Nanophotonics (Aug 2024)

Clearing a path for light through non-Hermitian media

  • Dave Utsav D.,
  • Bhatt Gaurang R.,
  • Rodrigues Janderson R.,
  • Datta Ipshita,
  • Lipson Michal

DOI
https://doi.org/10.1515/nanoph-2024-0140
Journal volume & issue
Vol. 13, no. 21
pp. 3945 – 3952

Abstract

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The performance of all active photonic devices today is greatly limited by loss. Here, we show that one can engineer a low loss path in a metal-clad lossy multi-mode waveguide while simultaneously achieving high-performance active photonic devices. We leverage non-Hermitian systems operating beyond the exceptional point to enable the redistribution of losses in a multi-mode photonic waveguide. Consequently, our multi-mode waveguide offers low propagation losses for fundamental mode while other higher order modes experience prohibitively high losses. Furthermore, we show an application of this non-Hermitian waveguide platform in designing power-efficient thermo-optic phase shifters with significantly faster response times than conventional silicon-based thermo-optic phase shifters. Our device achieves a propagation loss of less than 0.02 dB μm−1 for our non-Hermitian waveguide-based phase shifters with high performance efficiency of P π ⋅ τ = 19.1 mW μs. In addition, our phase shifters have significantly faster response time (rise/fall time), τ ≈ 1.4 μs, compared to traditional silicon based thermo-optic phase shifters.

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