谐振器
光学
诺共振
折射率
栅栏
波导管
材料科学
法诺平面
光电子学
衍射光栅
物理
等离子体子
数学
纯数学
作者
Xinyu Li,Xinzhe Xiong,Yan Song,Shibo Sun,Yameng Xu,Li Shen
标识
DOI:10.1109/jlt.2025.3569796
摘要
High sensitivity and low detection limit are critical for refractive index (RI) sensors. This work introduces a subwavelength grating waveguide microring resonator (SWG-MRR) as a novel platform for achieving Fano resonances without relying on complex cascaded structures. By tracking the Fano resonance of the SWG-MRR, high-performance RI sensing is experimentally demonstrated with high sensitivity and low detection limit. Using the wavelength detection method, the sensitivity and detection limit are 460 nm/RIU and 4.35×10-5 RIU, respectively. For the intensity detection approach, the sensitivity and detection limit are 2.05×104 dB/RIU and 4.88×10-8 RIU, respectively. This work presents an efficient scheme for realizing Fano resonances and highlights the SWG-MRR as a promising candidate for lab-on-chip sensing systems.
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