用于折射率传感的双层高对比度偏光中具有温度自我补偿功能的稳健高 Q 值准 BIC

Jiaxi Sun, Jinhua Hu, Lei Li, Jijun Zhao
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引用次数: 0

摘要

我们提出了一种双层高对比度元晶结构,它具有稳健的高质量(Q)和温度自补偿功能,可用于四波段折射率传感。该结构支持连续体中的四波段对称保护束缚态(SP-BIC),由于结构对称性破缺,这些束缚态转化为准 BIC。然而,这些准 BIC 的 Q 因子受到扰动参数的限制,妨碍了实际制造。有趣的是,通过调整空腔长度,我们在连续体中实现了四带法布里-佩罗束缚态(FP-BIC),即使在大扰动下也能将共振模式转换回高 Q 值的准 BIC。这种方法有利于提高 Q 因子的稳健性和调制自由度。此外,我们还利用由两种具有相反热光学(TO)色散的材料组成的双层高对比度元晶实现了温度自补偿。仿真结果表明,最大折射率灵敏度为 470.9 nm/RIU,优度为 427818.2,Q 因子高达 9.3×105。所提出的双层高对比度元晶在多路和高性能传感方面具有潜在的应用前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Robust high-Q quasi-BICs in double-layer high-contrast metagrating with temperature self-compensation for refractive index sensing
We propose a double-layer high-contrast metagrating structure with robust high-quality (Q) and temperature self-compensation for four-band refractive index sensing. The structure supports four-band symmetry-protected bound states in the continuum (SP-BICs) that transform into quasi-BICs as a result of structural symmetry breaking. However, the Q-factor of these quasi-BICs are limited by perturbation parameters, hampering practical fabrication. Interestingly, tuning the cavity length, we implement four-band Fabry–Pérot bound states in the continuum (FP-BICs) to transform the resonance mode back into high-Q quasi-BICs even at large perturbations. This approach is conducive to improving robustness and modulation freedom of Q-factors. In addition, we achieve temperature self-compensation by using the double-layer high-contrast metagrating consists of two materials with opposite thermo-optic (TO) dispersions. The simulation results indicate that the largest refractive index sensitivity is 470.9 nm/RIU, its figure of merit is 427818.2, and its Q-factor up to 9.3×105. The proposed double-layer high-contrast metagrating has potential application prospects for multiplex and high-performance sensing.
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