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Polychromatic Dual-Mode Imaging with Structured Chiral Photonic Crystals

Dong Zhu, Yiheng Zhang, Sijia Liu, Wen Chen, Lin Zhu, Shi‐Jun Ge, Peng Chen, Wei Duan, Yanqing Lu

2023Nano Letters35 citationsDOI

Abstract

Optical spatial differentiation is a typical operation of optical analog computing and can single out the edge to accelerate the subsequent image processing, but in some cases, overall information about the object needs to be presented synchronously. Here, we propose a multifunctional optical device based on structured chiral photonic crystals for the simultaneous realization of real-time dual-mode imaging. This optical differentiator is realized by self-organized large-birefringence cholesteric liquid crystals, which are photopatterned to encode with a special integrated geometric phase. Two highly spin-selective modes of second-order spatial differentiation and bright-field imaging are exhibited in the reflected and transmitted directions, respectively. Two-dimensional edges of both amplitude and phase objects have been efficiently enhanced in high contrast and the broadband spectrum. This work extends the ingenious building of hierarchical chiral nanostructures, enriches their applications in the emerging frontiers of optical computing, and boasts considerable potential in machine vision and microscopy.

Topics & Concepts

PhotonicsBirefringenceRealization (probability)BroadbandOpticsPhase (matter)DifferentiatorMaterials scienceOptical fieldComputer scienceOptoelectronicsPhysicsTelecommunicationsMathematicsStatisticsBandwidth (computing)Magnetic fieldQuantum mechanicsPhotonic Crystals and ApplicationsMetamaterials and Metasurfaces ApplicationsNeural Networks and Reservoir Computing
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