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Scalable high-precision tuning of photonic resonators by resonant cavity-enhanced photoelectrochemical etching

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  • Eduardo Gil-Santos

    (Matériaux et Phénomènes Quantiques, Université Paris Diderot, CNRS UMR 7162)

  • Christopher Baker

    (Matériaux et Phénomènes Quantiques, Université Paris Diderot, CNRS UMR 7162)

  • Aristide Lemaître

    (Laboratoire de Photonique et de Nanostructures)

  • Sara Ducci

    (Matériaux et Phénomènes Quantiques, Université Paris Diderot, CNRS UMR 7162)

  • Carmen Gomez

    (Laboratoire de Photonique et de Nanostructures)

  • Giuseppe Leo

    (Matériaux et Phénomènes Quantiques, Université Paris Diderot, CNRS UMR 7162)

  • Ivan Favero

    (Matériaux et Phénomènes Quantiques, Université Paris Diderot, CNRS UMR 7162)

Abstract

Photonic lattices of mutually interacting indistinguishable cavities represent a cornerstone of collective phenomena in optics and could become important in advanced sensing or communication devices. The disorder induced by fabrication technologies has so far hindered the development of such resonant cavity architectures, while post-fabrication tuning methods have been limited by complexity and poor scalability. Here we present a new simple and scalable tuning method for ensembles of microphotonic and nanophotonic resonators, which enables their permanent collective spectral alignment. The method introduces an approach of cavity-enhanced photoelectrochemical etching in a fluid, a resonant process triggered by sub-bandgap light that allows for high selectivity and precision. The technique is presented on a gallium arsenide nanophotonic platform and illustrated by finely tuning one, two and up to five resonators. It opens the way to applications requiring large networks of identical resonators and their spectral referencing to external etalons.

Suggested Citation

  • Eduardo Gil-Santos & Christopher Baker & Aristide Lemaître & Sara Ducci & Carmen Gomez & Giuseppe Leo & Ivan Favero, 2017. "Scalable high-precision tuning of photonic resonators by resonant cavity-enhanced photoelectrochemical etching," Nature Communications, Nature, vol. 8(1), pages 1-7, April.
  • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms14267
    DOI: 10.1038/ncomms14267
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    Cited by:

    1. Roel Burgwal & Ewold Verhagen, 2023. "Enhanced nonlinear optomechanics in a coupled-mode photonic crystal device," Nature Communications, Nature, vol. 14(1), pages 1-12, December.

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