Optical characterization of the in-plane switching effect utilizing multidomain structures

Klausmann, H.; Aratani, Sukekazu; Kondo, K.

doi:10.1063/1.366909

Cited by 28 publications

(16 citation statements)

References 4 publications

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“…The white colour shift can be suppressed by using a multi-domain the driving voltage, while at the same time increasing the response time. However, the increase in the response structure with a chevron-like electrode structure [13,14]. To improve the low brightness of the IPS LCD, Kelly time can be compensated by a proposed optimization of the LC cell design.…”

Section: Introductionmentioning

confidence: 98%

Electrically controlled director slippage over a photosensitive aligning surface; in-plane sliding mode

Andrienko¹,

Barbet²,

Bormann³

et al. 2000

Liquid Crystals

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We have studied the electro-optical characteristics of a homogeneously aligned nematic liquid crystal (LC) with weak planar anchoring of the director at the bounding substrates. By using the in-plane switching (IPS) of the LC which is achieved by an in-plane electric eld, the driving voltage was con rmed to be far less than that of the conventional IPS mode in which both substrates possess strong anchoring characteristics. Moreover, because of the absence of strong subsurface director deformations, the cell could operate optically in the Mauguin regime. Using these features we propose a new type of LC switching mode-in-plane sliding (IPSL) mode. We have realized this mode in a LC cell comprising one reference substrate with strong director anchoring and one substrate covered with photoaligning material with weak anchoring. In order to clarify the switching process, we derived a simpli ed expression for the threshold voltage on the assumption of uniformity of the in-plane electric eld. For the dynamical response of the LC to the in-plane electric eld, the switching on and o relaxation times of the IPSL mode were found to be longer than for the traditional IPS mode. However, we have proposed an optimized cell geometry for the IPSL mode with a response time comparable to that of the IPS mode.

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Section: Introductionmentioning

confidence: 98%

Electrically controlled director slippage over a photosensitive aligning surface; in-plane sliding mode

Andrienko¹,

Barbet²,

Bormann³

et al. 2000

Liquid Crystals

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show abstract

“…4(b), the VT curves are similar to those of the conventional IPS mode, except for a slightly higher on-state voltage (5 V ) and a slightly lower maximum transmittance (27.8%). The % decrease in maximum transmittance is due to the multidomain formation [29], [30], which lowers the effective phase retardation. Fig.…”

Section: B Voltage-dependent Transmittance (Vt)mentioning

confidence: 99%

“…That is to say, the white color shift occurs when changes. Klausmann et al [29] have investigated the color shift problem of a conventional IPS mode and found that for the rotated LC directors with an oblique angle parallel to the optical axis, the maximum value of occurs at a shorter wavelength. That means the intended green color shifts toward blue range.…”

Section: E Bending Angle Effect On Color Shiftmentioning

confidence: 99%

Bending Angle Effects on the Multi-Domain in-Plane-Switching Liquid Crystal Displays

Lü

et al. 2005

J. Display Technol.

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“…In order to eliminate the color shift phenomenon in IPS mode, the multi-domain (MD) IPS LCD has been proposed using the zig-zag shaped electrodes or W-shaped electrodes, where the bending angle of the electrodes are usually at 2-15 [10,11]. In this paper, we investigate the bending angle effect on a MD IPS using the chevron-shaped electrodes through a three-dimensional numerical simulation.…”

Section: Introductionmentioning

confidence: 99%

Wide Viewing Angle Multi-domain In-Plane Switching LCD

Lü

Hong

et al. 2006

Molecular Crystals and Liquid Crystals

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The bending angle effect on a multi-domain in-plane switching liquid crystal display (MD IPS LCD) using the chevron-shaped electrodes is investigated through a three-dimensional simulation. We find that when the bending angle of the electrodes increases from 10 to 40, the threshold voltage is lowered from 1.25 V rms to 0.75 V rms . With the optimized uniaxial compensation films, the viewing angle of the film-compensated MD IPS LCD is widened to AE80 viewing cone while keeping a 100:1 contrast ratio. These outstanding performances are expected to make impact to the flat panel display industry.

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Optical characterization of the in-plane switching effect utilizing multidomain structures

Cited by 28 publications

References 4 publications

Electrically controlled director slippage over a photosensitive aligning surface; in-plane sliding mode

Electrically controlled director slippage over a photosensitive aligning surface; in-plane sliding mode

Bending Angle Effects on the Multi-Domain in-Plane-Switching Liquid Crystal Displays

Wide Viewing Angle Multi-domain In-Plane Switching LCD

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