Jin Matsushima scite author profile

Adopting the new structure of planarization layer on the rough reflector and designing the new optical compensation with large cell gap margin, we developed the wide viewing angle transflective LCD module with our proprietary IPS technology (Super‐Fine‐TFT technology). After measuring the viewing‐angle characteristics, the developed transflective IPS‐LCD is shown to surpass the VA mode in the transmissive performance.

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Two-way multi-view 2-D/3-D display combining LC lens and HVxDP panel using novel pixel arrangement

Matsushima

Ibata

Masumura

et al. 2016

Jnl Soc Info Display

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-We have developed a two-way multi-view 2-D/3-D display combining a liquid crystal lens and horizontally and vertically x times-density pixels (HVxDP) arrangement. The two-way multi-view display features the same display resolution in 2-D and 3-D modes and a quite small color moiré for landscape and portrait, respectively, when using the HVxDP arrangement. In this paper, we realized suitable 3-D properties for achieving a good balance between 3-D moiré and 3-D crosstalk for landscape and portrait by a two-way liquid crystal lens with two kinds of focal lengths for the edge part and the center part of the lens.

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Transflective IPS‐LCD with improved reflective contrast ratio

et al. 2009

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Abstract— In order to improve the reflective contrast ratio of transflective IPS‐LCDs, a novel pixel design for a normally white reflective IPS has been proposed. In this design, the large‐inter‐electrode‐spacing layout using a novel driving method and a double‐layered electrode have effectively reduced the light leakage. By applying these two technologies, a transflective IPS‐LCD has been successfully demonstrated with a high contrast ratio (15:1) in the reflective mode and a wide‐viewing‐angle characteristic in the transmissive mode.

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Jin Matsushima

Spontaneous polarization parallel to the tilt plane in the antiferroelectric chiral smectic-CAphase of liquid crystals as observed by polarized infrared spectroscopy

Transition moment orientation and rotational bias of three carbonyl groups in large polarization FLCs observed by polarized FTIR

L-6: Late-News Paper: Development of the Novel Transflective LCD Module Using Super-Fine-TFT Technology

Two-way multi-view 2-D/3-D display combining LC lens and HVxDP panel using novel pixel arrangement

Transflective IPS‐LCD with improved reflective contrast ratio

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