Photo-polymerization in chiral dopant liquid crystal cells via holographic exposure to fabricate polarization-independent phase modulator with fast optical response

Chun Yu Chien; Pin Kuan Sung; Chia Rong Sheu

doi:10.3390/polym10030315

Photo-polymerization in chiral dopant liquid crystal cells via holographic exposure to fabricate polarization-independent phase modulator with fast optical response

Chun Yu Chien, Pin Kuan Sung, Chia Rong Sheu

Department of Photonics

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Small liquid crystal domains with random director distributions were obtained to show novel optical isotropy using a holographic exposure processes to treat chiral dopant liquid crystal cells in the isotropic phase (i.e., polymer-stabilized isotropic liquid crystal cells). The cells used to fabricate phase modulators showed unique performances, including low light scattering, polarization-independence, and fast optical response. Furthermore, an extra fluoro-surfactant dopant in cells showed that the phase modulators retained their performance but with considerable reduction of operating voltages, from 180 V_rms to 100 V_rms.

Original language	English
Article number	315
Journal	Polymers
Volume	10
Issue number	3
DOIs	https://doi.org/10.3390/polym10030315
Publication status	Published - 2018 Mar 14

All Science Journal Classification (ASJC) codes

General Chemistry
Polymers and Plastics

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10.3390/polym10030315

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title = "Photo-polymerization in chiral dopant liquid crystal cells via holographic exposure to fabricate polarization-independent phase modulator with fast optical response",

abstract = "Small liquid crystal domains with random director distributions were obtained to show novel optical isotropy using a holographic exposure processes to treat chiral dopant liquid crystal cells in the isotropic phase (i.e., polymer-stabilized isotropic liquid crystal cells). The cells used to fabricate phase modulators showed unique performances, including low light scattering, polarization-independence, and fast optical response. Furthermore, an extra fluoro-surfactant dopant in cells showed that the phase modulators retained their performance but with considerable reduction of operating voltages, from 180 Vrms to 100 Vrms.",

author = "Chien, {Chun Yu} and Sung, {Pin Kuan} and Sheu, {Chia Rong}",

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AU - Chien, Chun Yu

AU - Sung, Pin Kuan

AU - Sheu, Chia Rong

PY - 2018/3/14

Y1 - 2018/3/14

N2 - Small liquid crystal domains with random director distributions were obtained to show novel optical isotropy using a holographic exposure processes to treat chiral dopant liquid crystal cells in the isotropic phase (i.e., polymer-stabilized isotropic liquid crystal cells). The cells used to fabricate phase modulators showed unique performances, including low light scattering, polarization-independence, and fast optical response. Furthermore, an extra fluoro-surfactant dopant in cells showed that the phase modulators retained their performance but with considerable reduction of operating voltages, from 180 Vrms to 100 Vrms.

AB - Small liquid crystal domains with random director distributions were obtained to show novel optical isotropy using a holographic exposure processes to treat chiral dopant liquid crystal cells in the isotropic phase (i.e., polymer-stabilized isotropic liquid crystal cells). The cells used to fabricate phase modulators showed unique performances, including low light scattering, polarization-independence, and fast optical response. Furthermore, an extra fluoro-surfactant dopant in cells showed that the phase modulators retained their performance but with considerable reduction of operating voltages, from 180 Vrms to 100 Vrms.

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Photo-polymerization in chiral dopant liquid crystal cells via holographic exposure to fabricate polarization-independent phase modulator with fast optical response

Abstract

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