The process of FLC director reorientation in alternating electric field is considered for the case, when interaction of FLC molecules with the substrates results in portion unwinding of helix structure and domain walls motion. Hysteresis-free electrooptical response as fast as 30/70μs was achieved in FLC cells of 1.0 and 1.3μm thickness at the electric field intensity of 1.0+2.0 V/μm. This result is very important for the practical use of FLC materials in fast active matrix displays.
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机译:当FLC分子与底物的相互作用导致螺旋结构的部分展开和畴壁运动时,考虑了交流电场中FLC导向器重新定向的过程。在1.0 + 2.0 V /μm的电场强度下,在厚度为1.0和1.3μm的FLC单元中,可实现高达30 /70μs的无磁滞电光响应。该结果对于快速有源矩阵显示器中FLC材料的实际使用非常重要。
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