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Linear and Nonlinear Polarization Syntheses and Their Programmable Controls based on Anisotropic Time‐Domain Digital Coding Metasurface

Jun Ke, Jun Yan Dai, Ming Zheng Chen, Li Wang, Cheng Zhang, Wankai Tang, Jin Yang, Wei Liu, Xin Li, Yunfeng Lu, Qiang Cheng, Shi Jin, Tie Jun Cui

2020Small Structures102 citationsDOI

Abstract

Spatial polarization converter can shift the polarization state of incident wave to another state in a specific frequency band. The traditional polarization conversion devices mainly include natural materials and artificial electromagnetic (EM) structures, which are generally sensitive to the incident polarization states and cannot realize polarization manipulations of nonlinear harmonics. These drawbacks limit their developments in wireless communications and radar detection applications. Herein, a general polarization regulation scheme based on anisotropic time‐domain digital coding metasurface is proposed that can achieve both linear and nonlinear polarization syntheses and realize their programmable controls in real time. In this scheme, a nonlinear modulation theory into the polarization conversion methods is integrated, and thus, the scope of the polarization regulation is expanded. An anisotropic time‐domain digital coding metasurface is designed and fabricated to validate the feasibility of the proposed scheme. Theoretical predictions have good agreements with the experiments. The results of this study are expected to promote the developments of space‐time‐polarization regulations and provide efficient approaches for precise EM detections.

Topics & Concepts

Polarization (electrochemistry)Nonlinear systemTime domainElectronic engineeringComputer sciencePhysicsLinear polarizationOpticsEngineeringLaserQuantum mechanicsChemistryPhysical chemistryComputer visionMetamaterials and Metasurfaces ApplicationsAdvanced Antenna and Metasurface TechnologiesAntenna Design and Analysis
Linear and Nonlinear Polarization Syntheses and Their Programmable Controls based on Anisotropic Time‐Domain Digital Coding Metasurface | Litcius