Science, Space and Technology News 2024
Innovative research led by Professor Daping Chu has produced a liquid crystal-based dielectric metasurface, reducing manufacturing complexities and improving optical device performance, with significant implications for future liquid crystal technologies. Credit: SciTechDaily.com
In this study, Professor Daping Chu’s team at the University of Cambridge developed a novel liquid crystal-based tunable dielectric metasurface. By leveraging the dielectric metasurface’s inherent alignment effect on liquid crystals on top of its electrically controllable properties, the need for liquid crystal alignment layer materials and related processes is eliminated, thus saving device manufacturing time and costs.
At the same time, the research team also achieved a modulation depth of 94% in the near-infrared communication wavelength band during experiments.
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