In recent years, significant advancements in laser technology and optical systems have led to the development of sophisticated photonic devices with diverse applications, ranging from telecommunications and display technology to biomedical diagnostics and quantum computing. At the forefront of these innovations are multi-domain liquid crystal photonic devices, which leverage the tunable optical properties of liquid crystals to manipulate light in a variety of ways. The dynamic control of light offered by these devices has made them integral components in modern photonics, contributing to innovations such as adaptive optics, beam steering, displays, and holography. To push the boundaries of what is possible with liquid crystal-based photonic devices, researchers have increasingly turned to the integration of advanced fluid mechanics principles.
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Fluid Mechanics: Open Access received 291 citations as per Google Scholar report
