2022
DOI: 10.1038/s41467-022-30381-w
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High capacity topological coding based on nested vortex knots and links

Abstract: Optical knots and links have attracted great attention because of their exotic topological characteristics. Recent investigations have shown that the information encoding based on optical knots could possess robust features against external perturbations. However, as a superior coding scheme, it is also necessary to achieve a high capacity, which is hard to be fulfilled by existing knot-carriers owing to the limit number of associated topological invariants. Thus, how to realize the knot-based information codi… Show more

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Cited by 36 publications
(20 citation statements)
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“…We anticipate that NDSTPs will inspire potential applications such as light-matter interactions, superresolution microscopy, telecommunications, remote sensing and lidar. For instance, optical communications schemes based on topologically structured light, such as the ND-STPs, could lead to high capacity information transfer that does not suffer from divergence and is robust upon propagation through perturbing media [51,52].…”
Section: Discussionmentioning
confidence: 99%
“…We anticipate that NDSTPs will inspire potential applications such as light-matter interactions, superresolution microscopy, telecommunications, remote sensing and lidar. For instance, optical communications schemes based on topologically structured light, such as the ND-STPs, could lead to high capacity information transfer that does not suffer from divergence and is robust upon propagation through perturbing media [51,52].…”
Section: Discussionmentioning
confidence: 99%
“…A new family of topologically nontrivial solutions to Maxwell’s equations in 3D has recently been discovered, featuring vorticity lines in the form of knots and links. These solutions have attracted significant attention due to their nontrivial spatial properties. Knots and links are crucial in various physical fields such as plasma, quantum field theory, , classical fluid dynamics, , and liquid crystals. , Light is an ideal candidate for investigating knotted field configurations, potentially enabling the quantification and understanding of knottedness in different matter systems.…”
Section: Topological Concepts: From Geometric Phase To Topological Ba...mentioning
confidence: 99%
“…Such information carrier is robust to turbulence disturbances without additional phase compensation devices. 39 In addition, a nested vortex knots with topological invariance were exploited recently to design a large capacity of topological coding scheme, 81 shown in Figure 9d. The multiple DoFs of light for enhancing communication capacity was also recently expected to be improved by photonic skyrmions with extended topological numbers.…”
Section: Information Carriersmentioning
confidence: 99%