticle can be trapped in the light cones and manipulated by providing certain continuous split-lens configurations. © COPYRIGHT SPIE. Downloading of the abstract is permitted for personal use only.
title Dynamic microparticle manipulation through light structures generated by a self-calibrated Liquid Crystal on Silicon display
title_short Dynamic microparticle manipulation through light structures generated by a self-calibrated Liquid Crystal on Silicon display
title_full Dynamic microparticle manipulation through light structures generated by a self-calibrated Liquid Crystal on Silicon display
title_fullStr Dynamic microparticle manipulation through light structures generated by a self-calibrated Liquid Crystal on Silicon display
title_full_unstemmed Dynamic microparticle manipulation through light structures generated by a self-calibrated Liquid Crystal on Silicon display
title_sort dynamic microparticle manipulation through light structures generated by a self-calibrated liquid crystal on silicon display
publishDate 2018
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_0277786X_v10677_n_p_Zhang
http://hdl.handle.net/20.500.12110/paper_0277786X_v10677_n_p_Zhang
_version_ 1768545464078041088

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