Effect of polymer stabilization on floating-ring-electrode LC lens

Yi Jun Liu, Che Ju Hsu, Chi-Yen Huang

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

Previously, we have established hole-patterned liquid crystal (LC) lens consisted of a floating ring electrode (FRE LC lens). However, while the applied voltage is given across the FRE LC lens, the disclination lines are induced as conventional hole-patterned LC lens, degrading the lens quality. To avoid the appearrance of disclination lines, the polymer stabilization is adopted to construct the FRE LC lens. The polymer stabilized FRE LC lens not only excludes the occurrence of the disclination lines during applied voltages but also preserves optical properties similar to the ordinary FRE LC lens.

Original languageEnglish
Title of host publicationOptical Manipulation Conference
EditorsRyuji Morita, Takashige Omatsu
PublisherSPIE
Volume10252
ISBN (Electronic)9781510610057
DOIs
Publication statusPublished - 2017 Jan 1
EventOptical Manipulation Conference 2017 - Yokohama, Japan
Duration: 2017 Apr 192017 Apr 21

Other

OtherOptical Manipulation Conference 2017
CountryJapan
CityYokohama
Period17-04-1917-04-21

Fingerprint

Liquid Crystals
Liquid Crystal
Liquid crystals
floating
Electrode
Lens
Lenses
Polymers
Stabilization
stabilization
liquid crystals
lenses
Ring
Electrodes
electrodes
rings
polymers
Line
Voltage
Electric potential

All Science Journal Classification (ASJC) codes

  • Electronic, Optical and Magnetic Materials
  • Condensed Matter Physics
  • Computer Science Applications
  • Applied Mathematics
  • Electrical and Electronic Engineering

Cite this

Liu, Y. J., Hsu, C. J., & Huang, C-Y. (2017). Effect of polymer stabilization on floating-ring-electrode LC lens. In R. Morita, & T. Omatsu (Eds.), Optical Manipulation Conference (Vol. 10252). [102521C] SPIE. https://doi.org/10.1117/12.2274766
Liu, Yi Jun ; Hsu, Che Ju ; Huang, Chi-Yen. / Effect of polymer stabilization on floating-ring-electrode LC lens. Optical Manipulation Conference. editor / Ryuji Morita ; Takashige Omatsu. Vol. 10252 SPIE, 2017.
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Liu, YJ, Hsu, CJ & Huang, C-Y 2017, Effect of polymer stabilization on floating-ring-electrode LC lens. in R Morita & T Omatsu (eds), Optical Manipulation Conference. vol. 10252, 102521C, SPIE, Optical Manipulation Conference 2017, Yokohama, Japan, 17-04-19. https://doi.org/10.1117/12.2274766

Effect of polymer stabilization on floating-ring-electrode LC lens. / Liu, Yi Jun; Hsu, Che Ju; Huang, Chi-Yen.

Optical Manipulation Conference. ed. / Ryuji Morita; Takashige Omatsu. Vol. 10252 SPIE, 2017. 102521C.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

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N2 - Previously, we have established hole-patterned liquid crystal (LC) lens consisted of a floating ring electrode (FRE LC lens). However, while the applied voltage is given across the FRE LC lens, the disclination lines are induced as conventional hole-patterned LC lens, degrading the lens quality. To avoid the appearrance of disclination lines, the polymer stabilization is adopted to construct the FRE LC lens. The polymer stabilized FRE LC lens not only excludes the occurrence of the disclination lines during applied voltages but also preserves optical properties similar to the ordinary FRE LC lens.

AB - Previously, we have established hole-patterned liquid crystal (LC) lens consisted of a floating ring electrode (FRE LC lens). However, while the applied voltage is given across the FRE LC lens, the disclination lines are induced as conventional hole-patterned LC lens, degrading the lens quality. To avoid the appearrance of disclination lines, the polymer stabilization is adopted to construct the FRE LC lens. The polymer stabilized FRE LC lens not only excludes the occurrence of the disclination lines during applied voltages but also preserves optical properties similar to the ordinary FRE LC lens.

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Liu YJ, Hsu CJ, Huang C-Y. Effect of polymer stabilization on floating-ring-electrode LC lens. In Morita R, Omatsu T, editors, Optical Manipulation Conference. Vol. 10252. SPIE. 2017. 102521C https://doi.org/10.1117/12.2274766