Thin Liquid Crystal Lens with Low Driving Voltages
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概要
- 論文の詳細を見る
A thin liquid crystal (LC) lens of 2.0 mm aperture diameter and less than 1 mm thickness is realized by placing a highly resistive film in an LC cell. Two LC layers of 30 μm thickness are used to achieve a lens power ranging from approximately $-6.5$ to 6.7 m-1. The cell is driven by two voltages under 40 Vrms.
- 2009-09-25
著者
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Ye Mao
Akita Prefectural R&d Center Akita Jpn
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Sato Susumu
Akita Prefecture R&d Center Akita Jpn
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Yamaguchi Maki
Mitsubishi Materials Electronic Chemicals Co., Ltd., 3-1-6 Barajima, Akita 010-8585, Japan
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Wang Bin
Akita Research Institute of Advanced Technology (AIT), Akita Prefectural R&D Center, 4-21 Sanuki, Araya, Akita 010-1623, Japan
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Ye Mao
Akita Industrial Technology Center, Akita 010-1623, Japan
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Wang Bin
Akita Industrial Technology Center, Akita 010-1623, Japan
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Sato Susumu
Akita Industrial Technology Center, Akita 010-1623, Japan
関連論文
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- Wavefront aberrations of a liquid crystal lens with focal length variable from negative to positive values
- Properties of Liquid Crystal Lens with Stacked Structure of Liquid Crystal Layers
- Study of Liquid Crystal Lens with Focus Movable in Focal Plane by Wave Front Analysis
- Liquid Crystal Negative Lens
- Aberration measurements of a liquid crystal lens prepared using a glass lens and liquid crystal layers
- Double-Layer Liquid Crystal Lens
- 3C04 Converting Fixed Focus Lens to Variable-Focus Lens Using Liquid Crystal Layers
- Driving of liquid Crystal Lens without Disclination Occurring by Applying In-Plane Electric Field
- Liquid Crystal Lens With Spherical Electrode
- 3A16 Study of a Novel Liquid Crystal Lens
- Novel Method for Pretilt Angle Measurement Using Liquid Crystal Lens Cell with Hybrid Alignment
- 3D12 Study of the Molecular Alignment and Optical Properties of a Liquid Crystal Lens
- Improvement of Decay Properties of a Liquid Crystal Microlens with a Divided Electrode Structure
- Variable-Focus Liquid Crystal Lenses Used in Imaging Systems as Focusing Elements
- Improvements of Crystal Orientations of Wurtzite-Type GaN Thin Films Grown on Metal Surfaces(Recent Development of Electro-Mechanical Devices (IS-EMD 2002))
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- Reducing Driving Voltages for Liquid Crystal Lens Using Weakly Conductive Thin Film
- Image Formation Using Liquid Crystal Lens
- Simultaneous Detection of an Electric Field and a Small Quantity of Decomposition Products by Use of Several Sensor Heads and OTDR Method
- Improvements of Crystal Orientations of Wurtzite-Type GaN Thin Films Grown on Metal Surfaces
- Transient Properties of a Liquid Crystal Optical Device with an Elliptical Intensity Distribution
- Measurement of Optical Aberrations of Liquid Crystal Lens