Two-peak envelope spectrum of a subwavelength grating microring resonator for wide-range and high-sensitivity refractive index sensing

IF 2.5 3区 物理与天体物理 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Shibo Sun, Meiyu Chang, Mei Kong, Yameng Xu
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Abstract

The detectable range and sensitivity play a key role in the accuracy and range of applications available for lab-on-a-chip sensing systems. Here, we propose and numerically demonstrate an on-chip refractive index sensor simultaneously possessing wide detectable range and high sensitivity through monitoring the two-peak envelope spectrum of a subwavelength grating microring resonator. The principle lies in the combination of the envelope spectrum tracking scheme and the light field releasing in subwavelength grating waveguides. The structure of the subwavelength grating microring resonator is designed to adjust the wavelength dependence of its critical coupling condition, so that the two-peak envelope spectrum can be formed and centered at critically coupled wavelengths. By probing the drift of the two-peak envelope spectrum within the C+L band (1530–1625 nm), we lift the free spectral range constraint on the detectable range and broaden it up to 0.46 RIU. Meanwhile, a sensitivity of 444 nm/RIU is achieved. This investigation provides an attractive candidate for high performance integrated sensors, and thus may pave the way for lab-on-chip sensing, especially in application scenarios demanding both wide detectable range and high sensitivity.

用于大范围高灵敏度折射率传感的亚波长光栅微光谐振器的双峰包络谱
可探测范围和灵敏度对片上实验室传感系统的精度和应用范围起着关键作用。在此,我们提出了一种片上折射率传感器,通过监测亚波长光栅微孔谐振器的双峰包络谱,同时拥有宽检测范围和高灵敏度,并对其进行了数值演示。其原理在于将包络谱跟踪方案与亚波长光栅波导中的光场释放相结合。亚波长光栅微光谐振器的结构设计可以调整其临界耦合条件的波长依赖性,从而在临界耦合波长上形成双峰包络谱并使其居中。通过探测 C+L 波段(1530-1625 nm)内双峰包络谱的漂移,我们解除了对可探测范围的自由光谱范围限制,并将其扩大到 0.46 RIU。同时,灵敏度也达到了 444 nm/RIU。这项研究为高性能集成传感器提供了一个有吸引力的候选方案,从而为实验室芯片传感铺平了道路,尤其是在要求宽检测范围和高灵敏度的应用场景中。
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来源期刊
CiteScore
5.00
自引率
3.70%
发文量
77
审稿时长
62 days
期刊介绍: This journal establishes a dedicated channel for physicists, material scientists, chemists, engineers and computer scientists who are interested in photonics and nanostructures, and especially in research related to photonic crystals, photonic band gaps and metamaterials. The Journal sheds light on the latest developments in this growing field of science that will see the emergence of faster telecommunications and ultimately computers that use light instead of electrons to connect components.
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