Absorption Current and Impurity Ions in Nematic Liquid Crystal Cells : Condensed Matter
スポンサーリンク
概要
- 論文の詳細を見る
An absorption current flowing in liquid crystal cells has been measured in order to detect the behavior of impurity ions. The measured current is proportional to t^<-1> for the region in the initial fewseconds. These results agree with the theoretical solution in which the diffusion term in approximation is ignored. The saturated charge density of a surface double layer is about 8.7×10^<-5> C/m^2, which is in the same order as that estimated in a previous paper, 2×10<11> ions/cm^2. The electric double layer model is also demonstrated.
- 社団法人応用物理学会の論文
- 1988-08-20
著者
-
Mada Hitoshi
Department Of Electricity And Electronics System School Of Science And Engineering Teikyo University
-
MADA Hitoshi
Department of Electronic Enginnering, Faculty of Technology, Tokyo University of Agriculture and Technology
-
YOSHINO Shigeru
Department of Electronic Enginnering, Faculty of Technology, Tokyo University of Agriculture and Technology
関連論文
- Reverse Hysteresis Loop of Nematic Liquid Crystals in C-V Characteristic due to Static Electric Field
- Colorimetric Measurement of the WO_3 Electrochromic Display
- Colorimetric Study of Multiplexability for Twisted Nematic Liquid Crystal Displays
- Colorimetric Characteristics of Neutral Polarizers
- Apparent Threshold Characteristics of Pretilted Liquid Crystal Cells
- Anisotropy of the Critical Surface Tension of a Treated Solid Surface and the Liquid Crystal Alignment
- Optical Multiple-Valued Logic Gates : Complement and Literals
- Optical Mullistability by a Liquid Crystal Light Modulator
- Increasing Phenomenon of Abnormal Absorption Current in Liquid Crystal Cells
- Temperature Dependence of Pretilt Angle for Nematic Liquid Crystals
- Temperature Stability of Liquid Crystal Display Operated in FE-TB Mode
- Characteristics of an Acoustooptic Deflection Device Having a Bent Ultrasonic Wavefront
- Absorption Current and Impurity Ions in Nematic Liquid Crystal Cells : Condensed Matter