AI Article Synopsis
- Dielectric metasurfaces with quasi-bound states in the continuum (qBICs) can boost field enhancement through narrow resonances in the visible and near-infrared ranges.
- A new silicon-on-silica metasurface design supports up to four qBIC resonances by using an elliptical cylinder array with varied symmetry-breaking shapes.
- The study showcases the nonlinear process of four-wave mixing and highlights the potential applications in areas like information multiplexing and multi-wavelength sensing using the unique geometric control of qBICs.
Article Abstract
Dielectric metasurfaces supporting quasi-bound states in the continuum (qBICs) enable high field enhancement with narrow-linewidth resonances in the visible and near-infrared ranges. The resonance emerges when distorting the meta-atom's geometry away from a symmetry-protected BIC condition and, usually, a given design can sustain one or two of these states. In this work, we introduce a silicon-on-silica metasurface that simultaneously supports up to four qBIC resonances in the near-infrared region. This is achieved by combining multiple symmetry-breaking distortions on an elliptical cylinder array. By pumping two of these resonances, the nonlinear process of degenerate four-wave mixing is experimentally realized. By comparing the nonlinear response with that of an unpatterned silicon film, the near-field enhancement inside the nanostructured dielectric is revealed. The presented results demonstrate independent geometric control of multiple qBICs and their interaction through wave mixing processes, opening new research pathways in nanophotonics, with potential applications in information multiplexing, multi-wavelength sensing and nonlinear imaging.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11501966 | PMC |
| http://dx.doi.org/10.1515/nanoph-2024-0128 | DOI Listing |
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