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Local self-uniformity in photonic networks

Author

Listed:
  • Steven R. Sellers

    (University of Surrey)

  • Weining Man

    (San Francisco State University)

  • Shervin Sahba

    (San Francisco State University)

  • Marian Florescu

    (University of Surrey)

Abstract

The interaction of a material with light is intimately related to its wavelength-scale structure. Simple connections between structure and optical response empower us with essential intuition to engineer complex optical functionalities. Here we develop local self-uniformity (LSU) as a measure of a random network’s internal structural similarity, ranking networks on a continuous scale from crystalline, through glassy intermediate states, to chaotic configurations. We demonstrate that complete photonic bandgap structures possess substantial LSU and validate LSU’s importance in gap formation through design of amorphous gyroid structures. Amorphous gyroid samples are fabricated via three-dimensional ceramic printing and the bandgaps experimentally verified. We explore also the wing-scale structuring in the butterfly Pseudolycaena marsyas and show that it possesses substantial amorphous gyroid character, demonstrating the subtle order achieved by evolutionary optimization and the possibility of an amorphous gyroid’s self-assembly.

Suggested Citation

  • Steven R. Sellers & Weining Man & Shervin Sahba & Marian Florescu, 2017. "Local self-uniformity in photonic networks," Nature Communications, Nature, vol. 8(1), pages 1-13, April.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms14439
    DOI: 10.1038/ncomms14439
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