Fast switching of silica nanoparticle-doped hybrid aligned nematic device

Chi-Yen Huang; Chien Cheng Lai; Yi Jen Huang; Jian Hong Chen; Heng Cheng Song

Fast switching of silica nanoparticle-doped hybrid aligned nematic device

Chi-Yen Huang, Chien Cheng Lai, Yi Jen Huang, Jian Hong Chen, Heng Cheng Song

Graduate Institute of Photonics

Research output: Contribution to conference › Paper

Abstract

This paper proposes a method to improve the response time of the silica nanoparticle-doped HAN cell. A low-frequency AC pulse voltage driving scheme is effective to accelerate the relaxation of LCs, decreasing the field-off response time of the cell. In the multistage mode, the low-frequency AC pulse voltage gives the cell a fast response time of ∼ 23 ms, which is ∼ 4% of our previous result.

Original language	English
Pages	205-206
Number of pages	2
Publication status	Published - 2010 Dec 1
Event	17th International Display Workshops, IDW'10 - Fukuoka, Japan Duration: 2010 Dec 1 → 2010 Dec 3

Other

Other	17th International Display Workshops, IDW'10
Country	Japan
City	Fukuoka
Period	10-12-01 → 10-12-03

All Science Journal Classification (ASJC) codes

Computer Vision and Pattern Recognition
Human-Computer Interaction

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Huang, C-Y., Lai, C. C., Huang, Y. J., Chen, J. H., & Song, H. C. (2010). Fast switching of silica nanoparticle-doped hybrid aligned nematic device. 205-206. Paper presented at 17th International Display Workshops, IDW'10, Fukuoka, Japan.

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abstract = "This paper proposes a method to improve the response time of the silica nanoparticle-doped HAN cell. A low-frequency AC pulse voltage driving scheme is effective to accelerate the relaxation of LCs, decreasing the field-off response time of the cell. In the multistage mode, the low-frequency AC pulse voltage gives the cell a fast response time of ∼ 23 ms, which is ∼ 4% of our previous result.",

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AB - This paper proposes a method to improve the response time of the silica nanoparticle-doped HAN cell. A low-frequency AC pulse voltage driving scheme is effective to accelerate the relaxation of LCs, decreasing the field-off response time of the cell. In the multistage mode, the low-frequency AC pulse voltage gives the cell a fast response time of ∼ 23 ms, which is ∼ 4% of our previous result.

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