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Liquid Crystals Volume 35, 2008 - Issue 4
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Original Articles

Effect of magnitude of dielectric anisotropy of a liquid crystal on light efficiency in the fringe‐field switching nematic liquid crystal cell

Je Woo Ryu Polymer BIN Fusion Research Center, School of Advanced Materials Engineering, Chonbuk National University, Chonju, Chonbuk 561‐756, Korea
,
Ji Youn Lee Polymer BIN Fusion Research Center, School of Advanced Materials Engineering, Chonbuk National University, Chonju, Chonbuk 561‐756, Korea
,
Hyang Yul Kim Polymer BIN Fusion Research Center, School of Advanced Materials Engineering, Chonbuk National University, Chonju, Chonbuk 561‐756, Korea
,
Ji Woong Park Polymer BIN Fusion Research Center, School of Advanced Materials Engineering, Chonbuk National University, Chonju, Chonbuk 561‐756, Korea
,
Gi‐Dong Lee Department of Electronics Engineering, Dong‐A University, Pusan 607‐735, Korea
&
Seung Hee Lee Polymer BIN Fusion Research Center, School of Advanced Materials Engineering, Chonbuk National University, Chonju, Chonbuk 561‐756, KoreaCorrespondence[email protected]
Pages 407-411 | Received 02 Dec 2007, Accepted 15 Jan 2008, Published online: 23 May 2008
 
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Abstract

The light efficiency of most well‐known nematic liquid crystal (LC) modes, such as twisted nematic and in‐plane switching, depends only on the cell retardation value, irrespective of the cell gap and dielectric anisotropy of the LC. Interestingly, the light efficiency of a homogenously aligned nematic LC cell driven by a fringe electric field, termed the fringe‐field switching (FFS) mode, is found to be dependent on the magnitude of dielectric anisotropy, such that an LC with high dielectric anisotropy results in lower light efficiency than that of an LC with low dielectric anisotropy.

Acknowledgements

This research was supported by a grant (F0004132) from Information Display R&D Center, one of the 21st Century Frontier R&D Programs funded by the Ministry of Commerce, Industry and Energy of the Korean government and partially supported by Merck Advanced Technology in Korea.

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