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3-D-Printed Pentahedral Polarization-Division Transmissive Metadevice With Versatile Wavefronts

Chaohui Wang, He‐Xiu Xu, Rongqiang Zhu, Haiyang Ding, Bing Li, Xiaofeng Wang, Chenhao Yang, Yi Lu

2026IEEE Transactions on Antennas and Propagation25 citationsDOI

Abstract

A novel pentahedral polarization-multiplexed metadevice concept is proposed via metasurfaces (MSs), providing an alternative avenue toward the capacity and versatility limit of integrated functions. First, a multi-layer anisotropic transmissive meta-atom is proposed for phase control of differently polarized waves. Next, five individual sub-MSs are designed and assembled using a 3D-printed pentahedral frame. Finally, a proof-of-concept pentahedral device is experimentally characterized, demonstrating diverse functionalities including the generation of highly directive beams, tri-beam radiation, dual-vortex beams, and dual-beam in orthogonal linearly polarized (LP) and decoupled co-/cross-circularly polarized (CP) channels. Measured and simulated results coincide well and illustrate the effectiveness of the space-polarization multiplexing concept in versatile wavefront control over a pentahedral platform.

Topics & Concepts

WavefrontOpticsMultiplexingPhysicsLimit (mathematics)Computer sciencePhase (matter)AnisotropyPhase controlDeformable mirrorPhase modulationPolarization (electrochemistry)InterferometryPhotolithographyOptical filterAdaptive opticsOrthogonalityOrthogonal polarization spectral imagingIntegrated opticsPhase conjugationOptoelectronicsPhysical opticsMaterials scienceSignal-to-noise ratio (imaging)Metamaterials and Metasurfaces ApplicationsAdvanced Antenna and Metasurface TechnologiesOrbital Angular Momentum in Optics
3-D-Printed Pentahedral Polarization-Division Transmissive Metadevice With Versatile Wavefronts | Litcius