Fangcao Peng scite author profile

Aimed at a high-performance biosensor for sensing biological molecules quickly and accurately, a novel nonuniform photonic crystal waveguide (NUPhCW) with a feedback loop is systematically investigated based on the mode-splitting effect. Thanks to the careful design of the nonuniform holes of NUPhCW with a feedback loop, the Autler-Townes splitting occurs in our device, and the spacing of two splitting resonance modes changes with the environmental refractive index, which is beneficial for achieving biosensing scenarios. Further, this integrated structure allows for self-referencing detection for immunity against environmental noise. Sensitivity of the NUPhCW is achieved at ∼117 nm/RIU, which is 2.6 times more than that of the common microring resonator, indicating that our proposed device structure would be promising for high-quality optical label-free sensing.

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Introducing waveguide loss: Another way to realize a high-sensitivity microring biosensor

Zhang

Wang

Peng

et al. 2020

Optik

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Fangcao Peng

High-Sensitivity Refractive Index Sensing Based on Fano resonances in a Photonic Crystal Cavity-Coupled Microring Resonator

Achieving wide-range photonics applications based on a compact grating-assisted silicon micro-ring resonator

Autler–Townes splitting biosensing based on a nonuniform photonic crystal waveguide with feedback loop

Introducing waveguide loss: Another way to realize a high-sensitivity microring biosensor

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