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    • More Is Less in Unpercolated Active Solids
    • Nonreciprocal Buckling Makes Active Filaments Polyfunctional
    • Twisted Optical Fibres as Photonic Topological Insulators
    • Adaptive Locomotion of Active Solids
    • Curved Odd Elasticity
    • Geometry of the Vapor Layer under a Leidenfrost Hydrogel Sphere
    • The 2025 Motile Active Matter Roadmap
    • Wave Coarsening Drives Time Crystallization in Active Solids
    • Modeling Leidenfrost Levitation of Soft Elastic Solids
    • Active Elastocapillarity in Soft Solids with Negative Surface Tension
    • Active Solids Sync Up
    • Odd Living Matter Defies the Golden Rule of Mechanics
    • Geometry of Bend: Singular Lines and Defects in Twist-Bend Nematics
    • Three-Dimensional Active Defect Loops
    • Stable and Unstable Vortex Knots in Excitable Media
    • Maxwell's Theory of Solid Angle and the Construction of Knotted Fields
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    • "Twisted optical fibres.." featured on the cover of Nature Photonics
      • Associated Publications
    • "Nonreciprocal buckling..." featured on the cover of PNAS
    • "More is less.." is featured in Physics Viewpoint
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    • Locomotion of active metamaterials
    • Odd elasticity
    • Synchronization of active solids
    • Flows of active liquid crystals
    • Disordered mechanical metamaterials
    • Snapping active beams for soft robots
    • Topologically protected edge transport
    • Shape morphing soft solids
    • Levitating hydrogels
    • Knotted soft matter
    • Topological defect dynamics in soft matter
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"Twisted optical fibres.." featured on the cover of Nature Photonics

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Our work on “Twisted optical fibres as Photonic Topological Insulators” has been featured on the front page of Nature Photonics here, with a great commentary piece by Michael Rechtsman here.

Associated Publications

  • Twisted Optical Fibres as Photonic Topological Insulators
Last updated on May 10, 2026
"Nonreciprocal buckling..." featured on the cover of PNAS →

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