A transflective blue‐phase liquid crystal display (TRBP‐LCD) based on fringe in‐plane switching (FIS) electrodes is proposed. The proposed structure generates combined fringe and in‐plane electric fields that cause more liquid crystal (LC) molecules to reorient almost in plane above and between the pixel electrodes. The fringe field is mainly generated in the transmissive (T) region, and the horizontal electric field is mainly generated in the reflective (R) region. By optimizing the width of the pixel electrodes and the gap between two adjacent pixel electrodes, the different electric field intensity in the T and R regions contribute to balance the optical phase retardation between the T and R regions. As a result, the proposed TRBP‐LCD exhibits a low operating voltage and high optical efficiency, while it preserves a relatively simple fabrication process.

中文翻译：

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基于条纹平面内开关电极的单间隙半透反射式蓝相液晶显示器

提出了一种基于条纹面内开关（FIS）电极的透反射式蓝相液晶显示器（TRBP-LCD）。所提出的结构会产生边缘和面内电场的组合，从而导致更多的液晶（LC）分子几乎重新定位在像素电极上方和像素电极之间的平面中。边缘场主要在透射（T）区域中产生，而水平电场主要在反射（R）区域中产生。通过优化像素电极的宽度和两个相邻像素电极之间的间隙，T和R区域中的不同电场强度有助于平衡T和R区域之间的光学相位延迟。结果，建议的TRBP-LCD显示出低工作电压和高光学效率，