Liquid Crystal on Silicon Devices: Modeling and Advanced Spatial Light Modulation Applications

Liquid Crystal on Silicon Devices: Modeling and Advanced Spatial Light Modulation Applications

Liquid Crystal on Silicon (LCoS) has become one of the most widespread technologies for spatial light modulation in optics and photonics applications. These reflective microdisplays are composed of a high-performance silicon complementary metal oxide semiconductor (CMOS) backplane, which controls th...

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Lizana, Ángel
Márquez, Andrés
Year of Publication:2019
Language:English
Physical Description:1 electronic resource (172 p.)
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id 993548155404498
ctrlnum (CKB)4100000010106270
(oapen)https://directory.doabooks.org/handle/20.500.12854/51783
(EXLCZ)994100000010106270
collection bib_alma
record_format marc
spelling Lizana, Ángel auth
Liquid Crystal on Silicon Devices: Modeling and Advanced Spatial Light Modulation Applications
Liquid Crystal on Silicon Devices
MDPI - Multidisciplinary Digital Publishing Institute 2019
1 electronic resource (172 p.)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
Liquid Crystal on Silicon (LCoS) has become one of the most widespread technologies for spatial light modulation in optics and photonics applications. These reflective microdisplays are composed of a high-performance silicon complementary metal oxide semiconductor (CMOS) backplane, which controls the light-modulating properties of the liquid crystal layer. State-of-the-art LCoS microdisplays may exhibit a very small pixel pitch (below 4 ?m), a very large number of pixels (resolutions larger than 4K), and high fill factors (larger than 90%). They modulate illumination sources covering the UV, visible, and far IR. LCoS are used not only as displays but also as polarization, amplitude, and phase-only spatial light modulators, where they achieve full phase modulation. Due to their excellent modulating properties and high degree of flexibility, they are found in all sorts of spatial light modulation applications, such as in LCOS-based display systems for augmented and virtual reality, true holographic displays, digital holography, diffractive optical elements, superresolution optical systems, beam-steering devices, holographic optical traps, and quantum optical computing. In order to fulfil the requirements in this extensive range of applications, specific models and characterization techniques are proposed. These devices may exhibit a number of degradation effects such as interpixel cross-talk and fringing field, and time flicker, which may also depend on the analog or digital backplane of the corresponding LCoS device. The use of appropriate characterization and compensation techniques is then necessary.
English
aberration compensation
holographic and volume memories
achromatic lens
head-up displays
phase characterization
holographic display
spatial resolution
spatial light modulator
zoom lens
soliton
transmission matrix
head-mounted displays
diffraction
parallel-aligned
liquid-crystal on silicon
phase measurement
multimode fiber
digital holography
chromatic aberration
multiorder diffractive lens
holography
phase accuracy
interference
computer generated hologram
optical manipulation
speckle suppression
phase modulation
transparent mode
light scattering
ferroelectric
phase change
liquid-crystal-on-silicon
imaging systems
Liquid Crystal on Silicon display
diffractive optical element
liquid crystals
spatially anamorphic phenomenon
calibration
head-up display
helix-free
phase precision and stability
kinoform
spatial light modulators
photopolymer
diffractive optics
mode division multiplexing
liquid crystal on silicon device
augmented reality displays
holographic data storage
liquid crystal spatial light modulator
harmonic lens
fringing field effect
liquid crystal
3-03921-828-X
Márquez, Andrés auth
language English
format eBook
author Lizana, Ángel
spellingShingle Lizana, Ángel
Liquid Crystal on Silicon Devices: Modeling and Advanced Spatial Light Modulation Applications
author_facet Lizana, Ángel
Márquez, Andrés
author_variant a l al
author2 Márquez, Andrés
author2_variant a m am
author_sort Lizana, Ángel
title Liquid Crystal on Silicon Devices: Modeling and Advanced Spatial Light Modulation Applications
title_full Liquid Crystal on Silicon Devices: Modeling and Advanced Spatial Light Modulation Applications
title_fullStr Liquid Crystal on Silicon Devices: Modeling and Advanced Spatial Light Modulation Applications
title_full_unstemmed Liquid Crystal on Silicon Devices: Modeling and Advanced Spatial Light Modulation Applications
title_auth Liquid Crystal on Silicon Devices: Modeling and Advanced Spatial Light Modulation Applications
title_alt Liquid Crystal on Silicon Devices
title_new Liquid Crystal on Silicon Devices: Modeling and Advanced Spatial Light Modulation Applications
title_sort liquid crystal on silicon devices: modeling and advanced spatial light modulation applications
publisher MDPI - Multidisciplinary Digital Publishing Institute
publishDate 2019
physical 1 electronic resource (172 p.)
isbn 3-03921-829-8
3-03921-828-X
illustrated Not Illustrated
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AT marquezandres liquidcrystalonsilicondevices
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carrierType_str_mv cr
is_hierarchy_title Liquid Crystal on Silicon Devices: Modeling and Advanced Spatial Light Modulation Applications
author2_original_writing_str_mv noLinkedField
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