亚兆赫兹范围的液晶光电调制器

IF 0.3 Q4 CRYSTALLOGRAPHY
E. Pozhidaev, A. V. Kuznetsov, A. Kaznacheev, S. Torgova, T. Tkachenko
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引用次数: 0

摘要

我们开发了一种液晶(LC)电光调制器,其电光响应时间可达 400 纳秒,调制频率可达 500 千赫。我们获得的铁电液晶 FLC-576 被用作调制器的电光介质。其螺旋间距 р0 远小于可见光波长(р0 < 100 nm)。在电场作用下,液晶以变形螺旋铁电模式(DHF 效应)运行。控制电场小于螺旋收卷的临界电场。在高频率的控制电压下(超过 10 kHz),FLC 的再极化电流会使电光电池发热,达到从铁电相转变为副电相的温度,从而导致电光调制停止。这项工作从实验和理论上研究了电光调制器的自热问题,这取决于液晶层的厚度、频率和外加电场的强度。已经确定了液晶电池的散热条件,并在实验中加以实施。在这些条件下,液晶处于共晶 C* 铁电相温度范围内,这是在亚兆赫次谐波中提供电光调制所必需的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Liquid Crystalline Electro-Optical Modulator of Submegahertz Range
A liquid crystalline (LC) electro-optical modulator providing an electro-optical response time up to 400 nanoseconds with a modulation frequency up to 500 kHz has been developed. The ferroelectric liquid crystal FLC-576 obtained by us was used as the electro-optical medium of the modulator. Its helix pitch р0 is much smaller than wavelengths of visible light (р0 < 100 nm). The liquid crystal operates in the deformed helix ferroelectric mode (DHF-effect) under the action of electric fields. The controlling electric fields are less than a critical field of helix unwinding. At high frequencies of the control voltage (over 10 kHz), the heating of electro-optical cell by repolarization currents of FLC can occur up to the temperature of phase transition from ferroelectric to paraelectric phase, which leads to the cessation of electro-optical modulation. The work experimentally and theoretically examines the self-heating issues of electro-optical modulators depending on the liquid crystal layer thickness, frequency and strength of applied electric field. The heat removal conditions from the liquid crystal cell have been determined and experimentally implemented. Under these conditions the LC is in the smectic C* ferroelectric phase temperature range, which is necessary to provide electro-optical modulation in submegaherts diapason.
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来源期刊
CiteScore
1.30
自引率
40.00%
发文量
30
期刊介绍: The Journal presents the following main directions of creation/construction, study and application of self-assembled materials: SYNTHESIS, STRUCTURE, PROPERTIES, MEDICINE, BIOLOGY, NANOTECHNOLOGY, SENSORS, PRACTICAL APPLICATION and INFORMATION. The journal is addressed to researchers, lecturers, university students, engineers. The publisher of the journal is the Nanomaterials Research Institute of "Ivanovo State University".
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