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Phase-Shifting Structured Illumination with a Polarization-Encoded Metasurface

Linzhi Yu, Jesse Pietila, Haobijam Johnson Singh, Hümeyra Çağlayan

2025Nano Letters8 citationsDOIOpen Access PDF

Abstract

Phase-shifting structured illumination is a powerful technique used across diverse imaging modalities including 3D surface measurement, quantitative phase imaging, and super-resolution microscopy. However, conventional implementations often rely on mechanically or optoelectronically driven complex systems, limiting the compactness, stability, and integration. Here, we present a polarization-controlled dielectric metasurface that generates phase-shifting fringe patterns in the visible spectrum, enabling compact and robust structured light projection. The metasurface encodes distinct phase gratings for orthogonal polarizations, producing fringe patterns with lateral displacements that vary with the transmitted polarization. We experimentally demonstrate high-quality fringe generation and apply the structured illumination in a fringe projection profilometry system for the 3D surface measurement of different objects. The metasurface integrates multiple phase-shifting steps into a single static device, offering a millimeter-scale footprint and compatibility with polarization multiplexing. This approach introduces a compact, passive solution for structured light generation with broad potential in optical metrology and computational imaging.

Topics & Concepts

OpticsStructured lightMetrologyPolarization (electrochemistry)Orthogonal polarization spectral imagingProfilometerStructured-light 3D scannerMultiplexingDielectricInterferometryPhase retrievalComputer sciencePhysicsMaterials scienceOptoelectronicsScannerSurface roughnessFourier transformPhysical chemistryQuantum mechanicsLaserTelecommunicationsChemistryOptical measurement and interference techniquesMetamaterials and Metasurfaces ApplicationsAdvanced Optical Imaging Technologies
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