Litcius/Paper detail

Morphogenetic metasurfaces: unlocking the potential of Turing patterns

Thomas Fromentèze, Okan Yurduseven, C.Z. Uche, Éric Arnaud, David R. Smith, Cyril Decroze

2023Nature Communications15 citationsDOIOpen Access PDF

Abstract

The reaction-diffusion principle imagined by Alan Turing in an attempt to explain the structuring of living organisms is leveraged in this work for the procedural synthesis of radiating metasurfaces. The adaptation of this morphogenesis technique ensures the growth of anisotropic cellular patterns automatically arranged to satisfy local electromagnetic constraints, facilitating the radiation of waves controlled in frequency, space, and polarization. Experimental validations of this method are presented, designing morphogenetic metasurfaces radiating far-field circularly polarized beams and generating a polarization-multiplexed hologram in the radiative near-field zone. The exploitation of morphogenesis-inspired models proves particularly well suited for solving generative design problems, converting global physical constraints into local interactions of simulated chemical reactants ensuring the emergence of self-organizing meta-atoms.

Topics & Concepts

TuringComputer scienceProgramming languageModular Robots and Swarm IntelligenceCellular Automata and ApplicationsMetamaterials and Metasurfaces Applications