In this study, electrospun microfibers (MFs) were produced and used as key materials to optimize the composite with liquid crystal (LC) for terahertz (THz) wave phase shifters. These MFs, with an average diameter of 1.4 μm, were produced using the polymer solution concentration of 14 wt% and spinning voltage of 13 kV. When MFs were combined with LC, the measured results of the electrical characteristics showed that 14 wt% MFs provided an outstanding solution to the problem of a significant reduction in the natural birefringence of pure LC. The birefringence in the THz frequency range of the composite using 14 wt% MFs approached 90% compared with that using pure LC. Additionally, the decay time drastically shortened from hundreds of seconds for pure LC to hundreds of milliseconds for MF/LC composite and was independent of device thickness.
We report refraction-type non-mechanical beam steering using a 100-μm-thick swelling liquid crystal gel film with a polymer concentration gradient, in which an electrically-induced, large refractive index gradient along the uniaxial direction causes the deviation of a laser beam incident perpendicularly to the LC gel film. The swelling LC gel film is fabricated by polymerizing a LC-monomer/LC mixture while cooling it at a low temperature of -20 °C, and exhibits a short decay response time on the order of tens of microseconds. Thus, our device demonstrates non-mechanical beam steering with scan rate greater than 1 kHz.
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