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Slow light topological photonics with counter-propagating waves and its active control on a chip

Author

Listed:
  • Abhishek Kumar

    (Nanyang Technological University
    Nanyang Technological University)

  • Yi Ji Tan

    (Nanyang Technological University
    Nanyang Technological University)

  • Nikhil Navaratna

    (Nanyang Technological University
    Nanyang Technological University)

  • Manoj Gupta

    (Nanyang Technological University
    Nanyang Technological University)

  • Prakash Pitchappa

    (Technology and Research)

  • Ranjan Singh

    (Nanyang Technological University
    Nanyang Technological University)

Abstract

Topological slow light exhibits potential to achieve stopped light by virtue of its widely known robust and non-reciprocal behaviours. Conventional approach for achieving topological slow light often involves flat-band engineering without disentangling the underlying physical mechanism. Here, we unveil the presence of counter-propagating waves within valley kink states as the distinctive hallmark of the slow light topological photonic waveguides. These counter-propagating waves, supported by topological vortices along glide-symmetric interface, provide significant flexibility for controlling the slowness of light. We tune the group velocity of light by changing the spatial separation between vortices adjacent to the glide-symmetric interface. We also dynamically control the group delay by introducing a non-Hermitian defect using photoexcitation to adjust the relative strength of the counter-propagating waves. This study introduces active slow light topological photonic device on a silicon chip, opening new horizons for topological photon transport through defects, topological light-matter interactions, nonlinear topological photonics, and topological quantum photonics.

Suggested Citation

  • Abhishek Kumar & Yi Ji Tan & Nikhil Navaratna & Manoj Gupta & Prakash Pitchappa & Ranjan Singh, 2024. "Slow light topological photonics with counter-propagating waves and its active control on a chip," Nature Communications, Nature, vol. 15(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-45175-5
    DOI: 10.1038/s41467-024-45175-5
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    References listed on IDEAS

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    1. Yurii A. Vlasov & Martin O'Boyle & Hendrik F. Hamann & Sharee J. McNab, 2005. "Active control of slow light on a chip with photonic crystal waveguides," Nature, Nature, vol. 438(7064), pages 65-69, November.
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