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Waveguide Liquid Crystal Displays an...

Shin, Yunho.

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Waveguide Liquid Crystal Displays and Optical Diffraction Grating Based on Flexoelectric Liquid Crystals and Polymer Stabilized Liquid Crystals.

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Waveguide Liquid Crystal Displays and Optical Diffraction Grating Based on Flexoelectric Liquid Crystals and Polymer Stabilized Liquid Crystals./
作者:	Shin, Yunho.
出版者:	Ann Arbor : ProQuest Dissertations & Theses, : 2023,
面頁冊數:	179 p.
附註:	Source: Dissertations Abstracts International, Volume: 84-11, Section: B.
Contained By:	Dissertations Abstracts International84-11B.
標題:	Optics. -
電子資源:	https://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=30509714
ISBN:	9798379444211

Waveguide Liquid Crystal Displays and Optical Diffraction Grating Based on Flexoelectric Liquid Crystals and Polymer Stabilized Liquid Crystals.
Shin, Yunho.

Waveguide Liquid Crystal Displays and Optical Diffraction Grating Based on Flexoelectric Liquid Crystals and Polymer Stabilized Liquid Crystals. - Ann Arbor : ProQuest Dissertations & Theses, 2023 - 179 p.

Source: Dissertations Abstracts International, Volume: 84-11, Section: B.

Thesis (Ph.D.)--Kent State University, 2023.

Waveguide liquid crystal display (WLCD) is a newly developed transparent display technology. Since polarizers and color filters are not necessary for the WLCD, high transparency is easily reached. A light-emitting diode (LED) is installed on the edge of the display and the produced light is coupled into the display. When no voltage is applied, the liquid crystal is uniformly aligned and is transparent. The incident light propagates through the display in waveguide mode due to the total internal reflection at the interface between the substrate and air, and no light comes out of the viewing side of the display. The display appears transparent. When a voltage is applied, the liquid crystal is switched to a micrometer-sized polydomain state and becomes scattering. The incident light is scattered out of the waveguide mode and comes out of the viewing side of the display. We developed a few methods to improve the performance of the waveguide display. First, by using patterned photo-polymerization or patterned ITO electrode, the scattering efficiency of the liquid crystal in the voltage-on state is significantly enhanced. Second, the spatial uniformity of the light intensity of the display is significantly improved by the light waveguide plate. Third, we achieved 8 inch full color transparent light waveguide LCD prototype that utilizes field sequential color (FSC) scheme to display full color images. Fourth, we developed a light waveguide LCD based on the flexoelectric effect using dimer, which exhibits high contrast ratio. Lastly, based on the flexoelectric effect we developed a reconfigurable liquid crystal diffraction grating whose diffraction angle and efficiency can be controlled by the applied voltage.The light waveguide liquid crystal transparent display has the merits of high contrast ratio, suitable driving voltage, and a sub-milli second ultrafast response time. It does not use polarizers and color filter as in conventional LCDs. It also has an ultrahigh transmittance near 90% in the voltage-off state. It is very suitable for transparent display, which can be used for head-up display and augmented reality display.

ISBN: 9798379444211Subjects--Topical Terms:

517925
Optics.
Subjects--Index Terms:

Liquid crystal

Waveguide Liquid Crystal Displays and Optical Diffraction Grating Based on Flexoelectric Liquid Crystals and Polymer Stabilized Liquid Crystals.
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520 $a Waveguide liquid crystal display (WLCD) is a newly developed transparent display technology. Since polarizers and color filters are not necessary for the WLCD, high transparency is easily reached. A light-emitting diode (LED) is installed on the edge of the display and the produced light is coupled into the display. When no voltage is applied, the liquid crystal is uniformly aligned and is transparent. The incident light propagates through the display in waveguide mode due to the total internal reflection at the interface between the substrate and air, and no light comes out of the viewing side of the display. The display appears transparent. When a voltage is applied, the liquid crystal is switched to a micrometer-sized polydomain state and becomes scattering. The incident light is scattered out of the waveguide mode and comes out of the viewing side of the display. We developed a few methods to improve the performance of the waveguide display. First, by using patterned photo-polymerization or patterned ITO electrode, the scattering efficiency of the liquid crystal in the voltage-on state is significantly enhanced. Second, the spatial uniformity of the light intensity of the display is significantly improved by the light waveguide plate. Third, we achieved 8 inch full color transparent light waveguide LCD prototype that utilizes field sequential color (FSC) scheme to display full color images. Fourth, we developed a light waveguide LCD based on the flexoelectric effect using dimer, which exhibits high contrast ratio. Lastly, based on the flexoelectric effect we developed a reconfigurable liquid crystal diffraction grating whose diffraction angle and efficiency can be controlled by the applied voltage.The light waveguide liquid crystal transparent display has the merits of high contrast ratio, suitable driving voltage, and a sub-milli second ultrafast response time. It does not use polarizers and color filter as in conventional LCDs. It also has an ultrahigh transmittance near 90% in the voltage-off state. It is very suitable for transparent display, which can be used for head-up display and augmented reality display.
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650 4 $a Physics. $3 516296
650 4 $a Materials science. $3 543314
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653 $a Liquid crystal
653 $a Liquid crystal dimer
653 $a Liquid crystal polymer
653 $a Flexoelectric effect
653 $a Optics
653 $a Liquid crystal display
653 $a Light waveguide
653 $a Polymer stabilized liquid crystals
653 $a Flexible display
653 $a Transparent display
653 $a Liquid crystal diffraction
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690 $a 0605
690 $a 0495
710 2 $a Kent State University. $b College of Arts and Sciences / Materials Science Graduate Program. $3 3700661
773 0 $t Dissertations Abstracts International $g 84-11B.
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791 $a Ph.D.
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793 $a English
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