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Seeing through randomness with topological light

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arxiv 2508.12305 v1 pith:ULRQRZKX submitted 2025-08-17 physics.optics

Seeing through randomness with topological light

classification physics.optics
keywords lighttopologymediarandomtopologicalangularapplicationschannels
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Transmitting structured light robustly through complex random media is crucial in many applications, from sensing to communication. Unfortunately, the spatial structure of light is distorted in such media due to refractive index inhomogeneities that cause multiple scattering, requiring mitigating strategies such as iterative optimisation and adaptive optics. Here, we use topological light to see through random media without the need for any corrective measures. Using skyrmions as our optical topology, we first demonstrate their robustness to randomness using controlled digital random phase masks before showing the universality of the approach with physical samples, from biological tissue to highly scattering materials. We benchmark the invariance of the topology against orbital angular momentum (OAM) and show no modal crosstalk using topology in channels where orbital angular momentum exhibits crosstalk greater than 70%. With the control in hand, we transmit images encoded into an alphabet of 10 topological numbers and show information transfer with high fidelity in regimes where traditional degrees of freedom, such as OAM, fail. Our work represents an important step towards noise-free transmission through noisy channels with the spatial structure of light without the need for active compensation strategies, opening potential applications in imaging, sensing and communicating with topology.

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Forward citations

Cited by 2 Pith papers

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Storage and retrieval of optical skyrmions with topological characteristics

    quant-ph 2025-12 unverdicted novelty 8.0

    Optical skyrmions were stored and retrieved in cold 87Rb vapor while preserving their skyrmion number for several microseconds under perturbations.

  2. Incoherent light delivers skyrmionic topological resilience and transitions

    physics.optics 2026-04 unverdicted novelty 7.0

    Partially coherent light sustains skyrmionic topological structures with self-healing resilience under turbulence and allows active control of phase transitions.