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太赫兹波段中具有超高品质因数的带隙内两种独立的超束缚态模式及其在潜在传感应用中的研究

Two Individual Super-Bound State Modes within Band Gap with Ultra-High Factor for Potential Sensing Applications in the Terahertz Wave Band.

作者信息

An Yinbing, Fu Tao, Guo Chunyu, Pei Jihong, Ouyang Zhengbiao

机构信息

College of Physics and Optoelectronic Engineering, Shenzhen University, Shenzhen 518060, China.

THz Technical Research Center, Shenzhen Key Laboratory of Micro-Nano Photonic Information Technology, Key Laboratory of Optoelectronic Devices and Systems of Ministry of Education and Guangdong Province, Shenzhen University, Shenzhen 518060, China.

出版信息

Sensors (Basel). 2023 Jul 27;23(15):6737. doi: 10.3390/s23156737.

Abstract

Bound states in the continuum (BICs) garnered significant research interest in the field of sensors due to their exceptionally high-quality factors. However, the wide-band continuum in BICs are noise to the bound states, and it is difficult to control and filter. Therefore, we constructed a top-bottom symmetric cavity containing three high permittivity rectangular columns. The cavity supports a symmetry-protected (SP) superbound state (SBS) mode and an accidental (AC) SBS mode within the bandgap. With a period size of 5 × 15, the bandgap effectively filters out the continuum, allowing only the bound states to exist. This configuration enabled us to achieve a high signal-to-noise ratio and a wide free-spectral-range. The AC SBS and the SP SBS can be converted into quasi-SBS by adjusting different parameters. Consequently, the cavity can function as a single-band sensor or a dual-band sensor. The achieved bulk sensitivity was 38 µm/RIU in terahertz wave band, and a record-high FOM reached 2.8 × 10 RIU. The effect of fabrication error on the performance for sensor application was also discussed, showing that the application was feasible. Moreover, for experimental realization, a 3D schematic was presented. These achievements pave the way for compact, high-sensitivity biosensing, multi-wavelength sensing, and other promising applications.

摘要

连续谱中的束缚态(BICs)因其极高的品质因数而在传感器领域引起了广泛的研究兴趣。然而,BICs中的宽带连续谱对于束缚态来说是噪声,并且难以控制和滤波。因此,我们构建了一个包含三个高介电常数矩形柱的上下对称腔。该腔在带隙内支持一种对称保护(SP)超束缚态(SBS)模式和一种偶然(AC)SBS模式。周期尺寸为5×15时,带隙有效地滤除了连续谱,仅允许束缚态存在。这种结构使我们能够实现高信噪比和宽自由光谱范围。通过调整不同参数,AC SBS和SP SBS可以转换为准SBS。因此,该腔可以用作单波段传感器或双波段传感器。在太赫兹波段实现的体灵敏度为38 µm/RIU,创纪录的高优值达到2.8×10 RIU。还讨论了制造误差对传感器应用性能的影响,表明该应用是可行的。此外,为了实现实验,给出了一个三维示意图。这些成果为紧凑、高灵敏度生物传感、多波长传感及其他有前景的应用铺平了道路。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b166/10422254/c776a303d864/sensors-23-06737-g001.jpg

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