Ultrasonic and optical examination of doped liquid crystal under an applied external field

2020 ELEKTRO Pub Date : 2020-05-01 DOI:10.1109/ELEKTRO49696.2020.9130323
Marek Veveričík, P. Bury, P. Kopčanský, M. Timko, Š. Hardoň
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Abstract

Ultrasonic and optical measurements are used to investigate structural changes in liquid crystal (LC) doped with magnetic Fe3O4 nanorods. These are dispersed in the host in various concentrations. Such structural changes are observed under applied electric and magnetic fields. The investigation methods include acoustic attenuation measurements of surface acoustic waves (SAW) and optical transmission measurements using a laser light beam with linear polarization (532 nm) propagating through the sample. These methods are utilized to understand the system response on the applied external field (increasing/decreasing application) as well as change after step change. Experimental data obtained from both methods are compared to show supplementary effectivity of measurements, the stability of the suspension, and switching behavior.
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外加磁场下掺杂液晶的超声和光学检测
采用超声和光学测量方法研究了掺杂磁性Fe3O4纳米棒后液晶的结构变化。它们以不同的浓度分散在宿主体内。这种结构变化是在外加电场和磁场作用下观察到的。研究方法包括表面声波(SAW)的声衰减测量和使用线偏振(532 nm)激光光束通过样品传播的光透射测量。这些方法用于了解系统在外加场(增加/减少应用)上的响应以及阶跃变化后的变化。比较了两种方法获得的实验数据,证明了测量的补充有效性、悬架的稳定性和切换行为。
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2020 ELEKTRO
2020 ELEKTRO
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