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Discontinuous orbital angular momentum metasurface holography

Xinyue Gao, Zhipeng Yu, Jing Yao, X D Mu, Yuzhi Shi, Puxiang Lai, Bo Li, Qinghua Song

2025Nature Communications9 citationsDOIOpen Access PDF

Abstract

Orbital angular momentum (OAM) multiplexing holography has emerged as a pivotal technology for high-capacity optical communication, encryption and display, but it requires multiple inputs for decoding and its security remain constrained due to the rotational symmetry of topological charge (TC) distribution in conventional OAM modes. Here, we introduce a general paradigm of OAM multiplexing holography that enables multi-channel holographic encoding using a single incident light. Our methodology leverages a discontinuous OAM with a spatially varying TC across the azimuth, which breaks the rotational symmetry and imposes angular selectivity for information retrieval. Notably, by rationally designing the TC distribution, the discontinuous OAM exhibits self-orthogonality at different rotation angles, laying the foundation for multiplexed holography. A modified weighted Gerchberg-Saxton algorithm is developed to calculate the holographic phase profile, which can then be encoded onto a pure geometry-phase metasurface. By further integrating different pairs of discontinuous OAMs, we successfully expand the channel capacity for holographic multiplexing, significantly advancing high-security and high-capacity optical information encryption. Our work establishes discontinuous OAM as a versatile platform for secure optical communications, high-density data storage, and dynamic holographic displays, bridging the gap between structured light manipulation and cryptographic robustness.

Topics & Concepts

HolographyAngular momentumMultiplexingPhysicsOrbital angular momentum multiplexingEncryptionEncoding (memory)Decoding methodsRotation (mathematics)OpticsRotational symmetrySymmetry (geometry)Translational symmetryOptical vortexPhase (matter)Topology (electrical circuits)Computer scienceOptical tweezersOrbital angular momentum of lightAngular displacementComputer-generated holographyStructured lightHolographic principlePhaserOptical communicationQuantum entanglementCryptographyGeometric phaseSpin (aerodynamics)LaserOrbital Angular Momentum in OpticsMetamaterials and Metasurfaces ApplicationsAdvanced Wireless Communication Technologies
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