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Bai, X., Zhang, F., Sun, L., Cao, A., Wang, X., Kong, F., et al. (2022) Radiation-Type Programmable Metasurface for Direct Manipulation of Electromagnetic Emission. Laser & Photonics Reviews, 16, Article 2200140. https://doi.org/10.1002/lpor.202200140

has been cited by the following article:

• TITLE: Broadband Polarization Conversion Transmissive Janus Metasurface

  AUTHORS: Wenxin Liu, Hexiu Xu

  KEYWORDS: Metasurfaces, Janus, Broadband

  JOURNAL NAME: Journal of Computer and Communications, Vol.14 No.1, January 30, 2026

  ABSTRACT: This study addresses the limitations of conventional metasurfaces, which exhibit symmetric electromagnetic responses under forward and backward incidences and are difficult to achieve distinct functionalities and wavefront control. A multi-layer metasurface based on a polarization-ordered binary double-sided design is proposed. By breaking spatial symmetry at the structural level, diode-like asymmetric transmission and independent wavefront control are achieved. The design adopts a checkerboard-like staggered arrangement of unit cells, enabling different functionalities under forward and backward incidences for the same polarized wave. Orthogonal polarization conversion and broadband phase coverage are realized using multi-layer twisted metallic structures and a grating layer. Simulation results demonstrate that the metasurface achieves a - 30° beam deflection under forward incidence, while generating a vortex beam with topological charge 1 under backward incidence. The two channels exhibit good isolation, along with broadband and high transmission efficiency characteristics. This research provides new insights for high-performance non-reciprocal devices, bidirectional multi-functional integrated antennas, and information-encryption surfaces.