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Longitudinally variable 3D optical polarization structures The metasurface design includes a metalens with an off-axis focal point, geometric phase realization, linear polarization rotation at each focal point, multiple 3D knots design, longitudinally variable control, and phase multiplexing in 3D space
A comparative review of multi-axis 3D printing - ScienceDirect Multi-axis 3D printing has emerged as a key solution to the challenges associated with the strength, anisotropy, and fabrication of large-scale structures in material-deposition-based 3D printing processes In view of the rapid progress in this field, this article summarizes the unified workflow of multi-axis 3D printing and provides an overview, comparison, and review of the latest
Color-selective three-dimensional polarization structures To create multiple 3D polarization knots with the engineered polarization profiles and color information, the design of such a metadevice involves multi-foci design, polarization rotation, and
Experimental demonstration of 3D printed terahertz polarization . . . Thus, plenty of planar device applications including absorber, beam bending, polarization control, holograms, wave plates, vortex, Bessel or vector beam generation and flat lens can be realized based on metasurfaces [6, 7]
Multiple Multicolored 3D Polarization Knots Arranged along Light . . . Polarization and color play essential roles in understanding optical phenomena and practical applications Customized three-dimensional (3D) light fields, characterized by specific polarization and color distributions, have garnered growing interest owing to their unique optical attributes and expanded capacity for information encoding To align with the ongoing trend of compactness and